------------------------- 786 --------------------------------------------- Ref: "Atomic data from the Iron Project XXXV. Relativistic fine structure oscillator strengths for Fe~XXIV and Fe~XXV", Sultana N. Nahar and Anil K. Pradhan, Astron. Astrophys. Suppl. Ser. 135, 347 (1999) NOTE: The energy set in this work is very similar to that for the recombi- rates file (Nahar et al, ApJS 2001), except for a few high-lying levels and slight differences in energy values. ---------------------------------------------------------------------------- Energy tables of Fe XXV: The contents of this file are: ------------------------- i) Target/Core info: Fe XXVI ground and excited levels included in the eigenfunction expansion of Fe XXV ii) Fine structure energy levels of Fe XXV, with spectroscopic identification, ordered in energy, and grouped as LS terms iii) Fine structure energy levels, with spectroscopic identification, and ordered in J\pi and energy ----------------------------------------------------------------------- i) Target/Core info: Fe XXV ground and excited levels included in the eigenfunction expansion of Fe XXIV ----------------------------------------------------------- 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 5.10960E+02 3 2s 2Se 1/2 5.11001E+02 4 2p 2Po 3/2 5.12519E+02 5 3p 2Po 1/2 6.06099E+02 6 3s 2Se 1/2 6.06112E+02 7 3d 2De 3/2 6.06560E+02 8 3p 2Po 3/2 6.06561E+02 9 3d 2De 5/2 6.06712E+02 10 4p 2Po 1/2 6.39334E+02 11 4s 2Se 1/2 6.39339E+02 12 4d 2De 3/2 6.39528E+02 13 4p 2Po 3/2 6.39529E+02 14 4f 2Fo 5/2 6.39592E+02 15 4d 2De 5/2 6.39592E+02 16 4f 2Fo 7/2 6.39624E+02 --------------------------------------------------------------------------- ii) Fine structure energy levels of Fe XXV, with spectroscopic identification, ordered in energy, and grouped as 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 0 2 16 1 4 18 0 2 18 1 1 20 0 0 20 1 1 Total number of levels = 196 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 -1.61325E+02 1.97 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 2p 0 -1.59352E+02 1.98 3 P o 1s (2Se) 1/2 2p 1 -1.59060E+02 1.98 3 P o 1s (2Se) 1/2 2p 2 -1.57883E+02 1.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 2s 0 -1.59084E+02 1.98 1 S e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 2p 1 -1.56551E+02 1.97 1 P o Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 3s 1 -7.11138E+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 2.98 3 P o 1s (2Se) 1/2 3p 1 -7.04869E+01 2.98 3 P o 1s (2Se) 1/2 3p 2 -7.01344E+01 2.99 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 -6.98306E+01 2.99 3 D e 1s (2Se) 1/2 3d 2 -6.98225E+01 2.99 3 D e 1s (2Se) 1/2 3d 3 -6.96944E+01 2.99 3 D e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: P ( 1 ) 1s (2Se) 1/2 3p 1 -6.97763E+01 2.96 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 3d 2 -6.96819E+01 2.96 1 D e Nlv(c)= 1 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 4s 1 -3.98789E+01 3.96 3 S e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: P ( 2 1 0 ) 1s (2Se) 1/2 4p 0 -3.96541E+01 3.97 3 P o 1s (2Se) 1/2 4p 1 -3.96201E+01 3.97 3 P o 1s (2Se) 1/2 4p 2 -3.94709E+01 3.98 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 4s 0 -3.96399E+01 3.97 1 S e Nlv(c)= 1 : set complete Nlv= 3, 3Le: D ( 3 2 1 ) 1s (2Se) 1/2 4d 1 -3.93463E+01 3.99 3 D e 1s (2Se) 1/2 4d 2 -3.93424E+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 -3.93247E+01 3.99 1 P o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: F ( 4 3 2 ) 1s (2Se) 1/2 4f 2 -3.92827E+01 3.99 3 F o 1s (2Se) 1/2 4f 3 -3.92826E+01 3.99 3 F o 1s (2Se) 1/2 4f 4 -3.92544E+01 3.99 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 4d 2 -3.92818E+01 3.99 1 D e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 4f 3 -3.92542E+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 -2.51958E+01 4.98 3 P o 1s (2Se) 1/2 5p 2 -2.51197E+01 4.99 3 P o Nlv(c)= 3 : set complete Nlv= 1, 1Le: S ( 0 ) 1s (2Se) 1/2 5s 0 -2.52074E+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 -2.50536E+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 -2.50451E+01 4.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 5d 2 -2.50224E+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 -2.50224E+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= 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, 1Lo: F ( 3 ) 1s (2Se) 1/2 5f 3 -2.50078E+01 5.00 1 F o Nlv(c)= 1 : 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 -1.74872E+01 5.98 3 P o 1s (2Se) 1/2 6p 1 -1.74773E+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 -1.73904E+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 -1.73766E+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 -1.73688E+01 6.00 3 G e 1s (2Se) 1/2 6g 5 -1.73638E+01 6.