------------------------ 786 ---------------------------------------------- Ref. "Electron-Ion Recombination Rate Coefficients and Photoionization Cross Sections for Astrophysically Abundant Elements. V. Relativistic Calculations for Fe~XXIV and Fe~XXV for X-ray Modeling", Sultana N. Nahar, Anil K. Pradhan, and Honglin Zhang, Astrophys. J. Suppl. 133, 255 (2001) NOTE: The energy set in this work is very similar to that for the oscillator strength file (Nahar and Pradhan, AAS 1999), except for a few high-lying levels and slight differences in energy values. -------------------------------------------------------------------------- Fe XXV : Fine structure levels The contents of the file: -------------------------- i) Target/Core info: Fine structure levels of the core/target included in the eigenfunction expansion of ion ii) Fine structure energy levels of the ion, with spectroscopic designation, ordered in energy and grouped as compoments of LS terms iii) Fine structure energy levels of the ion, with spectroscopic designation, ordered in J\pi and energy ordered in J\pi and energy ----------------------------------------------------------------------- i) Target/Core info: Fine structure levels of the core/target included in the eigenfunction expansion of ion ------------------------------------------------------------ Z = 26, No. of core electrons = 1 Target levels: 16 Config SLp J E(Ry) 1 1s 2Se 1/2 0.00000E+00 2 2p 2Po 1/2 5.11202E+02 3 2s 2Se 1/2 5.11225E+02 4 2p 2Po 3/2 5.12738E+02 5 3p 2Po 1/2 6.06339E+02 6 3s 2Se 1/2 6.06346E+02 7 3p 2Po 3/2 6.06783E+02 8 3d 2De 5/2 6.06933E+02 9 3d 2De 3/2 6.06782E+02 10 4p 2Po 1/2 6.39570E+02 11 4s 2Se 1/2 6.39574E+02 12 4d 2De 3/2 6.39751E+02 13 4p 2Po 3/2 6.39752E+02 14 4f 2Fo 5/2 6.39814E+02 15 4d 2De 5/2 6.39814E+02 16 4f 2Fo 7/2 6.39846E+02 ------------------------------------------------------------------------- ii) 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 10 0 1 9 2 0 17 2 1 18 4 0 16 4 1 16 6 0 14 6 1 14 8 0 12 8 1 12 10 0 10 10 1 10 12 0 8 12 1 8 14 0 6 14 1 6 16 1 4 Total number of levels = 190 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 1s2 0 -6.49681E+02 1 S e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 2s 1 -1.61328E+02 1.96 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 2p 0 -1.59352E+02 1.96 3 P o 1s (2Se) 1/2 2p 1 -1.59078E+02 1.96 3 P o 1s (2Se) 1/2 2p 2 -1.57882E+02 1.96 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 2s 0 -1.59087E+02 1.98 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 2p 1 -1.56533E+02 1.97 1 P o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 3s 1 -7.11137E+01 2.96 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 3p 0 -7.05687E+01 2.96 3 P o 1s (2Se) 1/2 3p 1 -7.05056E+01 2.96 3 P o 1s (2Se) 1/2 3p 2 -7.01344E+01 2.96 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 3s 0 -7.05244E+01 2.