ErIV_Table1_OddLevels.txt
Table 1. Odd parity energy levels of the two configurations 4f11 and 4f106p of the Er3+ ion.
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From J.Phys.B: At. Mol. Opt. Phys. 49, (2016) 165002 (19pp)
by A Meftah, S Ait Mammar, J-F Wyart, W-U L Tchang-Brillet, N Champion,
C. Blaess, D. Degiche and O. Lamrous
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Readme for this table
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col.1 Main configuration
col.2 Total angular momentum J
col.3 Experimental level energy followed by its uncertainty between parenthesis, both in cm^-1
col.4 Calculated level energy from the Least-Squares Fit in Cowan's RCE code, corresponding to the parameters given in Table 4
col.5 DE=Eexp-Ecalc in cm^-1
col.6 Ncl, the total number of transitions involving the experimental level determination
col.7 Calculated Lande factor
col.8 First leading component in LS coupling scheme
col.9 Percentage of the first LS component (squared amplitude)
col.10 Second leading LS component
col.11 Percentage of the second LS component (squared amplitude)
col.12 Third leading LS component
col.13 Percentage of the third LS component (squared amplitude)
col.14 First leading component in JJ coupling scheme
col.15 Percentage of the first JJ component (squared amplitude)
col.16 Second leading JJ component
col.17 Percentage of the second JJ component (squared amplitude)
col.18 Third leading JJ component
col.19 Percentage of the third JJ component (squared amplitude)
* The number following a term designation is an ordering number related to the seniority of the parent term as given by Cowan's code;
a lowercase letter is added to distinguish two levels with the same main component.
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Conf J Eexp(unc.) Ecal DE Ncl gLande LSComp1 % LSComp2 % LSComp3 % JJComp1 % JJComp2 % JJComp3 %
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4f11 7.5 0.00 -32.0 32 28 1.197 4I 97 2K 3 # # # # # # # #
4f11 6.5 6507.75(11) 6533.4 -26 34 1.107 4I 99 2K 1 # # # # # # # #
4f11 5.5 10171.79(12) 10184.6 -13 27 0.989 4I 82 2H2 15 4G 1 # # # # # #
4f11 4.5 12468.66(12) 12399.5 69 24 0.902 4I 51 2H2 17 4F 14 # # # # # #
4f11 4.5 15404.86(12) 15295.1 110 25 1.134 4F 58 4I 27 2G1 8 # # # # # #
4f11 1.5 # 18470.4 # # 1.705 4S 69 2P 18 2D1 8 # # # # # #
4f11 5.5 19331.69(11) 19385.4 -54 25 1.134 2H2 48 4G 35 4I 15 # # # # # #
4f11 3.5 # 20527.2 # # 1.214 4F 92 2G1 4 2G2 2 # # # # # #
4f11 2.5 # 22159.1 # # 1.053 4F 84 2D1 13 2D2 2 # # # # # #
4f11 1.5 # 22533.3 # # 0.744 4F 63 2D1 20 4S 16 # # # # # #
4f11 4.5 24736.00(12) 24723.5 13 14 1.073 4Fb 24 2G1 19 2H2 16 # # # # # #
4f11 5.5 26707.79(10) 26807.1 -99 19 1.200 4G 61 2H2 26 2H1 10 # # # # # #
4f11 4.5 27766.82(11) 27798.8 -32 15 1.110 4G 79 2H2 15 4I 5 # # # # # #
4f11 7.5 # 28232.5 # # 1.063 2K 91 2L 6 4I 3 # # # # # #
4f11 3.5 # 28265.1 # # 0.954 4G 41 2G1 27 2G2 24 # # # # # #
4f11 1.5 # 31890.1 # # 1.056 2P 37 4F 24 2D1 21 # # # # # #
