*************************** 786 ******************************************* Ref. "Fine structure radiative transitions in C II and C III using the Breit-Pauli R-matrix method", Sultana N. Nahar, At. Data Nucl. Data Tables 80, 205 (2002) ************************************************************************** C III : Fine structure energy levels The contents of the file: -------------------------- i) Table A (in the paper): Target/Core info: Fine structure levels of the core/target included in the eigenfunction expansion of ion ii) Table IVb (in the paper): Fine structure energy levels of the ion, with spectroscopic designation, ordered in energy and grouped as components of LS terms iii) Table IVa (in the paper): Fine structure energy levels of the ion, with spectroscopic designation, ordered in J\pi and energy --------------------------------------------------------------------------- i) Table A (in the paper): Target/Core info: Fine structure levels of the core/target included in the eigenfunction expansion of ion --------------------------------------------------------------- Z = 6, No. of core electrons = 3 Target levels: 15 Config SLp J E(Ry) 1 1s22s 2Se 1/2 0.00000E+00 2 1s22p 2Po 3/2 5.88600E-01 3 1s22p 2Po 1/2 5.87620E-01 4 1s23s 2Se 1/2 2.75980E+00 5 1s23p 2Po 3/2 2.91680E+00 6 1s23p 2Po 1/2 2.91650E+00 7 1s23d 2De 5/2 2.96060E+00 8 1s23d 2De 3/2 2.96060E+00 9 1s24s 2Se 1/2 3.65740E+00 10 1s24p 2Po 3/2 3.72090E+00 11 1s24p 2Po 1/2 3.72080E+00 12 1s24d 2De 5/2 3.73930E+00 13 1s24d 2De 3/2 3.73930E+00 14 1s24f 2Fo 7/2 3.74020E+00 15 1s24f 2Fo 5/2 3.74020E+00 ---------------------------------------------------------------------------- ii) Table IVb (in the paper): Fine structure energy levels of the ion, with spectroscopic designation, ordered in energy and grouped as compoments of LS terms ----------------------------------------------------------------------- Number of fine structure levels: J pi Nlv(c) 0 0 15 0 1 11 2 0 21 2 1 23 4 0 21 4 1 21 6 0 15 6 1 17 8 0 7 8 1 13 10 0 10 10 1 5 12 0 4 12 1 8 14 0 6 14 1 3 16 0 1 16 1 2 18 0 2 18 1 0 20 0 0 20 1 1 Total number of levels = 206 NOTE: Nlv=Number of levels expected Nlv(c)=Number of levels obtained Nlv=Nlv(c) -> set complete For Equivalent electron levels: (i) no EQN (effective qn) (ii) no check of set completeness Configuration J E(Ry) EQN LS terms Eqv electron/unidentified levels, parity: e 1s22s2 0 -3.51280E+00 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 2p 0 -3.03287E+00 1.72 3 P o 1s22s (2Se) 1/2 2p 1 -3.03261E+00 1.72 3 P o 1s22s (2Se) 1/2 2p 2 -3.03211E+00 1.72 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 2p 1 -2.56307E+00 1.87 1 P o Nlv(c)= 1 : set complete Eqv electron/unidentified levels, parity: e 1s22p2 0 -2.24475E+00 3 P e 1s22p2 1 -2.24450E+00 3 P e 1s22p2 2 -2.24401E+00 3 P e Nlv(c)= 3 : set complete Eqv electron/unidentified levels, parity: e 1s22p2 2 -2.16887E+00 1 D e Nlv(c)= 1 : set complete Eqv electron/unidentified levels, parity: e 1s22p2 0 -1.80983E+00 1 S e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 3s 1 -1.34654E+00 2.58 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 3s 0 -1.26290E+00 2.67 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 3p 1 -1.15559E+00 2.79 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 3p 0 -1.14956E+00 2.80 3 P o 1s22s (2Se) 1/2 3p 1 -1.14950E+00 2.80 3 P o 1s22s (2Se) 1/2 3p 2 -1.14939E+00 2.80 3 P o Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 3d 1 -1.05745E+00 2.92 3 D e 1s22s (2Se) 1/2 3d 2 -1.05743E+00 2.92 3 D e 1s22s (2Se) 1/2 3d 3 -1.05739E+00 2.92 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 3d 2 -9.95940E-01 3.01 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22p (2Po) 3/2 3s 0 -7.02829E-01 2.64 3 P o 1s22p (2Po) 3/2 3s 1 -7.02542E-01 2.64 3 P o 1s22p (2Po) 1/2 3s 2 -7.01944E-01 2.64 3 P o Nlv(c)= 3 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 4s 1 -6.98030E-01 3.59 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22p (2Po) 3/2 3s 1 -6.88638E-01 2.61 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 4s 0 -6.77594E-01 3.64 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 4p 0 -6.21712E-01 3.80 3 P o 1s22s (2Se) 1/2 4p 1 -6.21691E-01 3.80 3 P o 1s22s (2Se) 1/2 4p 2 -6.21650E-01 3.80 3 P o Nlv(c)= 3 : set complete Nlv= 3, 1Le: S ( 0 ) P ( 1 ) D ( 2 ) 1s22p (2Po) 1/2 3p 1 -5.96913E-01 2.75 1 P e 1s22p (2Po) 3/2 3p 2 -4.73292E-01 2.87 1 D e 1s22p (2Po) 1/2 3p 0 -3.61484E-01 2.87 1 S e Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 4d 1 -5.87502E-01 3.91 3 D e 1s22s (2Se) 1/2 4d 2 -5.87430E-01 3.91 3 D e 1s22s (2Se) 1/2 4d 3 -5.87321E-01 3.91 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 4f 2 -5.83683E-01 3.93 3 F o 1s22s (2Se) 1/2 4f 3 -5.83629E-01 3.93 3 F o 1s22s (2Se) 1/2 4f 4 -5.83559E-01 3.93 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 4f 3 -5.77758E-01 3.95 1 F o Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 4p 1 -5.75301E-01 3.80 1 P o Nlv(c)= 1 : set complete Nlv= 7, 3Le: S ( 1 ) P ( 2 1 0 ) D ( 3 2 1 ) 1s22p (2Po) 3/2 3p 1 -5.68231E-01 2.79 3 SPD e 1s22p (2Po) 1/2 3p 3 -5.67502E-01 2.79 3 D e 1s22p (2Po) 1/2 3p 2 -5.63261E-01 2.87 3 PD e 1s22p (2Po) 1/2 3p 1 -5.28052E-01 2.84 3 SPD e 1s22p (2Po) 3/2 3p 0 -5.03450E-01 2.87 3 P e 1s22p (2Po) 3/2 3p 1 -5.03269E-01 2.87 3 SPD e 1s22p (2Po) 1/2 3p 2 -5.02921E-01 2.87 3 PD e Nlv(c)= 7 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 4d 2 -5.67944E-01 3.98 1 D e Nlv(c)= 1 : set complete Nlv= 3, 1Lo: P ( 1 ) D ( 2 ) F ( 3 ) 1s22p (2Po) 1/2 3d 2 -4.80354E-01 2.90 1 D o 1s22p (2Po) 1/2 3d 3 -4.04169E-01 2.97 1 F o 1s22p (2Po) 3/2 3d 1 -3.50844E-01 2.97 1 P o Nlv(c)= 3 : set complete Nlv= 9, 3Lo: P ( 2 1 0 ) D ( 3 2 1 ) F ( 4 3 2 ) 1s22p (2Po) 3/2 3d 2 -4.75911E-01 2.91 3 PDF o 1s22p (2Po) 1/2 3d 3 -4.75685E-01 2.97 3 DF o 1s22p (2Po) 1/2 3d 4 -4.75359E-01 2.91 3 F o 1s22p (2Po) 3/2 3d 1 -4.34448E-01 2.97 3 PD o 1s22p (2Po) 3/2 3d 2 -4.34331E-01 2.91 3 PDF o 1s22p (2Po) 1/2 3d 3 -4.34156E-01 2.97 3 DF o 1s22p (2Po) 1/2 3d 2 -4.13115E-01 2.91 3 PDF o 1s22p (2Po) 3/2 3d 1 -4.12933E-01 2.97 3 PD o 1s22p (2Po) 3/2 3d 0 -4.12842E-01 2.90 3 P o Nlv(c)= 9 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 5s 0 -4.30715E-01 4.57 1 S e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 5s 1 -4.21391E-01 4.62 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 5p 1 -3.88769E-01 4.81 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 5p 2 -3.80326E-01 4.86 3 