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 3d 1 -6.98300E+01 2.99 3 D e 1s (2Se) 1/2 3d 2 -6.98294E+01 0.96 3 D e 1s (2Se) 3/2 3d 3 -6.96937E+01 0.96 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 3p 1 -6.97562E+01 2.96 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 3d 2 -6.96744E+01 0.96 1 D e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 4s 1 -3.98795E+01 3.96 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 4p 0 -3.96544E+01 3.97 3 P o 1s (2Se) 1/2 4p 1 -3.96464E+01 3.97 3 P o 1s (2Se) 1/2 4p 2 -3.94711E+01 3.98 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 4s 0 -3.96346E+01 3.97 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 4d 2 -3.93539E+01 3.98 3 D e 1s (2Se) 1/2 4d 1 -3.93463E+01 3.99 3 D e 1s (2Se) 1/2 4d 3 -3.92887E+01 3.99 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 4p 1 -3.92970E+01 3.99 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 4f 3 -3.92858E+01 3.99 3 F o 1s (2Se) 1/2 4f 2 -3.92827E+01 4.00 3 F o 1s (2Se) 1/2 4f 4 -3.92543E+01 3.99 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 4d 2 -3.92701E+01 3.99 1 D e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 4f 3 -3.92511E+01 3.99 1 F o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 5s 1 -2.53271E+01 4.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 5p 0 -2.52131E+01 4.98 3 P o 1s (2Se) 1/2 5p 1 -2.51951E+01 4.98 3 P o 1s (2Se) 1/2 5p 2 -2.51198E+01 4.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 5s 0 -2.52073E+01 4.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 5d 1 -2.50557E+01 4.99 3 D e 1s (2Se) 1/2 5d 2 -2.50532E+01 4.99 3 D e 1s (2Se) 1/2 5d 3 -2.50263E+01 5.00 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 5p 1 -2.50465E+01 4.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 5d 2 -2.50228E+01 5.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 5f 2 -2.50224E+01 5.00 3 F o 1s (2Se) 1/2 5f 3 -2.50222E+01 5.00 3 F o 1s (2Se) 1/2 5f 4 -2.50079E+01 5.00 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 5f 3 -2.50079E+01 5.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s (2Se) 1/2 5g 3 -2.50078E+01 5.00 3 G e 1s (2Se) 1/2 5g 4 -2.50078E+01 5.00 3 G e 1s (2Se) 1/2 5g 5 -2.49991E+01 5.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Le: G ( 4 ) 1s (2Se) 1/2 5g 4 -2.49991E+01 5.00 1 G e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 6s 1 -1.75528E+01 5.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 6p 0 -1.74873E+01 5.98 3 P o 1s (2Se) 1/2 6p 1 -1.74771E+01 5.98 3 P o 1s (2Se) 1/2 6p 2 -1.74333E+01 5.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 6s 0 -1.74842E+01 5.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 6d 1 -1.73964E+01 5.99 3 D e 1s (2Se) 1/2 6d 2 -1.73951E+01 5.99 3 D e 1s (2Se) 1/2 6d 3 -1.73688E+01 6.00 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 6p 1 -1.73908E+01 5.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 6d 2 -1.73771E+01 6.