1 1 3s2.3p3 4 0 S 1.5 4 0.000 0.000000 0.000 0.000000 2 1 3s2.3p3 2 2 D 1.5 4 14852.940 0.135350 17195.838 0.156700 3 1 3s2.3p3 2 2 D 2.5 6 14884.730 0.135640 17195.838 0.156700 4 1 3s2.3p3 2 1 P 0.5 2 24524.830 0.223487 27862.306 0.253900 5 1 3s2.3p3 2 1 P 1.5 4 24571.540 0.223912 27862.306 0.253900 6 2 3s.3p4 4 1 P 0.5 2 79962.610 0.728673 78549.974 0.715800 7 2 3s.3p4 4 1 P 1.5 4 79756.830 0.726798 78549.974 0.715800 8 2 3s.3p4 4 1 P 2.5 6 79395.390 0.723504 78549.974 0.715800 9 2 3s.3p4 2 2 D 1.5 4 97890.740 0.892046 100179.199 0.912900 10 2 3s.3p4 2 2 D 2.5 6 97918.860 0.892302 100179.199 0.912900 11 3 3s2.3p2(3P)3d 2 1 P 0.5 2 106044.240 0.966346 100179.199 0.912900 12 3 3s2.3p2(3P)3d 2 1 P 1.5 4 105599.060 0.962289 100179.199 0.912900 13 4 3s2.3p2(3P)4s 4 1 P 0.5 2 109560.690 0.998391 108804.553 0.991500 14 4 3s2.3p2(3P)4s 4 1 P 1.5 4 109831.590 1.000859 108804.553 0.991500 15 4 3s2.3p2(3P)4s 4 1 P 2.5 6 110268.600 1.004841 110505.481 1.007000 16 3 3s2.3p2(3P)3d 4 3 F 1.5 4 110177.020 1.004007 110505.481 1.007000 17 3 3s2.3p2(3P)3d 4 3 F 2.5 6 110313.400 1.005250 110505.481 1.007000 18 3 3s2.3p2(3P)3d 4 3 F 3.5 8 110508.710 1.007029 113578.126 1.035000 19 3 3s2.3p2(3P)3d 4 3 F 4.5 10 110766.560 1.009379 113578.126 1.035000 20 4 3s2.3p2(3P)4s 2 1 P 0.5 2 112937.570 1.029163 113578.126 1.035000 21 4 3s2.3p2(3P)4s 2 1 P 1.5 4 113461.540 1.033938 113578.126 1.035000 22 3 3s2.3p2(3P)3d 4 2 D 0.5 2 114162.300 1.040323 114565.762 1.044000 23 3 3s2.3p2(3P)3d 4 2 D 1.5 4 114200.540 1.040672 114565.762 1.044000 24 3 3s2.3p2(3P)3d 4 2 D 2.5 6 114231.040 1.040950 116979.983 1.066000 25 3 3s2.3p2(3P)3d 4 2 D 3.5 8 114279.330 1.041390 116979.983 1.066000 26 3 3s2.3p2(3P)3d 2 3 F 2.5 6 114804.370 1.046174 119394.204 1.088000 27 3 3s2.3p2(3P)3d 2 3 F 3.5 8 115285.610 1.050560 119394.204 1.088000 28 2 3s.3p4 2 0 S 0.5 2 119783.770 1.091550 122796.061 1.119000 29 4 3s2.3p2(1D)4s 2 2 D 1.5 4 121528.720 1.107451 124222.646 1.132000 30 4 3s2.3p2(1D)4s 2 2 D 2.5 6 121530.020 1.107463 124222.646 1.132000 31 5 3s2.3p2(3P)4p 2 0 S 0.5 2 125485.290 1.143506 125868.706 1.147000 32 5 3s2.3p2(3P)4p 4 2 D 0.5 2 127825.080 1.164828 129599.770 1.181000 33 5 3s2.3p2(3P)4p 4 2 D 1.5 4 127976.340 1.166206 129599.770 1.181000 34 5 3s2.3p2(3P)4p 4 2 D 2.5 6 128233.200 1.168547 129599.770 1.181000 35 5 3s2.3p2(3P)4p 4 2 D 3.5 8 128599.160 1.171882 129599.770 1.181000 36 5 3s2.3p2(3P)4p 4 1 P 0.5 2 129787.830 1.182714 131355.570 1.197000 37 5 3s2.3p2(3P)4p 4 1 P 1.5 4 129858.180 1.183355 131355.570 1.197000 38 5 3s2.3p2(3P)4p 4 1 P 2.5 6 130134.160 1.185870 131355.570 1.197000 39 3 3s2.3p2(1D)3d 2 4 G 3.5 8 127127.100 1.158467 132233.480 1.205000 40 3 3s2.3p2(1D)3d 2 4 G 4.5 10 127128.350 1.158479 132233.480 1.205000 41 3 3s2.3p2(3P)3d 4 1 P 0.5 2 130948.940 1.193294 132562.680 1.208000 42 3 3s2.3p2(3P)3d 4 1 P 1.5 4 130818.850 1.192109 132562.680 1.208000 43 3 3s2.3p2(3P)3d 4 1 P 2.5 6 130602.210 1.190135 132562.680 1.208000 -1 %filename: s_2.elvlc %observed energy levels: Martin, W.C., Sugar, J., Musgrove, A., Dalton, G.R., 1995, NIST Database for Atomic Spectroscopy, Version 1.0, NIST Standard Reference Database 61 %theoretical energy levels: Ramsbottom C.A., Bell K.L., Stafford R.P., 1996, ADNDT, 63, 57 %comment: This file has been modified from the one in v.2 of the database. Levels 6, 7 and 8, and levels 11 and 12 have been reversed to match the ordering of Ramsbottom et al. Also the theoretical energies are now those of Ramsbottom et al. These energies are from LS coupling and so there is no fine structure splitting. % produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration % % Peter Young, Feb 2000 -1