###############################<09.12.qr.info.txt>##############################
#
#        M   M                 III   V   V
#        MM MM                  I    V   V
#        M M M   gg g           I    V   V
#        M M M  g  gg           I    V   V
#        M   M  g   g           I    V   V
#        M   M   gggg           I    V   V
#        M   M      g           I     V V
#        M   M   ggg           III     V
#
#===============================================================================
#
#    Z = 12,  Ne =  9,  Ion =  3
#
#    Mg IV  Magnes.
#
#    2015-09-16
#
#    Author: P. Bogdanovich     <pavelas.bogdanovicius@tfai.vu.lt>
#
#===============================================================================
#
#    Approach used: QR+CI.
#    Energy operator: Breit-Pauli.
#    References: [05-3,08-3].
#
#===============================================================================
#
#    INVESTIGATED CONFIGURATIONS:
#    ground + excited = ODD  ( 4)
#  1s2 2s2 2p5
#  1s2 2s2 2p4 3p1
#  1s2 2s1 2p5 3s1
#  1s2 2s1 2p5 3d1
#    excited        = EVEN ( 4)
#  1s2 2s1 2p6
#  1s2 2s2 2p4 3s1
#  1s2 2s2 2p4 3d1
#  1s2 2s1 2p5 3p1
#
#    The number of the investigated levels:
#    ODD  -     53     EVEN -     55
#
#    Closed inner shells [ }  not listed.
#    All listed shells were active in the CI approach.
#
#===============================================================================
#
#    INFORMATION ABOUT MULTICONFIGURATION APPROACH USED
#
#    RADIAL ORBITAL BASE:
#    The number of radial orbitals = 43
#    QR - quasirelativistic radial orbital [05-4,06-5,07-3]
#    TRO - transformed radial orbital
#          for virtual excitations [99-4,08-3]
#    1s QR     2s QR     2p QR     3s QR     3p QR
#    3d QR     4s TRO    4p TRO    4d TRO    4f TRO
#    5s TRO    5p TRO    5d TRO    5f TRO    5g TRO
#    6s TRO    6p TRO    6d TRO    6f TRO    6g TRO
#    6h TRO    7s TRO    7p TRO    7d TRO    7f TRO
#    7g TRO    7h TRO    7i TRO    8p TRO    8d TRO
#    8f TRO    8g TRO    8h TRO    8i TRO    8k TRO
#    9p TRO    9d TRO    9f TRO    9g TRO    9h TRO
#    9i TRO    9k TRO    9l TRO
#
#===============================================================================
#
#    ADMIXED CONFIGURATION SELECTION REZULTS
#
#    Common passive shells:
#
#    One-electron virtual excitations {nl->n`l`} were included.               
#    They include Brillouin`s {nl->n`l} excitations.                          
#    Paired virtual excitations {nl(2)->n`l`(2)} were included.               
#    Non-paired virtual excitations {nl(2)->n`l` n``l``;  nl nl->n`l`(2);...} 
#    were included.                                                           
#    Admixed configurations were selected by their averaged weights Wi.
#
#
#    Averaged energy corrections Ei and weights Vi of admixed configurations
#    were calculated in the second order of perturbation theory [01-2].
#
#    Averaged weights of admixed configurations were normalized:
#    Wi=Vi/(1+SUM(Vi)).
#
#-------------------------------------------------------------------------------
#    Description of Data
#-------------------------------------------------------------------------------
# Units   Label          Explanation
#-------------------------------------------------------------------------------
# ---     NT             Total possible number of admixed configurations
# a.u.    ET             Sum of Ei of all admixed configurations
# ---     WT             Sum of Wi of all admixed configurations
# ---     NS             Number of selected admixed configurations
# ---     w              Admixed configurations selection criterion value
# a.u.    ES             Sum of Ei of selected configurations
# ---     WS             Sum of Wi of selected configurations
#  %      E%             100%*ES/ET
#  %      W%             100%*WS/WT
# ---     Configuration  Adjusted configuration
#-------------------------------------------------------------------------------