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 6f 2 -1.73771E+01 6.00 3 F o 1s (2Se) 1/2 6f 3 -1.73771E+01 6.00 3 F o 1s (2Se) 1/2 6f 4 -1.73639E+01 6.00 3 F o Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s (2Se) 1/2 6g 3 -1.73688E+01 6.00 3 G e 1s (2Se) 1/2 6g 4 -1.73637E+01 6.00 3 G e 1s (2Se) 1/2 6g 5 -1.73637E+01 6.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 6f 3 -1.73687E+01 6.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s (2Se) 1/2 6h 4 -1.73639E+01 6.00 3 H o 1s (2Se) 1/2 6h 5 -1.73606E+01 6.00 3 H o 1s (2Se) 1/2 6h 6 -1.73606E+01 6.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Le: G ( 4 ) 1s (2Se) 1/2 6g 4 -1.73637E+01 6.00 1 G e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 6h 5 -1.73606E+01 6.00 1 H o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 7s 1 -1.28787E+01 6.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 7p 0 -1.28375E+01 6.98 3 P o 1s (2Se) 1/2 7p 1 -1.28311E+01 6.98 3 P o 1s (2Se) 1/2 7p 2 -1.28036E+01 6.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 7s 0 -1.28358E+01 6.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 7d 1 -1.27803E+01 6.99 3 D e 1s (2Se) 1/2 7d 2 -1.27794E+01 6.99 3 D e 1s (2Se) 1/2 7d 3 -1.27696E+01 7.00 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 7p 1 -1.27769E+01 6.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 7d 2 -1.27681E+01 7.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 7f 2 -1.27677E+01 7.00 3 F o 1s (2Se) 1/2 7f 3 -1.27676E+01 7.00 3 F o 1s (2Se) 1/2 7f 4 -1.27624E+01 7.00 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 7f 3 -1.27624E+01 7.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s (2Se) 1/2 7h 4 -1.27624E+01 7.00 3 H o 1s (2Se) 1/2 7h 5 -1.27565E+01 7.00 3 H o 1s (2Se) 1/2 7h 6 -1.27565E+01 7.00 3 H o Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s (2Se) 1/2 7g 3 -1.27620E+01 7.00 3 G e 1s (2Se) 1/2 7g 4 -1.27620E+01 7.00 3 G e 1s (2Se) 1/2 7g 5 -1.27563E+01 7.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Le: G ( 4 ) 1s (2Se) 1/2 7g 4 -1.27589E+01 7.00 1 G e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 7h 5 -1.27565E+01 7.00 1 H o Nlv(c)= 1 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s (2Se) 1/2 7i 5 -1.27563E+01 7.00 3 I e 1s (2Se) 1/2 7i 6 -1.27548E+01 7.00 3 I e 1s (2Se) 1/2 7i 7 -1.27548E+01 7.00 3 I e Nlv(c)= 3 : set complete Nlv= 1, 1Le: I ( 6 ) 1s (2Se) 1/2 7i 6 -1.27548E+01 7.00 1 I e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 8s 1 -9.84888E+00 7.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 8p 0 -9.82138E+00 7.98 3 P o 1s (2Se) 1/2 8p 1 -9.81713E+00 7.98 3 P o 1s (2Se) 1/2 8p 2 -9.79856E+00 7.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 8s 0 -9.82025E+00 7.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 8d 1 -9.78306E+00 7.99 3 D e 1s (2Se) 1/2 8d 2 -9.78250E+00 7.99 3 D e 1s (2Se) 1/2 8d 3 -9.77588E+00 8.00 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 8p 1 -9.78069E+00 7.