P o 1s22s (2Se) 1/2 5p 1 -3.80278E-01 4.86 3 P o 1s22s (2Se) 1/2 5p 0 -3.80254E-01 4.86 3 P o Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 5d 1 -3.71122E-01 4.92 3 D e 1s22s (2Se) 1/2 5d 2 -3.71118E-01 4.92 3 D e 1s22s (2Se) 1/2 5d 3 -3.71111E-01 4.92 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s22s (2Se) 1/2 5g 3 -3.61413E-01 4.99 3 G e 1s22s (2Se) 1/2 5g 5 -3.61409E-01 4.99 3 G e 1s22s (2Se) 1/2 5g 4 -3.61408E-01 4.99 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 5d 2 -3.59764E-01 5.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 5f 2 -3.55618E-01 5.03 3 F o 1s22s (2Se) 1/2 5f 3 -3.55602E-01 5.03 3 F o 1s22s (2Se) 1/2 5f 4 -3.55579E-01 5.03 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 5f 3 -3.37658E-01 5.16 1 F o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 6s 1 -2.85651E-01 5.61 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 6s 0 -2.76882E-01 5.70 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 6p 0 -2.65416E-01 5.82 3 P o 1s22s (2Se) 1/2 6p 1 -2.65411E-01 5.82 3 P o 1s22s (2Se) 1/2 6p 2 -2.65399E-01 5.82 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 6p 1 -2.64672E-01 5.83 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 6d 1 -2.56175E-01 5.93 3 D e 1s22s (2Se) 1/2 6d 2 -2.56172E-01 5.93 3 D e 1s22s (2Se) 1/2 6d 3 -2.56169E-01 5.93 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s22s (2Se) 1/2 6g 3 -2.51011E-01 5.99 3 G e 1s22s (2Se) 1/2 6g 5 -2.51008E-01 5.99 3 G e 1s22s (2Se) 1/2 6g 4 -2.51007E-01 5.99 3 G e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s22s (2Se) 1/2 6h 4 -2.50266E-01 6.00 3 H o 1s22s (2Se) 1/2 6h 5 -2.50265E-01 6.00 3 H o 1s22s (2Se) 1/2 6h 6 -2.50265E-01 6.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 6d 2 -2.49982E-01 6.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 6f 2 -2.49352E-01 6.01 3 F o 1s22s (2Se) 1/2 6f 3 -2.49348E-01 6.01 3 F o 1s22s (2Se) 1/2 6f 4 -2.49343E-01 6.01 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 6f 3 -2.46573E-01 6.04 1 F o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 7s 1 -2.06018E-01 6.61 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 7s 0 -2.02148E-01 6.67 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 7p 1 -1.94090E-01 6.81 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 7p 0 -1.93579E-01 6.82 3 P o 1s22s (2Se) 1/2 7p 1 -1.93576E-01 6.82 3 P o 1s22s (2Se) 1/2 7p 2 -1.93568E-01 6.82 3 P o Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 7d 1 -1.87590E-01 6.93 3 D e 1s22s (2Se) 1/2 7d 2 -1.87589E-01 6.93 3 D e 1s22s (2Se) 1/2 7d 3 -1.87586E-01 6.93 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s22s (2Se) 1/2 7g 3 -1.84433E-01 6.99 3 G e 1s22s (2Se) 1/2 7g 5 -1.84432E-01 6.99 3 G e 1s22s (2Se) 1/2 7g 4 -1.84431E-01 6.99 3 G e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s22s (2Se) 1/2 7h 4 -1.83859E-01 7.00 3 H o 1s22s (2Se) 1/2 7h 5 -1.83859E-01 7.00 3 H o 1s22s (2Se) 1/2 7h 6 -1.83859E-01 7.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 7d 2 -1.83803E-01 7.