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 6f 3 -1.73686E+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 -1.73639E+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 -1.73638E+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 -1.28313E+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 -1.27802E+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 -1.27767E+01 6.99 1 P o Nlv(c)= 1 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 7d 2 -1.27680E+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 -1.27586E+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 -1.27562E+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 -1.27562E+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 -9.82137E+00 7.98 3 P o 1s (2Se) 1/2 8p 1 -9.81719E+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 -9.78056E+00 7.99 1 P o 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 -9.77137E+00 8.00 3 F o Nlv(c)= 3 : set complete Nlv= 1, 1Le: D ( 2 ) 1s (2Se) 1/2 8d 2 -9.77481E+00 8.00 1 D e Nlv(c)= 1 : 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 -9.77137E+00 8.00 1 F o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: H ( 6 5 4 ) 1s (2Se) 1/2 8h 4 -9.77137E+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, 1Le: G ( 4 ) 1s (2Se) 1/2 8g 4 -9.76944E+00 8.00 1 G e Nlv(c)= 1 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 8h 5 -9.76819E+00 8.00 1 H o 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 -9.76562E+00 8.00 3 K o 1s (2Se) 1/2 8k 8 -9.76562E+00 8.00 3 K o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: K ( 7 ) 1s (2Se) 1/2 8k 7 -9.76562E+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 -7.75562E+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 -7.73963E+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 -7.72837E+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 -7.72700E+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 -7.72062E+00 9.00 3 G e 1s (2Se) 1/2 9g 4 -7.72062E+00 9.00 3 G e 1s (2Se) 1/2 9g 5 -7.71788E+00 9.00 3 G e Nlv(c)= 3 : set complete Nlv= 1, 1Lo: F ( 3 ) 1s (2Se) 1/2 9f 3 -7.72062E+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 -7.71813E+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 -7.71687E+00 9.00 3 K o 1s (2Se) 1/2 9k 8 -7.71687E+00 9.00 3 K o Nlv(c)= 3 : set complete Nlv= 3, 3Le: I ( 7 6 5 ) 1s (2Se) 1/2 9i 5 -7.71788E+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 -7.71687E+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 1s (2Se) 1/2 9l 8 -7.71656E+00 9.00 3 L e 1s (2Se) 1/2 9l 9 -7.71631E+00 9.00 3 L e Nlv(c)= 3 : set complete Nlv= 1, 3Le: S ( 1 ) 1s (2Se) 1/2 10s 1 -6.29312E+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 -6.25112E+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 -6.25231E+00 10.00 3 H o 1s (2Se) 1/2 10h 6 -6.25163E+00 10.00 3 H o Nlv(c)= 3 : set complete Nlv= 1, 1Lo: H ( 5 ) 1s (2Se) 1/2 10h 5 -6.25163E+00 10.00 1 H o Nlv(c)= 1 : set complete Nlv= 3, 3Lo: K ( 8 7 6 ) 1s (2Se) 1/2 10k 6 -6.25163E+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 -6.25087E+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 -6.25112E+00 10.00 1 I e Nlv(c)= 1 : set complete Nlv= 3, 3Lo: M (10 9 8 ) 1s (2Se) 1/2 10m 8 -6.25087E+00 10.00 3 M o 1s (2Se) 1/2 10m 9 -6.25025E+00 10.00 3 M o 1s (2Se) 1/2 10m 10 -6.25019E+00 10.00 3 M o Nlv(c)= 3 : set complete Nlv= 3, 3Le: L ( 9 8 7 ) 1s (2Se) 1/2 10l 7 -6.25056E+00 10.00 3 L e 1s (2Se) 1/2 10l 8 -6.25037E+00 10.00 3 L e 1s (2Se) 1/2 10l 9 -6.25037E+00 10.00 3 L e Nlv(c)= 3 : set complete Total number of levels processed= 196 --------------------------------------------------------------------------- iii) Fine structure energy levels, with spectroscopic identification, and ordered in J\pi and energy -------------------------------------------------------------------- i T(config SLpi Jt) nl J E(Ry) EQN Terms Nlv= 10 J pi = 0 e 1 1s 1Se 1/2 1s 0 -6.49681E+02 0.98 2 e 2 1s 2Se 1/2 2s 0 -1.59084E+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 -3.96399E+01 3.97 1 S e 5 1s 2Se 1/2 5s 0 -2.52074E+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 1.98 3 P o 2 1s 2Se 1/2 3p 0 -7.05687E+01 2.98 3 P o 3 1s 2Se 1/2 4p 0 -3.96541E+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 -1.74872E+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 -9.82137E+00 7.98 3 P o 8 1s 2Se 1/2 9p 0 -7.75562E+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 -1.61325E+02 1.97 3 S e 2 1s 2Se 1/2 3s 1 -7.11138E+01 2.96 3 S e 3 1s 2Se 1/2 3d 1 -6.98306E+01 2.99 3 D e 4 1s 2Se 1/2 4s 1 -3.98789E+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 -1.27802E+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 -6.29312E+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 -1.59060E+02 1.98 3 P o 2 1s 2Se 1/2 2p 1 -1.56551E+02 1.97 1 P o 3 1s 2Se 1/2 3p 1 -7.04869E+01 2.98 3 P o 4 1s 2Se 1/2 3p 1 -6.97763E+01 2.96 1 P o 5 1s 2Se 1/2 4p 1 -3.96201E+01 3.97 3 P o 6 1s 2Se 1/2 4p 1 -3.93247E+01 3.99 1 P o 7 1s 2Se 1/2 5p 1 -2.51958E+01 4.98 3 P o 8 1s 2Se 1/2 5p 1 -2.50451E+01 4.99 1 P o 9 1s 2Se 1/2 6p 1 -1.74773E+01 5.98 3 P o 10 1s 2Se 1/2 6p 1 -1.73904E+01 5.99 1 P o 11 1s 2Se 1/2 7p 1 -1.28313E+01 6.98 3 P o 12 1s 2Se 1/2 7p 1 -1.27767E+01 6.99 1 P o 13 1s 2Se 1/2 8p 1 -9.81719E+00 7.98 3 P o 14 1s 2Se 1/2 8p 1 -9.78056E+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 -7.72700E+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 -6.98225E+01 2.99 3 D e 2 1s 2Se 1/2 3d 2 -6.96819E+01 2.96 1 D e 3 1s 2Se 1/2 4d 2 -3.93424E+01 3.99 3 D e 4 1s 2Se 1/2 4d 2 -3.92818E+01 3.99 1 D e 5 1s 2Se 1/2 5d 2 -2.50536E+01 4.99 3 D e 6 1s 2Se 1/2 5d 2 -2.50224E+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 -1.27680E+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 -9.77481E+00 8.00 1 D e 13 1s 2Se 1/2 9d 2 -7.72837E+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 -1.57883E+02 1.99 3 P o 2 1s 2Se 1/2 3p 2 -7.01344E+01 2.99 3 P o 3 1s 2Se 1/2 4p 2 -3.94709E+01 3.98 3 P o 4 1s 2Se 1/2 4f 2 -3.92827E+01 3.99 3 F o 5 1s 2Se 1/2 5p 2 -2.51197E+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 -7.73963E+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 1/2 3d 3 -6.96944E+01 2.99 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 -7.72062E+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 -3.92826E+01 3.99 3 F o 2 1s 2Se 1/2 4f 3 -3.92542E+01 3.99 1 F o 3 1s 2Se 1/2 5f 3 -2.50224E+01 5.00 3 F o 4 1s 2Se 1/2 5f 3 -2.50078E+01 5.00 1 F o 5 1s 2Se 1/2 6f 3 -1.73766E+01 6.00 3 F o 6 1s 2Se 1/2 6f 3 -1.73686E+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 -9.77137E+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 -7.72062E+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 -1.73688E+01 6.00 3 G e 4 1s 2Se 1/2 6g 4 -1.73638E+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 -7.72062E+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 -3.92544E+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 -9.77137E+00 8.00 3 F o 8 1s 2Se 1/2 8h 4 -9.77137E+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 -1.73638E+01 6.00 3 G e 3 1s 2Se 1/2 7g 5 -1.27562E+01 7.00 3 G e 4 1s 2Se 1/2 7i 5 -1.27562E+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 -7.71788E+00 9.00 3 G e 8 1s 2Se 1/2 9i 5 -7.71788E+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 -1.73639E+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 -1.27586E+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 -9.76819E+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 -7.71813E+00 9.00 1 H o 9 1s 2Se 1/2 10h 5 -6.25231E+00 10.00 3 H o 10 1s 2Se 1/2 10h 5 -6.25163E+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 -6.25112E+00 10.00 3 I e 8 1s 2Se 1/2 10i 6 -6.25112E+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 -6.25163E+00 10.00 3 H o 8 1s 2Se 1/2 10k 6 -6.25163E+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 -9.76562E+00 8.00 3 K o 2 1s 2Se 1/2 8k 7 -9.76562E+00 8.00 1 K o 3 1s 2Se 1/2 9k 7 -7.71687E+00 9.00 3 K o 4 1s 2Se 1/2 9k 7 -7.71687E+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= 2 J pi = 8 e 1 1s 2Se 1/2 9l 8 -7.71656E+00 9.00 3 L e 2 1s 2Se 1/2 10l 8 -6.25037E+00 10.00 3 L e Nlv= 4 J pi = 8 o 1 1s 2Se 1/2 8k 8 -9.76562E+00 8.00 3 K o 2 1s 2Se 1/2 9k 8 -7.71687E+00 9.00 3 K o 3 1s 2Se 1/2 10k 8 -6.25087E+00 10.00 3 K o 4 1s 2Se 1/2 10m 8 -6.25087E+00 10.00 3 M o Nlv= 2 J pi = 9 e 1 1s 2Se 1/2 9l 9 -7.71631E+00 9.00 3 L e 2 1s 2Se 1/2 10l 9 -6.25037E+00 10.00 3 L e Nlv= 1 J pi = 9 o 1 1s 2Se 1/2 10m 9 -6.25025E+00 10.00 3 M o Nlv= 0 J pi = 10 e Nlv= 1 J pi = 10 o 1 1s 2Se 1/2 10m 10 -6.25019E+00 10.00 3 M o Nlv(cal) = 196