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 8d 2 -9.77488E+00 8.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 8f 2 -9.77488E+00 8.00 3 F o 1s (2Se) 1/2 8f 3 -9.77488E+00 8.00 3 F o 1s (2Se) 1/2 8f 4 -9.77138E+00 8.00 3 F o Nlv(c)= 3 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s (2Se) 1/2 8g 3 -9.77150E+00 8.00 3 G e 1s (2Se) 1/2 8g 4 -9.77150E+00 8.00 3 G e 1s (2Se) 1/2 8g 5 -9.76788E+00 8.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 8f 3 -9.77138E+00 8.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s (2Se) 1/2 8h 4 -9.77138E+00 8.00 3 H o 1s (2Se) 1/2 8h 5 -9.76950E+00 8.00 3 H o 1s (2Se) 1/2 8h 6 -9.76631E+00 8.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 8h 5 -9.76950E+00 8.00 1 H o Nlv(c)= 1 : set complete Nlv= 1, 1Le: G ( 4 ) 1s (2Se) 1/2 8g 4 -9.76944E+00 8.00 1 G e Nlv(c)= 1 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s (2Se) 1/2 8i 5 -9.76788E+00 8.00 3 I e 1s (2Se) 1/2 8i 6 -9.76788E+00 8.00 3 I e 1s (2Se) 1/2 8i 7 -9.76700E+00 8.00 3 I e Nlv(c)= 3 : set complete Nlv= 1, 1Le: I ( 6 ) 1s (2Se) 1/2 8i 6 -9.76788E+00 8.00 1 I e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s (2Se) 1/2 8k 6 -9.76631E+00 8.00 3 K o 1s (2Se) 1/2 8k 7 -9.76563E+00 8.00 3 K o 1s (2Se) 1/2 8k 8 -9.76563E+00 8.00 3 K o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: K ( 7 ) 1s (2Se) 1/2 8k 7 -9.76563E+00 8.00 1 K o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 9s 1 -7.77494E+00 8.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 9p 0 -7.75563E+00 8.98 3 P o 1s (2Se) 1/2 9p 1 -7.75269E+00 8.98 3 P o 1s (2Se) 1/2 9p 2 -7.73962E+00 8.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 9s 0 -7.75481E+00 8.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 9d 1 -7.72881E+00 8.99 3 D e 1s (2Se) 1/2 9d 2 -7.72838E+00 8.99 3 D e 1s (2Se) 1/2 9d 3 -7.72375E+00 9.00 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 9p 1 -7.72706E+00 8.99 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 9f 2 -7.72306E+00 9.00 3 F o 1s (2Se) 1/2 9f 3 -7.72306E+00 9.00 3 F o 1s (2Se) 1/2 9f 4 -7.71906E+00 9.00 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 9d 2 -7.72300E+00 9.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s (2Se) 1/2 9g 3 -7.72063E+00 9.00 3 G e 1s (2Se) 1/2 9g 4 -7.72063E+00 9.00 3 G e 1s (2Se) 1/2 9g 5 -7.71787E+00 9.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 9f 3 -7.72063E+00 9.00 1 F o Nlv(c)= 1 : set complete Nlv= 1, 1Le: G ( 4 ) 1s (2Se) 1/2 9g 4 -7.71919E+00 9.00 1 G e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s (2Se) 1/2 9h 4 -7.71906E+00 9.00 3 H o 1s (2Se) 1/2 9h 5 -7.71906E+00 9.00 3 H o 1s (2Se) 1/2 9h 6 -7.71813E+00 9.