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 7f 2 -1.83729E-01 7.00 3 F o 1s22s (2Se) 1/2 7f 3 -1.83727E-01 7.00 3 F o 1s22s (2Se) 1/2 7f 4 -1.83724E-01 7.00 3 F o Nlv(c)= 3 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s22s (2Se) 1/2 7i 5 -1.83729E-01 7.00 3 I e 1s22s (2Se) 1/2 7i 6 -1.83729E-01 7.00 3 I e 1s22s (2Se) 1/2 7i 7 -1.83728E-01 7.00 3 I e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 7f 3 -1.82825E-01 7.02 1 F o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 8s 1 -1.55539E-01 7.61 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 8s 0 -1.53335E-01 7.66 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 8p 1 -1.48334E-01 7.79 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 8p 0 -1.47326E-01 7.82 3 P o 1s22s (2Se) 1/2 8p 1 -1.47324E-01 7.82 3 P o 1s22s (2Se) 1/2 8p 2 -1.47318E-01 7.82 3 P o Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 8d 1 -1.43264E-01 7.93 3 D e 1s22s (2Se) 1/2 8d 2 -1.43263E-01 7.93 3 D e 1s22s (2Se) 1/2 8d 3 -1.43261E-01 7.93 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s22s (2Se) 1/2 8g 3 -1.41210E-01 7.98 3 G e 1s22s (2Se) 1/2 8g 4 -1.41210E-01 7.98 3 G e 1s22s (2Se) 1/2 8g 5 -1.41208E-01 7.98 3 G e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 8f 2 -1.40850E-01 7.99 3 F o 1s22s (2Se) 1/2 8f 3 -1.40848E-01 7.99 3 F o 1s22s (2Se) 1/2 8f 4 -1.40846E-01 7.99 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 8d 2 -1.40780E-01 8.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s22s (2Se) 1/2 8h 4 -1.40762E-01 8.00 3 H o 1s22s (2Se) 1/2 8h 5 -1.40762E-01 8.00 3 H o 1s22s (2Se) 1/2 8h 6 -1.40762E-01 8.00 3 H o Nlv(c)= 3 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s22s (2Se) 1/2 8i 5 -1.40674E-01 8.00 3 I e 1s22s (2Se) 1/2 8i 6 -1.40674E-01 8.00 3 I e 1s22s (2Se) 1/2 8i 7 -1.40674E-01 8.00 3 I e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s22s (2Se) 1/2 8k 6 -1.40634E-01 8.00 3 K o 1s22s (2Se) 1/2 8k 7 -1.40634E-01 8.00 3 K o 1s22s (2Se) 1/2 8k 8 -1.40633E-01 8.00 3 K o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 8f 3 -1.40478E-01 8.00 1 F o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 9s 1 -1.21569E-01 8.60 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 9s 0 -1.20164E-01 8.65 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 9p 1 -1.17221E-01 8.76 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 9p 0 -1.15859E-01 8.81 3 P o 1s22s (2Se) 1/2 9p 1 -1.15856E-01 8.81 3 P o 1s22s (2Se) 1/2 9p 2 -1.15852E-01 8.81 3 P o Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 9d 1 -1.12970E-01 8.93 3 D e 1s22s (2Se) 1/2 9d 2 -1.12969E-01 8.93 3 D e 1s22s (2Se) 1/2 9d 3 -1.12968E-01 8.93 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s22s (2Se) 1/2 9g 3 -1.11573E-01 8.98 3 G e 1s22s (2Se) 1/2 9g 5 -1.11571E-01 8.98 3 G e 1s22s (2Se) 1/2 9g 4 -1.11570E-01 8.98 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Le: G ( 4 ) 1s22s (2Se) 1/2 9g 4 -1.11570E-01 8.98 1 G e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 9f 2 -1.11370E-01 8.99 3 F o 1s22s (2Se) 1/2 9f 3 -1.11369E-01 8.99 3 F o 1s22s (2Se) 1/2 9f 4 -1.11367E-01 8.99 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 9d 2 -1.11254E-01 8.99 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s22s (2Se) 1/2 9h 4 -1.11214E-01 9.00 3 H o 1s22s (2Se) 1/2 9h 5 -1.11214E-01 9.00 3 H o 1s22s (2Se) 1/2 9h 6 -1.11214E-01 9.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 9f 3 -1.11203E-01 9.