#   NT    ET       WT      NS    w       ES       WS      E%   W%  Configuration
#-------------------------------------------------------------------------------
# 1144 4.02E-01 2.08E-03  908 1.0E-08 4.02E-01 2.08E-03 100% 100%  2s2 2p5
# 1834 4.31E-01 3.89E-03 1274 1.0E-08 4.31E-01 3.89E-03 100% 100%  2s2 2p4 3p1
# 1511 4.91E-01 5.23E-03 1086 1.0E-08 4.91E-01 5.23E-03 100% 100%  2s1 2p5 3s1
# 1919 4.81E-01 4.66E-03 1029 1.0E-08 4.80E-01 4.66E-03 100% 100%  2s1 2p5 3d1
# 1021 4.98E-01 4.10E-03  786 1.0E-08 4.98E-01 4.10E-03 100% 100%  2s1 2p6
# 1612 4.16E-01 3.72E-03 1171 1.0E-08 4.15E-01 3.72E-03 100% 100%  2s2 2p4 3s1
# 2013 4.17E-01 3.61E-03 1114 1.0E-08 4.17E-01 3.61E-03 100% 100%  2s2 2p4 3d1
# 1741 4.63E-01 4.22E-03 1185 1.0E-08 4.62E-01 4.22E-03 100% 100%  2s1 2p5 3p1
#-------------------------------------------------------------------------------
#-------------------------------------------------------------------------------
#
#    The final numbers of selected
#    admixed configurations [01-2,01-4,05-1,06-2]
#    ODD  -  3305     EVEN -  3417
#
#    The total number of terms
#    (configuration state functions)
#    of all mixed configurations:
#    ODD  -  1997102     EVEN -  1991877
#
#    The used reduced [02-1,04-1] number of terms
#    (configuration state functions)
#    of all mixed configurations:
#    ODD  -   133277     EVEN -   137642
#
#    For byte-by-byte description of Energy Level Data see
#    <09.12.qr.elev.txt>
#
#===============================================================================
#
#    Explanation of the Radiative Transition Data
#
#    Electron transitions were calculated
#    for such types of transitions:
#    ODD  -> ODD     M1  E2
#    EVEN -> ODD     E1  M2  E3
#    EVEN -> EVEN    M1  E2
#
#    Number of all calculated transitions    10875
#
#    File <09.12.qr.tran.txt> contains selected transitions
#    with emission probabilities A > Amax * 1.0E-02
#
#    Number of selected transitions            592
#
#    Transitions from each initial level were ordered
#    in descending probabilities order.
#
#   For byte-by-byte description of Radiative Transition Data see
#   <09.12.qr.tran.txt>
#
#===============================================================================
#
#    Explanation of Electron-impact Excitation Data
#
#    Excitations by electron impact
#    (plane-wave Born approximation)
#    were calculated for  107 lowest levels.
#
#    Total number excitations     5735:  2810 even;  2925 odd.
#
#    Order  Number of excitations
#      0      355  ODD  - ODD
#      2     1170  ODD  - ODD
#      4      668  ODD  - ODD
#      1     1989  ODD  - EVEN
#      3     2125  ODD  - EVEN
#      0      365  EVEN - EVEN
#      2     1224  EVEN - EVEN
#      4      747  EVEN - EVEN
#
#    Ionization energy according NIST database is     109.265 eV.
#
#    Excitation calculated for   10 electron energies
#    Impacting electron energies were specified by the excitation energies
#    Eel(eV) = Ki * Eex(eV)
#    Values of Ki coefficients:
#    1.100E+00 1.200E+00 1.550E+00 2.000E+00 3.000E+00
#    5.500E+00 1.000E+01 2.000E+01 5.500E+01 1.000E+02
#
#    For byte-by-byte description of Electron-impact Excitation Data see
#    <09.12.qr.exxs.txt> - Cross Section Table
#    <09.12.qr.excs.txt> - Collision Strengths Table
#    <09.12.qr.ecst.txt> - Effective Collision Strengths Table
#
#===============================================================================
#
#    COMMENTS:
#
###############################<09.12.qr.info.txt>##############################