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 9h 5 -7.71906E+00 9.00 1 H o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s (2Se) 1/2 9k 6 -7.71813E+00 9.00 3 K o 1s (2Se) 1/2 9k 7 -7.71688E+00 9.00 3 K o 1s (2Se) 1/2 9k 8 -7.71688E+00 9.00 3 K o Nlv(c)= 3 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s (2Se) 1/2 9i 5 -7.71787E+00 9.00 3 I e 1s (2Se) 1/2 9i 6 -7.71725E+00 9.00 3 I e 1s (2Se) 1/2 9i 7 -7.71656E+00 9.00 3 I e Nlv(c)= 3 : set complete Nlv= 1, 1Le: I ( 6 ) 1s (2Se) 1/2 9i 6 -7.71725E+00 9.00 1 I e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: K ( 7 ) 1s (2Se) 1/2 9k 7 -7.71688E+00 9.00 1 K o Nlv(c)= 1 : set complete Nlv= 3, 3Le: L ( 9 8 7 ) 1s (2Se) 1/2 9l 7 -7.71656E+00 9.00 3 L e Nlv(c)= 1 , Nlv= 3 : set incomplete, level missing: 9 8 Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 10s 1 -6.29313E+00 9.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 10p 0 -6.27913E+00 9.98 3 P o 1s (2Se) 1/2 10p 1 -6.27694E+00 9.98 3 P o 1s (2Se) 1/2 10p 2 -6.26744E+00 9.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 10s 0 -6.27850E+00 9.98 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 10d 1 -6.25956E+00 9.99 3 D e 1s (2Se) 1/2 10d 2 -6.25925E+00 9.99 3 D e 1s (2Se) 1/2 10d 3 -6.25344E+00 10.00 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 10p 1 -6.25825E+00 9.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 10d 2 -6.25531E+00 10.00 1 D e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 10f 2 -6.25531E+00 10.00 3 F o 1s (2Se) 1/2 10f 3 -6.25531E+00 10.00 3 F o 1s (2Se) 1/2 10f 4 -6.25231E+00 10.00 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 10f 3 -6.25356E+00 10.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Le: G ( 5 4 3 ) 1s (2Se) 1/2 10g 3 -6.25344E+00 10.00 3 G e 1s (2Se) 1/2 10g 4 -6.25344E+00 10.00 3 G e 1s (2Se) 1/2 10g 5 -6.25244E+00 10.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Le: G ( 4 ) 1s (2Se) 1/2 10g 4 -6.25244E+00 10.00 1 G e Nlv(c)= 1 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s (2Se) 1/2 10i 5 -6.25244E+00 10.00 3 I e 1s (2Se) 1/2 10i 6 -6.25113E+00 10.00 3 I e 1s (2Se) 1/2 10i 7 -6.25056E+00 10.00 3 I e Nlv(c)= 3 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s (2Se) 1/2 10h 4 -6.25231E+00 10.00 3 H o 1s (2Se) 1/2 10h 5 -6.25162E+00 10.00 3 H o 1s (2Se) 1/2 10h 6 -6.25162E+00 10.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 10h 5 -6.25162E+00 10.00 1 H o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s (2Se) 1/2 10k 6 -6.25162E+00 10.00 3 K o 1s (2Se) 1/2 10k 7 -6.25119E+00 10.00 3 K o 1s (2Se) 1/2 10k 8 -6.25088E+00 10.00 3 K o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: K ( 7 ) 1s (2Se) 1/2 10k 7 -6.25119E+00 10.00 1 K o Nlv(c)= 1 : set complete Nlv= 1, 1Le: I ( 6 ) 1s (2Se) 1/2 10i 6 -6.25113E+00 10.00 1 I e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: M (10 9 8 ) 1s (2Se) 1/2 10m 8 -6.25088E+00 10.00 3 M o Nlv(c)= 1 , Nlv= 3 : set incomplete, level missing: 10 9 Nlv= 3, 3Le: L ( 9 8 7 ) 1s (2Se) 1/2 10l 7 -6.25056E+00 10.00 3 L e Nlv(c)= 1 , Nlv= 3 : set incomplete, level missing: 9 8 Total number of levels processed= 190 -------------------------------------------------------------------------- iii) Fine