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s22s (2Se) 1/2 9i 5 -1.11149E-01 9.00 3 I e 1s22s (2Se) 1/2 9i 6 -1.11149E-01 9.00 3 I e 1s22s (2Se) 1/2 9i 7 -1.11149E-01 9.00 3 I e Nlv(c)= 3 : set complete Nlv= 3, 3Le: L ( 9 8 7 ) 1s22s (2Se) 1/2 9l 7 -1.11149E-01 9.00 3 L e 1s22s (2Se) 1/2 9l 8 -1.11112E-01 9.00 3 L e 1s22s (2Se) 1/2 9l 9 -1.11112E-01 9.00 3 L e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s22s (2Se) 1/2 9k 6 -1.11122E-01 9.00 3 K o 1s22s (2Se) 1/2 9k 7 -1.11122E-01 9.00 3 K o 1s22s (2Se) 1/2 9k 8 -1.11122E-01 9.00 3 K o Nlv(c)= 3 : set complete Nlv= 1, 3Le: S ( 1 ) 1s22s (2Se) 1/2 10s 1 -9.76302E-02 9.60 3 S e Nlv(c)= 1 : set complete Nlv= 1, 1Le: S ( 0 ) 1s22s (2Se) 1/2 10s 0 -9.66645E-02 9.65 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s22s (2Se) 1/2 10p 1 -9.53127E-02 9.72 1 P o Nlv(c)= 1 : set complete Nlv= 7, 3Le: S ( 1 ) P ( 2 1 0 ) D ( 3 2 1 ) 1s22p (2Po) 1/2 4p 0 -9.39654E-02 3.62 3 P e Nlv(c)= 1 , Nlv= 7 : set incomplete, level missing: 1 2 1 3 2 1 Nlv= 3, 1Le: S ( 0 ) P ( 1 ) D ( 2 ) 1s22p (2Po) 1/2 4p 0 -9.39618E-02 3.62 1 S e Nlv(c)= 1 , Nlv= 3 : set incomplete, level missing: 1 2 Nlv= 3, 3Lo: P ( 2 1 0 ) 1s22s (2Se) 1/2 10p 0 -9.35370E-02 9.81 3 P o 1s22s (2Se) 1/2 10p 1 -9.35325E-02 9.81 3 P o 1s22s (2Se) 1/2 10p 2 -9.35244E-02 9.81 3 P o Nlv(c)= 3 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s22s (2Se) 1/2 10d 1 -9.13572E-02 9.92 3 D e 1s22s (2Se) 1/2 10d 2 -9.13563E-02 9.92 3 D e 1s22s (2Se) 1/2 10d 3 -9.13554E-02 9.93 3 D e Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s22s (2Se) 1/2 10g 3 -9.03717E-02 9.98 3 G e 1s22s (2Se) 1/2 10g 4 -9.03717E-02 9.98 3 G e 1s22s (2Se) 1/2 10g 5 -9.03699E-02 9.98 3 G e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s22s (2Se) 1/2 10f 2 -9.02520E-02 9.99 3 F o 1s22s (2Se) 1/2 10f 3 -9.02511E-02 9.99 3 F o 1s22s (2Se) 1/2 10f 4 -9.02502E-02 9.99 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s22s (2Se) 1/2 10f 3 -9.01746E-02 9.99 1 F o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s22s (2Se) 1/2 10d 2 -9.01233E-02 9.99 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s22s (2Se) 1/2 10h 4 -9.00792E-02 10.00 3 H o 1s22s (2Se) 1/2 10h 5 -9.00783E-02 10.00 3 H o 1s22s (2Se) 1/2 10h 6 -9.00783E-02 10.00 3 H o Nlv(c)= 3 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s22s (2Se) 1/2 10i 5 -9.00288E-02 10.00 3 I e 1s22s (2Se) 1/2 10i 6 -9.00288E-02 10.00 3 I e 1s22s (2Se) 1/2 10i 7 -9.00288E-02 10.00 3 I e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s22s (2Se) 1/2 10k 6 -9.00099E-02 10.00 3 K o 1s22s (2Se) 1/2 10k 7 -9.00099E-02 10.00 3 K o Nlv(c)= 2 , Nlv= 3 : set incomplete, level missing: 8 Nlv= 3, 3Le: L ( 9 8 7 ) 1s22s (2Se) 1/2 10l 7 -9.00018E-02 10.00 3 L e 1s22s (2Se) 1/2 10l 9 -9.00018E-02 10.00 3 L e Nlv(c)= 2 , Nlv= 3 : set incomplete, level missing: 8 Nlv= 3, 3Lo: M (10 9 8 ) 1s22s (2Se) 1/2 10m 10 -9.00000E-02 10.00 3 M o Nlv(c)= 1 , Nlv= 3 : set incomplete, level missing: 9 8 Total number of levels processed= 206 ----------------------------------------------------------------------- iii) Table IVa (in the paper): Fine structure energy levels of the ion, with spectroscopic designation, ordered in J\pi and energy --------------------------------------------------------- nz = 6 , No. of core electrons= 3 206 = number of energies (Ecalc are replaced by available Eobs) Energy levels with ids: jjpiiii jj=2 x total angular momentum j, p=parity, iii=level position Note: There may be more than one possible LS term for some j-levels. Simple assumption: higher L -> lower energy i j p iiii E(Ry) conf LS term jjpiiii 1 0.0 e 1 -3.51970E+00 2s2 1Se 1 2 0.0 e 2 -2.26740E+00 2p2 3Pe 2 3 0.0 e 3 -1.85640E+00 2p2 1Se 3 4 0.0 e 4 -1.26730E+00 2s3s 1Se 4 5 0.0 e 5 -6.79070E-01 2s4s 1Se 5 6 0.0 e 6 -5.15370E-01 2p3p 3Pe 6 7 0.0 e 7 -4.34920E-01 2s5s 1Se 7 8 0.0 e 8 -3.74950E-01 2p3p 1Se 8 9 0.0 e 9 -2.76882E-01 1s22s 2Se 6s 1 S e 9 10 0.0 e 10 -2.02148E-01 1s22s 2Se 7s 1 S e 10 11 0.0 e 11 -1.53335E-01 1s22s 2Se 8s 1 S e 11 12 0.0 e 12 -1.20164E-01 1s22s 2Se 9s 1 S e 12 13 0.0 e 13 -9.66645E-02 1s22s 2Se10s 1 S e 13 14 0.0 e 14 -9.39654E-02 1s22p 2Po 4p 3 P e 14 15 0.0 e 15 -9.39618E-02 1s22p 2Po 4p 1 S e 15 16 0.0 o 1 -3.04250E+00 2s2p 3Po 10001 17 0.0 o 2 -1.15310E+00 2s3p 3Po 10002 18 0.0 o 3 -7.11010E-01 2p3s 3Po 10003 19 0.0 o 4 -6.23730E-01 2s4p 3Po 10004 20 0.0 o 5 -4.20090E-01 2p3d 3Po 10005 21 0.0 o 6 -3.82750E-01 2s5p 3Po 10006 22 0.0 o 7 -2.66010E-01 2s6p 3Po 10007 23 0.0 o 8 -1.93579E-01 1s22s 2Se 7p 3 P o 10008 24 0.0 o 9 -1.47326E-01 1s22s 2Se 8p 3 P o 10009 25 0.0 o 10 -1.15859E-01 1s22s 2Se 9p 3 P o 10010 26 0.0 o 11 -9.35370E-02 1s22s 2Se10p 3 P o 10011 27 1.0 e 1 -2.26710E+00 2p2 3Pe 200001 28 1.0 e 2 -1.34890E+00 2s3s 3Se 200002 29 1.0 e 3 -1.05920E+00 2s3d 3De 200003 30 1.0 e 4 -6.99710E-01 2s4s 3Se 200004 31 1.0 e 5 -6.06180E-01 2p3p 1Pe 200005 32 1.0 e 6 -5.90770E-01 2s4d 3De 200006 33 1.0 e 7 -5.75590E-01 2p3p 3De 200007 34 1.0 e 8 -5.37310E-01 2p3p 3Se 200008 35 1.0 e 9 -5.15180E-01 2p3p 3Pe 200009 36 1.0 e 10 -4.21970E-01 2s5s 3Se 200010 37 1.0 e 11 -3.71290E-01 2s5d 3De 200011 38 1.0 e 12 -2.85980E-01 2s6s 3Se 200012 39 1.0 e 13 -2.56460E-01 2s6d 3De 200013 40 1.0 e 14 -2.06200E-01 2s7s 3Se 200014 41 1.0 e 15 -1.87750E-01 2s7d 3De 200015 42 1.0 e 16 -1.55539E-01 1s22s 2Se 8s 3 S e 200016 43 1.0 e 17 -1.43450E-01 2s8d 3De 200017 44 1.0 e 18 -1.21569E-01 1s22s 2Se 9s 3 S e 200018 45 1.0 e 19 -1.13120E-01 2s9d 3De 200019 46 1.0 e 20 -9.76302E-02 1s22s 2Se10s 3 S e 200020 47 1.0 e 21 -9.13572E-02 1s22s 2Se10d 3 D e 200021 48 1.0 o 1 -3.04230E+00 2s2p 3Po 210001 49 1.0 o 2 -2.58700E+00 2s2p 1Po 210002 50 1.0 o 3 -1.16010E+00 2s3p 1Po 210003 51 1.0 o 4 -1.15300E+00 2s3p 3Po 210004 52 1.0 o 5 -7.10720E-01 2p3s 3Po 210005 53 1.0 o 6 -6.94700E-01 2p3s 1Po 210006 54 1.0 o 7 -6.23710E-01 2s4p 3Po 210007 55 1.0 o 8 -5.81720E-01 2s4p 1Po 210008 56 1.0 o 9 -4.42740E-01 2p3d 3Do 210009 57 1.0 o 10 -4.20220E-01 2p3d 3Po 210010 58 1.0 o 11 -3.91690E-01 2s5p 1Po 210011 59 1.0 o 12 -3.82780E-01 2s5p 3Po 210012 60 1.0 o 13 -3.60210E-01 2p3d 1Po 210013 61 1.0 o 14 -2.66010E-01 2s6p 3Po 210014 62 1.0 o 15 -2.65460E-01 2s6p 1Po 210015 63 1.0 o 16 -1.94510E-01 2s7p 1Po 210016 64 1.0 o 17 -1.93576E-01 1s22s 2Se 7p 3 P o 210017 65 1.0 o 18 -1.48670E-01 2s8p 1Po 210018 66 1.0 o 19 -1.47324E-01 1s22s 2Se 8p 3 P o 210019 67 1.0 o 20 -1.17221E-01 1s22s 2Se 9p 1 P o 210020 68 1.0 o 21 -1.15856E-01 1s22s 2Se 9p 3 P o 