###############################<24.74.qr.info.txt>############################## # # W W L III # W W L I # W W L I # W W L I # W W W L I # W W W L I # W W W L I # W W LLLLL III # #=============================================================================== # # Z = 74, Ne = 24, Ion = 50 # # W LI Tungsten # # 2015-11-18 # # Author: P. Bogdanovich # #=============================================================================== # # Approach used: QR+CI. # Energy operator: Breit-Pauli. # References: [05-3,08-3]. # #=============================================================================== # # INVESTIGATED CONFIGURATIONS: # ground + excited = EVEN ( 3) # 3s2 3p6 3d6 # 3s1 3p6 3d7 # 3s2 3p4 3d8 # excited = ODD ( 3) # 3s2 3p5 3d7 # 3s1 3p5 3d8 # 3s2 3p3 3d9 # # The number of the investigated levels: # EVEN - 183 ODD - 238 # # Closed inner shells [Ne] not listed. # All listed shells were active in the CI approach. # #=============================================================================== # # INFORMATION ABOUT MULTICONFIGURATION APPROACH USED # # RADIAL ORBITAL BASE: # The number of radial orbitals = 36 # 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 8s TRO 8p TRO # 8d TRO 8f TRO 8g TRO 8h TRO 8i TRO # 8k TRO # #=============================================================================== # # ADMIXED CONFIGURATION SELECTION REZULTS # # Common passive shells: 1s 2s 2p # # 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 #------------------------------------------------------------------------------- # 1025 8.37E-01 3.92E-04 142 1.0E-06 7.62E-01 3.83E-04 91% 98% 3s2 3p6 3d6 #------------------------------------------------------------------------------- # 975 1.79E+00 4.60E-02 143 1.0E-06 1.72E+00 4.60E-02 96% 100% 3s1 3p6 3d7 # 1056 1.30E+00 1.79E-02 137 1.0E-06 1.22E+00 1.79E-02 94% 100% 3s2 3p4 3d8 # 1053 8.92E-01 4.02E-04 140 1.0E-06 8.12E-01 3.92E-04 91% 97% 3s2 3p5 3d7 # 998 1.35E+00 1.55E-02 145 1.0E-06 1.28E+00 1.55E-02 95% 100% 3s1 3p5 3d8 # 1054 2.01E+00 3.94E-02 128 1.0E-06 1.93E+00 3.94E-02 96% 100% 3s2 3p3 3d9 #------------------------------------------------------------------------------- # # The final numbers of selected # admixed configurations [01-2,01-4,05-1,06-2] # EVEN - 331 ODD - 329 # # The total number of terms # (configuration state functions) # of all mixed configurations: # EVEN - 1981863 ODD - 2310834 # # The used reduced [02-1,04-1] number of terms # (configuration state functions) # of all mixed configurations: # EVEN - 808540 ODD - 5716 # # For byte-by-byte description of Energy Level Data see # <24.74.qr.elev.txt> # #=============================================================================== # # Explanation of the Radiative Transition Data # # Electron transitions were calculated # for such types of transitions: # EVEN -> EVEN M1 E2 # ODD -> EVEN E1 M2 E3 # ODD -> ODD M1 E2 # # Number of all calculated transitions 140163 # # File <24.74.qr.tran.txt> contains selected transitions # with emission probabilities A > Amax * 1.0E-02 # # Number of selected transitions 5489 # # Transitions from each initial level were ordered # in descending probabilities order. # # For byte-by-byte description of Radiative Transition Data see # <24.74.qr.tran.txt> # #=============================================================================== # # Explanation of Electron-impact Excitation Data # # Excitations by electron impact # (plane-wave Born approximation) # were calculated for 420 lowest levels. # # Total number excitations 77104: 39187 even; 37917 odd. # # Order Number of excitations # 0 2878 EVEN - EVEN # 2 11600 EVEN - EVEN # 4 12134 EVEN - EVEN # 1 21520 EVEN - ODD # 3 34008 EVEN - ODD # 0 5020 ODD - ODD # 2 20172 ODD - ODD # 4 20674 ODD - ODD # # Ionization energy according NIST database is 4578.000 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 # <24.74.qr.exxs.txt> - Cross Section Table # <24.74.qr.excs.txt> - Collision Strengths Table # <24.74.qr.ecst.txt> - Effective Collision Strengths Table # #=============================================================================== # # COMMENTS: # ###############################<24.74.qr.info.txt>##############################