structure energy levels of the ion, with spectroscopic designation, ordered in J\pi and energy --------------------------------------------------------- Table Explanation: T -> target (core) of the level Nlv=Number of levels nl = Principal and orbital quantum numbers of the outer electron EQN = Effective Quantum Number. ------------------------------------- i T(config SLpi Jt) nl J E(Ry) EQN Terms Nlv= 10 J pi = 0 e 1 1s2 0 -6.49681E+02 1 S e 2 1s 2Se 1/2 2s 0 -1.59087E+02 1.98 1 S e 3 1s 2Se 1/2 3s 0 -7.05244E+01 2.98 1 S e 4 1s 2Se 1/2 4s 0 -3.96346E+01 3.97 1 S e 5 1s 2Se 1/2 5s 0 -2.52073E+01 4.98 1 S e 6 1s 2Se 1/2 6s 0 -1.74842E+01 5.98 1 S e 7 1s 2Se 1/2 7s 0 -1.28358E+01 6.98 1 S e 8 1s 2Se 1/2 8s 0 -9.82025E+00 7.98 1 S e 9 1s 2Se 1/2 9s 0 -7.75481E+00 8.98 1 S e 10 1s 2Se 1/2 10s 0 -6.27850E+00 9.98 1 S e Nlv= 9 J pi = 0 o 1 1s 2Se 1/2 2p 0 -1.59352E+02 1.96 3 P o 2 1s 2Se 1/2 3p 0 -7.05687E+01 2.96 3 P o 3 1s 2Se 1/2 4p 0 -3.96544E+01 3.97 3 P o 4 1s 2Se 1/2 5p 0 -2.52131E+01 4.98 3 P o 5 1s 2Se 1/2 6p 0 -1.74873E+01 5.98 3 P o 6 1s 2Se 1/2 7p 0 -1.28375E+01 6.98 3 P o 7 1s 2Se 1/2 8p 0 -9.82138E+00 7.98 3 P o 8 1s 2Se 1/2 9p 0 -7.75563E+00 8.98 3 P o 9 1s 2Se 1/2 10p 0 -6.27913E+00 9.98 3 P o Nlv= 17 J pi = 1 e 1 1s 2Se 1/2 2s 1 -1.61328E+02 1.96 3 S e 2 1s 2Se 1/2 3s 1 -7.11137E+01 2.96 3 S e 3 1s 2Se 1/2 3d 1 -6.98300E+01 2.99 3 D e 4 1s 2Se 1/2 4s 1 -3.98795E+01 3.96 3 S e 5 1s 2Se 1/2 4d 1 -3.93463E+01 3.99 3 D e 6 1s 2Se 1/2 5s 1 -2.53271E+01 4.97 3 S e 7 1s 2Se 1/2 5d 1 -2.50557E+01 4.99 3 D e 8 1s 2Se 1/2 6s 1 -1.75528E+01 5.97 3 S e 9 1s 2Se 1/2 6d 1 -1.73964E+01 5.99 3 D e 10 1s 2Se 1/2 7s 1 -1.28787E+01 6.97 3 S e 11 1s 2Se 1/2 7d 1 -1.27803E+01 6.99 3 D e 12 1s 2Se 1/2 8s 1 -9.84888E+00 7.97 3 S e 13 1s 2Se 1/2 8d 1 -9.78306E+00 7.99 3 D e 14 1s 2Se 1/2 9s 1 -7.77494E+00 8.97 3 S e 15 1s 2Se 1/2 9d 1 -7.72881E+00 8.99 3 D e 16 1s 2Se 1/2 10s 1 -6.29313E+00 9.97 3 S e 17 1s 2Se 1/2 10d 1 -6.25956E+00 9.99 3 D e Nlv= 18 J pi = 1 o 1 1s 2Se 1/2 2p 1 -1.59078E+02 1.96 3 P o 2 1s 2Se 1/2 2p 1 -1.56533E+02 1.97 1 P o 3 1s 2Se 1/2 3p 1 -7.05056E+01 2.96 3 P o 4 1s 2Se 1/2 3p 1 -6.97562E+01 2.96 1 P o 5 1s 2Se 1/2 4p 1 -3.96464E+01 3.97 3 P o 6 1s 2Se 1/2 4p 1 -3.92970E+01 3.99 1 P o 7 1s 2Se 1/2 5p 1 -2.51951E+01 4.98 3 P o 8 1s 2Se 1/2 5p 1 -2.50465E+01 4.99 1 P o 9 1s 2Se 1/2 6p 1 -1.74771E+01 5.98 3 P o 10 1s 2Se 1/2 6p 1 -1.73908E+01 5.99 1 P o 11 1s 2Se 1/2 7p 1 -1.28311E+01 6.98 3 P o 12 1s 2Se 1/2 7p 1 -1.27769E+01 6.99 1 P o 13 1s 2Se 1/2 8p 1 -9.81713E+00 7.98 3 P o 14 1s 2Se 1/2 8p 1 -9.78069E+00 7.99 1 P o 15 1s 2Se 1/2 9p 1 -7.75269E+00 8.98 3 P o 16 1s 2Se 1/2 9p 1 -7.72706E+00 8.99 1 P o 17 1s 2Se 1/2 10p 1 -6.27694E+00 9.98 3 P o 18 1s 2Se 1/2 10p 1 -6.25825E+00 9.99 1 P o Nlv= 16 J pi = 2 e 1 1s 2Se 1/2 3d 2 -6.98294E+01 0.96 3 D e 2 1s 2Se 1/2 3d 2 -6.96744E+01 0.96 1 D e 3 1s 2Se 1/2 4d 2 -3.93539E+01 3.98 3 D e 4 1s 2Se 1/2 4d 2 -3.92701E+01 