210021 69 1.0 o 22 -9.53127E-02 1s22s 2Se10p 1 P o 210022 70 1.0 o 23 -9.35325E-02 1s22s 2Se10p 3 P o 210023 71 2.0 e 1 -2.26670E+00 2p2 3Pe 400001 72 2.0 e 2 -2.19040E+00 2p2 1De 400002 73 2.0 e 3 -1.05920E+00 2s3d 3De 400003 74 2.0 e 4 -1.00020E+00 2s3d 1De 400004 75 2.0 e 5 -5.90630E-01 2s4d 3De 400005 76 2.0 e 6 -5.65250E-01 2s4d 1De 400006 77 2.0 e 7 -5.75370E-01 2p3p 3De 400007 78 2.0 e 8 -5.14840E-01 2p3p 3Pe 400008 79 2.0 e 9 -4.84090E-01 2p3p 1De 400009 80 2.0 e 10 -3.71290E-01 2s5d 3De 400010 81 2.0 e 11 -3.60700E-01 2s5d 1De 400011 82 2.0 e 12 -2.56460E-01 2s6d 3De 400012 83 2.0 e 13 -2.50670E-01 2s6d 1De 400013 84 2.0 e 14 -1.87750E-01 2s7d 3De 400014 85 2.0 e 15 -1.84190E-01 2s7d 1De 400015 86 2.0 e 16 -1.43450E-01 2s8d 3De 400016 87 2.0 e 17 -1.40780E-01 1s22s 2Se 8d 1 D e 400017 88 2.0 e 18 -1.13120E-01 2s9d 3De 400018 89 2.0 e 19 -1.11254E-01 1s22s 2Se 9d 1 D e 400019 90 2.0 e 20 -9.13563E-02 1s22s 2Se10d 3 D e 400020 91 2.0 e 21 -9.01233E-02 1s22s 2Se10d 1 D e 400021 92 2.0 o 1 -3.04180E+00 2s2p 3Po 410001 93 2.0 o 2 -1.15290E+00 2s3p 3Po 410002 94 2.0 o 3 -7.10090E-01 2s3s 3Po 410003 95 2.0 o 4 -6.23670E-01 2s4p 3Po 410004 96 2.0 o 5 -5.85370E-01 2s4f 3Fo 410005 97 2.0 o 6 -4.87980E-01 2p3d 1Do 410006 98 2.0 o 7 -4.81640E-01 2p3d 3Fo 410007 99 2.0 o 8 -4.42620E-01 2p3d 3Do 410008 100 2.0 o 9 -4.20450E-01 2p3d 3Po 410009 101 2.0 o 10 -3.82810E-01 2s5p 3Po 410010 102 2.0 o 11 -3.56210E-01 2s5f 3Fo 410011 103 2.0 o 12 -2.66000E-01 2s6p 3Po 410012 104 2.0 o 13 -2.49610E-01 2s6f 3Fo 410013 105 2.0 o 14 -1.93568E-01 1s22s 2Se 7p 3 P o 410014 106 2.0 o 15 -1.83820E-01 2s7f 3Fo 410015 107 2.0 o 16 -1.47318E-01 1s22s 2Se 8p 3 P o 410016 108 2.0 o 17 -1.40850E-01 1s22s 2Se 8f 3 F o 410017 109 2.0 o 18 -1.15852E-01 1s22s 2Se 9p 3 P o 410018 110 2.0 o 19 -1.11370E-01 1s22s 2Se 9f 3 F o 410019 111 2.0 o 20 -9.35244E-02 1s22s 2Se10p 3 P o 410020 112 2.0 o 21 -9.02520E-02 1s22s 2Se10f 3 F o 410021 113 3.0 e 1 -1.05910E+00 2s3d 3De 600001 114 3.0 e 2 -5.90420E-01 2s4d 3De 600002 115 3.0 e 3 -5.75020E-01 2p3p 3De 600003 116 3.0 e 4 -3.71290E-01 2s5d 3De 600004 117 3.0 e 5 -3.61420E-01 2s5g 3Ge 600005 118 3.0 e 6 -2.56460E-01 2s6d 3De 600006 119 3.0 e 7 -2.51040E-01 2s6g 3Ge 600007 120 3.0 e 8 -1.87750E-01 2s7d 3De 600008 121 3.0 e 9 -1.84460E-01 2s7g 3Ge 600009 122 3.0 e 10 -1.43450E-01 2s8d 3De 600010 123 3.0 e 11 -1.41210E-01 1s22s 2Se 8g 3 G e 600011 124 3.0 e 12 -1.13120E-01 2s9d 3De 600012 125 3.0 e 13 -1.11573E-01 1s22s 2Se 9g 3 G e 600013 126 3.0 e 14 -9.13554E-02 1s22s 2Se10d 3 D e 600014 127 3.0 e 15 -9.03717E-02 1s22s 2Se10g 3 G e 600015 128 3.0 o 1 -5.85320E-01 2s4f 3Fo 610001 129 3.0 o 2 -5.79010E-01 2s4f 1Fo 610002 130 3.0 o 3 -4.81420E-01 2p3d 3Fo 610003 131 3.0 o 4 -4.42450E-01 2p3d 3Do 610004 132 3.0 o 5 -4.08890E-01 2p3d 1Fo 610005 133 3.0 o 6 -3.56190E-01 2s5f 3Fo 610006 134 3.0 o 7 -3.40640E-01 2s5f 1Fo 610007 135 3.0 o 8 -2.49600E-01 2s6f 3Fo 610008 136 3.0 o 9 -2.47130E-01 2s6f 1Fo 610009 137 3.0 o 10 -1.83820E-01 2s7f 3Fo 610010 138 3.0 o 11 -1.82825E-01 1s22s 2Se 7f 1 F o 610011 139 3.0 o 12 -1.40848E-01 1s22s 2Se 8f 3 F o 610012 140 3.0 o 13 -1.40478E-01 1s22s 2Se 8f 1 F o 610013 141 3.0 o 14 -1.11369E-01 1s22s 2Se 9f 3 F o 610014 142 3.0 o 15 -1.11203E-01 1s22s 2Se 9f 1 F o 610015 143 3.0 o 16 -9.02511E-02 1s22s 2Se10f 3 F o 610016 144 3.0 o 17 -9.01746E-02 1s22s 2Se10f 1 F o 610017 145 4.0 e 1 -3.61420E-01 2s5g 3Ge 800001 146 4.0 e 2 -2.51040E-01 2s6g 3Ge 800002 147 4.0 e 3 -1.84460E-01 2s7g 3Ge 800003 148 4.0 e 4 -1.41210E-01 1s22s 2Se 8g 3 G e 800004 149 4.0 e 5 -1.11570E-01 1s22s 2Se 9g 3 G e 800005 150 4.0 e 6 -1.11570E-01 1s22s 2Se 9g 1 G e 800006 151 4.0 e 7 -9.03717E-02 1s22s 2Se10g 3 G e 800007 152 4.0 o 1 -5.85240E-01 2s4f 3Fo 810001 153 4.0 o 2 -4.81090E-01 2p3d 3Fo 810002 154 4.0 o 3 -3.56170E-01 2s5f 3Fo 810003 155 4.0 o 4 -2.50280E-01 2s6h 3Ho 810004 156 4.0 o 5 -2.49600E-01 2s6f 3Fo 810005 157 4.0 o 6 -1.83859E-01 1s22s 2Se 7h 3 H o 810006 158 4.0 o 7 -1.83820E-01 2s7f 3Fo 810007 159 4.0 o 8 -1.40846E-01 1s22s 2Se 8f 3 F o 810008 160 4.0 o 9 -1.40762E-01 1s22s 2Se 8h 3 H o 810009 161 4.0 o 10 -1.11367E-01 1s22s 2Se 9f 3 F o 810010 162 4.0 o 11 -1.11214E-01 1s22s 2Se 9h 3 H o 810011 163 4.0 o 12 -9.02502E-02 1s22s 2Se10f 3 F o 810012 164 4.0 o 13 -9.00792E-02 1s22s 2Se10h 3 H o 810013 165 5.0 e 1 -3.61420E-01 2s5g 3Ge 1000001 166 5.0 e 2 -2.51040E-01 2s6g 3Ge 1000002 167 5.0 e 3 -1.84460E-01 2s7g 3Ge 1000003 168 5.0 e 4 -1.83729E-01 1s22s 2Se 7i 3 I e 1000004 169 5.0 e 5 -1.41208E-01 1s22s 2Se 8g 3 G e 1000005 170 5.0 e 6 -1.40674E-01 1s22s 2Se 8i 3 I e 1000006 171 5.0 e 7 -1.11571E-01 1s22s 2Se 9g 3 G e 1000007 172 5.0 e 8 -1.11149E-01 1s22s 2Se 9i 3 I e 1000008 173 5.0 e 9 -9.03699E-02 1s22s 2Se10g 3 G e 1000009 174 5.0 e 10 -9.00288E-02 1s22s 2Se10i 3 I e 1000010 175 5.0 o 1 -2.50280E-01 2s6h 3Ho 1010001 176 5.0 o 2 -1.83859E-01 1s22s 2Se 7h 3 H o 1010002 177 5.0 o 3 -1.40762E-01 1s22s 2Se 8h 3 H o 1010003 178 5.0 o 4 -1.11214E-01 1s22s 2Se 9h 3 H o 1010004 179 5.0 o 5 -9.00783E-02 1s22s 2Se10h 3 H o 1010005 180 6.0 e 1 -1.83729E-01 1s22s 2Se 7i 3 I e 1200001 181 6.0 e 2 -1.40674E-01 1s22s 2Se 8i 3 I e 1200002 182 6.0 e 3 -1.11149E-01 1s22s 2Se 9i 3 I e 1200003 183 6.0 e 4 -9.00288E-02 1s22s 2Se10i 3 I e 1200004 184 6.0 o 1 -2.50280E-01 2s6h 3Ho 1210001 185 6.0 o 2 -1.83859E-01 1s22s 2Se 7h 3 H o 1210002 186 6.0 o 3 -1.40762E-01 1s22s 2Se 8h 3 H o 1210003 187 6.0 o 4 -1.40634E-01 1s22s 2Se 8k 3 K o 1210004 188 6.0 o 5 -1.11214E-01 1s22s 2Se 9h 3 H o 1210005 189 6.0 o 6 -1.11122E-01 1s22s 2Se 9k 3 K o 1210006 190 6.0 o 7 -9.00783E-02 1s22s 2Se10h 3 H o 1210007 191 6.0 o 8 -9.00099E-02 1s22s 2Se10k 3 K o 1210008 192 7.0 e 1 -1.83728E-01 1s22s 2Se 7i 3 I e 1400001 193 7.0 e 2 -1.40674E-01 1s22s 2Se 8i 3 I e 1400002 194 7.0 e 3 -1.11149E-01 1s22s 2Se 9i 3 I e 1400003 195 7.0 e 4 -1.11149E-01 1s22s 2Se 9l 3 L e 1400004 196 7.0 e 5 -9.00288E-02 1s22s 2Se10i 3 I e 1400005 197 7.0 e 6 -9.00018E-02 1s22s 2Se10l 3 L e 1400006 198 7.0 o 1 -1.40634E-01 1s22s 2Se 8k 3 K o 1410001 199 7.0 o 2 -1.11122E-01 1s22s 2Se 9k 3 K o 1410002 200 7.0 o 3 -9.00099E-02 1s22s 2Se10k 3 K o 1410003 201 8.0 e 1 -1.11112E-01 1s22s 2Se 9l 3 L e 1600001 202 8.0 o 1 -1.40633E-01 1s22s 2Se 8k 3 K o 1610001 203 8.0 o 2 -1.11122E-01 1s22s 2Se 9k 3 K o 1610002 204 9.0 e 1 -1.11112E-01 1s22s 2Se 9l 3 L e 1800001 205 9.0 e 2 -9.00018E-02 1s22s 2Se10l 3 L e 1800002 206 10.0 o 1 -9.00000E-02 1s22s 2Se10m 3 M o 2010001 Total number of energies 206