3.99 1 D e 5 1s 2Se 1/2 5d 2 -2.50532E+01 4.99 3 D e 6 1s 2Se 1/2 5d 2 -2.50228E+01 5.00 1 D e 7 1s 2Se 1/2 6d 2 -1.73951E+01 5.99 3 D e 8 1s 2Se 1/2 6d 2 -1.73771E+01 6.00 1 D e 9 1s 2Se 1/2 7d 2 -1.27794E+01 6.99 3 D e 10 1s 2Se 1/2 7d 2 -1.27681E+01 7.00 1 D e 11 1s 2Se 1/2 8d 2 -9.78250E+00 7.99 3 D e 12 1s 2Se 1/2 8d 2 -9.77488E+00 8.00 1 D e 13 1s 2Se 1/2 9d 2 -7.72838E+00 8.99 3 D e 14 1s 2Se 1/2 9d 2 -7.72300E+00 9.00 1 D e 15 1s 2Se 1/2 10d 2 -6.25925E+00 9.99 3 D e 16 1s 2Se 1/2 10d 2 -6.25531E+00 10.00 1 D e Nlv= 16 J pi = 2 o 1 1s 2Se 1/2 2p 2 -1.57882E+02 1.96 3 P o 2 1s 2Se 1/2 3p 2 -7.01344E+01 2.96 3 P o 3 1s 2Se 1/2 4p 2 -3.94711E+01 3.98 3 P o 4 1s 2Se 1/2 4f 2 -3.92827E+01 4.00 3 F o 5 1s 2Se 1/2 5p 2 -2.51198E+01 4.99 3 P o 6 1s 2Se 1/2 5f 2 -2.50224E+01 5.00 3 F o 7 1s 2Se 1/2 6p 2 -1.74333E+01 5.99 3 P o 8 1s 2Se 1/2 6f 2 -1.73771E+01 6.00 3 F o 9 1s 2Se 1/2 7p 2 -1.28036E+01 6.99 3 P o 10 1s 2Se 1/2 7f 2 -1.27677E+01 7.00 3 F o 11 1s 2Se 1/2 8p 2 -9.79856E+00 7.99 3 P o 12 1s 2Se 1/2 8f 2 -9.77488E+00 8.00 3 F o 13 1s 2Se 1/2 9p 2 -7.73962E+00 8.99 3 P o 14 1s 2Se 1/2 9f 2 -7.72306E+00 9.00 3 F o 15 1s 2Se 1/2 10p 2 -6.26744E+00 9.99 3 P o 16 1s 2Se 1/2 10f 2 -6.25531E+00 10.00 3 F o Nlv= 14 J pi = 3 e 1 1s 2Se 3/2 3d 3 -6.96937E+01 0.96 3 D e 2 1s 2Se 1/2 4d 3 -3.92887E+01 3.99 3 D e 3 1s 2Se 1/2 5d 3 -2.50263E+01 5.00 3 D e 4 1s 2Se 1/2 5g 3 -2.50078E+01 5.00 3 G e 5 1s 2Se 1/2 6d 3 -1.73688E+01 6.00 3 D e 6 1s 2Se 1/2 6g 3 -1.73688E+01 6.00 3 G e 7 1s 2Se 1/2 7d 3 -1.27696E+01 7.00 3 D e 8 1s 2Se 1/2 7g 3 -1.27620E+01 7.00 3 G e 9 1s 2Se 1/2 8d 3 -9.77588E+00 8.00 3 D e 10 1s 2Se 1/2 8g 3 -9.77150E+00 8.00 3 G e 11 1s 2Se 1/2 9d 3 -7.72375E+00 9.00 3 D e 12 1s 2Se 1/2 9g 3 -7.72063E+00 9.00 3 G e 13 1s 2Se 1/2 10d 3 -6.25344E+00 10.00 3 D e 14 1s 2Se 1/2 10g 3 -6.25344E+00 10.00 3 G e Nlv= 14 J pi = 3 o 1 1s 2Se 1/2 4f 3 -3.92858E+01 3.99 3 F o 2 1s 2Se 1/2 4f 3 -3.92511E+01 3.99 1 F o 3 1s 2Se 1/2 5f 3 -2.50222E+01 5.00 3 F o 4 1s 2Se 1/2 5f 3 -2.50079E+01 5.00 1 F o 5 1s 2Se 1/2 6f 3 -1.73771E+01 6.00 3 F o 6 1s 2Se 1/2 6f 3 -1.73687E+01 6.00 1 F o 7 1s 2Se 1/2 7f 3 -1.27676E+01 7.00 3 F o 8 1s 2Se 1/2 7f 3 -1.27624E+01 7.00 1 F o 9 1s 2Se 1/2 8f 3 -9.77488E+00 8.00 3 F o 10 1s 2Se 1/2 8f 3 -9.77138E+00 8.00 1 F o 11 1s 2Se 1/2 9f 3 -7.72306E+00 9.00 3 F o 12 1s 2Se 1/2 9f 3 -7.72063E+00 9.00 1 F o 13 1s 2Se 1/2 10f 3 -6.25531E+00 10.00 3 F o 14 1s 2Se 1/2 10f 3 -6.25356E+00 10.00 1 F o Nlv= 12 J pi = 4 e 1 1s 2Se 1/2 5g 4 -2.50078E+01 5.00 3 G e 2 1s 2Se 1/2 5g 4 -2.49991E+01 5.00 1 G e 3 1s 2Se 1/2 6g 4 -1.73637E+01 6.00 3 G e 4 1s 2Se 1/2 6g 4 -1.73637E+01 6.00 1 G e 5 1s 2Se 1/2 7g 4 -1.27620E+01 7.00 3 G e 6 1s 2Se 1/2 7g 4 -1.27589E+01 7.00 1 G e 7 1s 2Se 1/2 8g 4 -9.77150E+00 8.00 3 G e 8 1s 2Se 1/2 8g 4 -9.76944E+00 8.00 1 G e 9 1s 2Se 1/2 9g 4 -7.72063E+00 9.00 3 G e 10 1s 2Se 1/2 9g 4 -7.71919E+00 9.00 1 G e 11 1s 2Se 1/2 10g 4 -6.25344E+00 10.00 3 G e 12 1s 2Se 1/2 10g 4 -6.25244E+00 10.00 1 G e Nlv= 12 J pi = 4 o 1 1s 2Se 1/2 4f 4 -3.92543E+01 3.99 3 F o 2 1s 2Se 1/2 5f 4 -2.50079E+01 5.00 3 F o 3 1s 2Se 1/2 6f 4 -1.73639E+01 6.00 3 F o 4 1s 2Se 1/2 6h 4 -1.73639E+01 6.00 3 H o 5 1s 2Se 1/2 7f 4 -1.27624E+01 7.00 3 F o 6 1s 2Se 1/2 7h 4 -1.27624E+01 7.00 3 H o 7 1s 2Se 1/2 8f 4 -9.77138E+00 8.00 3 F o 8 1s 2Se 1/2 8h 4 -9.77138E+00 8.00 3 H o 9 1s 2Se 1/2 9f 4 -7.71906E+00 9.00 3 F o 10 1s 2Se 1/2 9h 4 -7.71906E+00 9.00 3 H o 11 1s 2Se 1/2 10f 4 -6.25231E+00 10.00 3 F o 12 1s 2Se 1/2 10h 4 -6.25231E+00 10.00 3 H o Nlv= 10 J pi = 5 e 1 1s 2Se 1/2 5g 5 -2.49991E+01 5.00 3 G e 2 1s 2Se 1/2 6g 5 -1.73637E+01 6.00 3 G e 3 1s 2Se 1/2 7g 5 -1.27563E+01 7.00 3 G e 4 1s 2Se 1/2 7i 5 -1.27563E+01 7.00 3 I e 5 1s 2Se 1/2 8g 5 -9.76788E+00 8.00 3 G e 6 1s 2Se 1/2 8i 5 -9.76788E+00 8.00 3 I e 7 1s 2Se 1/2 9g 5 -7.71787E+00 9.00 3 G e 8 1s 2Se 1/2 9i 5 -7.71787E+00 9.00 3 I e 9 1s 2Se 1/2 10g 5 -6.25244E+00 10.00 3 G e 10 1s 2Se 1/2 10i 5 -6.25244E+00 10.00 3 I e Nlv= 10 J pi = 5 o 1 1s 2Se 1/2 6h 5 -1.73606E+01 6.00 3 H o 2 1s 2Se 1/2 6h 5 -1.73606E+01 6.00 1 H o 3 1s 2Se 1/2 7h 5 -1.27565E+01 7.00 3 H o 4 1s 2Se 1/2 7h 5 -1.27565E+01 7.00 1 H o 5 1s 2Se 1/2 8h 5 -9.76950E+00 8.00 3 H o 6 1s 2Se 1/2 8h 5 -9.76950E+00 8.00 1 H o 7 1s 2Se 1/2 9h 5 -7.71906E+00 9.00 3 H o 8 1s 2Se 1/2 9h 5 -7.71906E+00 9.00 1 H o 9 1s 2Se 1/2 10h 5 -6.25162E+00 10.00 3 H o 10 1s 2Se 1/2 10h 5 -6.25162E+00 10.00 1 H o Nlv= 8 J pi = 6 e 1 1s 2Se 1/2 7i 6 -1.27548E+01 7.00 3 I e 2 1s 2Se 1/2 7i 6 -1.27548E+01 7.00 1 I e 3 1s 2Se 1/2 8i 6 -9.76788E+00 8.00 3 I e 4 1s 2Se 1/2 8i 6 -9.76788E+00 8.00 1 I e 5 1s 2Se 1/2 9i 6 -7.71725E+00 9.00 3 I e 6 1s 2Se 1/2 9i 6 -7.71725E+00 9.00 1 I e 7 1s 2Se 1/2 10i 6 -6.25113E+00 10.00 3 I e 8 1s 2Se 1/2 10i 6 -6.25113E+00 10.00 1 I e Nlv= 8 J pi = 6 o 1 1s 2Se 1/2 6h 6 -1.73606E+01 6.00 3 H o 2 1s 2Se 1/2 7h 6 -1.27565E+01 7.00 3 H o 3 1s 2Se 1/2 8h 6 -9.76631E+00 8.00 3 H o 4 1s 2Se 1/2 8k 6 -9.76631E+00 8.00 3 K o 5 1s 2Se 1/2 9h 6 -7.71813E+00 9.00 3 H o 6 1s 2Se 1/2 9k 6 -7.71813E+00 9.00 3 K o 7 1s 2Se 1/2 10h 6 -6.25162E+00 10.00 3 H o 8 1s 2Se 1/2 10k 6 -6.25162E+00 10.00 3 K o Nlv= 6 J pi = 7 e 1 1s 2Se 1/2 7i 7 -1.27548E+01 7.00 3 I e 2 1s 2Se 1/2 8i 7 -9.76700E+00 8.00 3 I e 3 1s 2Se 1/2 9i 7 -7.71656E+00 9.00 3 I e 4 1s 2Se 1/2 9l 7 -7.71656E+00 9.00 3 L e 5 1s 2Se 1/2 10i 7 -6.25056E+00 10.00 3 I e 6 1s 2Se 1/2 10l 7 -6.25056E+00 10.00 3 L e Nlv= 6 J pi = 7 o 1 1s 2Se 1/2 8k 7 -9.76563E+00 8.00 3 K o 2 1s 2Se 1/2 8k 7 -9.76563E+00 8.00 1 K o 3 1s 2Se 1/2 9k 7 -7.71688E+00 9.00 3 K o 4 1s 2Se 1/2 9k 7 -7.71688E+00 9.00 1 K o 5 1s 2Se 1/2 10k 7 -6.25119E+00 10.00 3 K o 6 1s 2Se 1/2 10k 7 -6.25119E+00 10.00 1 K o Nlv= 4 J pi = 8 o 1 1s 2Se 1/2 8k 8 -9.76563E+00 8.00 3 K o 2 1s 2Se 1/2 9k 8 -7.71688E+00 9.00 3 K o 3 1s 2Se 1/2 10k 8 -6.25088E+00 10.00 3 K o 4 1s 2Se 1/2 10m 8 -6.25088E+00 10.00 3 M o Nlv(cal) = 190