4f11 6.5 # 33577.5 # # 0.948 2K 90 2I 10 4I 1 # # # # # #
4f11 0.5 # 33598.6 # # 0.613 2P 92 4D 8 # # # # # # # #
4f11 2.5 # 33755.8 # # 0.602 4G 92 2F2 4 2F1 3 # # # # # #
4f11 3.5 # 34405.9 # # 0.952 4G 55 2G1 27 2G2 15 # # # # # #
4f11 2.5 # 34889.8 # # 1.197 2D1 57 2D2 16 4F 14 # # # # # #
4f11 4.5 # 36928.1 # # 1.031 2H2 32 2G1 24 2G2 15 # # # # # #
4f11 2.5 # 39201.1 # # 1.261 4D 45 2D1 27 2D2 24 # # # # # #
4f11 3.5 # 39716.6 # # 1.412 4D 95 2F1 3 4G 1 # # # # # #
4f11 5.5 # 41549.4 # # 0.983 2I 65 2H1 31 2H2 2 # # # # # #
4f11 8.5 # 42355.7 # # 1.059 2L 100 # # # # # # # # # #
4f11 1.5 # 42697.5 # # 1.041 4D 51 2D1 30 2P 9 # # # # # #
4f11 1.5 # 43469.1 # # 1.091 2P 33 2D2 26 4D 23 # # # # # #
4f11 6.5 # 44336.2 # # 1.064 2I 90 2K 10 # # # # # # # #
4f11 0.5 # 47718.1 # # 0.050 4D 92 2P 8 # # # # # # # #
4f11 4.5 # 48271.0 # # 0.917 2H1 78 2H2 18 2G2 3 # # # # # #
4f11 7.5 # 48648.2 # # 0.948 2L 94 2K 6 # # # # # # # #
4f11 2.5 # 49517.1 # # 1.208 2D2 45 4D 39 2F2 8 # # # # # #
4f11 5.5 # 51567.5 # # 1.037 2H1 55 2I 34 2H2 10 # # # # # #
4f11 3.5 # 54909.8 # # 1.147 2F2 53 2F1 36 4D 4 # # # # # #
4f11 1.5 # 55587.6 # # 0.897 2D2 68 4D 22 2D1 5 # # # # # #
4f11 2.5 # 63502.4 # # 0.907 2F2 61 2F1 19 2D2 13 # # # # # #
4f11 3.5 # 66429.6 # # 0.897 2G2 58 2G1 39 2F2 3 # # # # # #
4f11 4.5 # 70623.3 # # 1.106 2G2 57 2G1 40 2H1 2 # # # # # #
4f11 2.5 # 93368.7 # # 0.857 2F1 74 2F2 26 # # # # # # # #
4f11 3.5 # 97568.7 # # 1.140 2F1 58 2F2 40 2G2 1 # # # # # #
4f106p 7.5 147031.30(22) 147062.3 -31 9 1.278 (5I)6H 57 (5I)4I 18 (5I)6I 15 (5I8)1/2 89 (3K8)1/2 2 (3K8)3/2 1
4f106p 8.5 147458.05(22) 147473.8 -16 10 1.218 (5I)4K 40 (5I)6I 35 (5I)6K 17 (5I8)1/2 92 (3K8)1/2 3 (5I8)3/2 1
4f106p 6.5 153114.10(22) 153155.5 -41 16 1.208 (5I)6H 49 (5I)6I 29 (5I)4I 12 (5I7)1/2 90 (5I8)3/2 4 (5I6)3/2 1
4f106p 7.5 153525.32(22) 153547.7 -22 16 1.152 (5I)6K 34 (5I)4K 30 (5I)6I 22 (5I7)1/2 94 (5I8)3/2 2 (5I7)3/2 1
4f106p 8.5 155006.25(22) 155021.3 -15 13 1.240 (5I)6I 56 (5I)4K 34 (3K)4K2 3 (5I8)3/2 91 (3K8)3/2 5 (5I8)1/2 1
4f106p 9.5 155098.13(24) 155105.1 -7 5 1.256 (5I)6K 93 (3K)4L2 6 (3K)4L1 2 (5I8)3/2 93 (3K8)3/2 6 (3K8)3/2 2
4f106p 7.5 155801.71(22) 155799.8 2 18 1.234 (5I)4I 60 (5I)6H 29 (5I)6I 3 (5I8)3/2 90 (3K8)3/2 4 (5I7)1/2 2
4f106p 6.5 156582.86(22) 156560.9 22 16 1.212 (5I)4H 77 (5I)6H 8 (3K)2I2 4 (5I8)3/2 85 (3K8)3/2 3 (5I6)1/2 2
4f106p 5.5 157327.77(22) 157354.0 -26 18 1.099 (5I)6I 38 (5I)6H 32 (5I)4H 14 (5I6)1/2 89 (5I7)3/2 3 (5I5)3/2 1
4f106p 6.5 157754.93(22) 157751.7 3 13 1.061 (5I)6K 44 (5I)4K 17 (5I)4I 14 (5I6)1/2 85 (5I8)3/2 7 # #
4f106p 4.5 160371.83(22) 160367.0 5 12 0.931 (5I)6I 41 (5I)4H 22 (5I)6H 19 (5I5)1/2 81 (5I4)1/2 2 (5I6)3/2 2
4f106p 5.5 160606.53(22) 160588.3 18 14 0.908 (5I)6K 52 (5I)4I 21 (5I)4K 7 (5I5)1/2 80 (5I7)3/2 3 (3H5)1/2 1
4f106p 7.5 161112.82(22) 161137.4 -25 17 1.183 (5I)6I 53 (5I)4K 28 (5I)4I 7 (5I7)3/2 95 (5I6)3/2 1 # #
4f106p 8.5 161334.60(23) 161352.3 -18 10 1.200 (5I)6K 76 (5I)4K 18 (5I)6I 2 (5I7)3/2 96 (3K7)3/2 2 # #
4f106p 6.5 161611.07(22) 161620.8 -10 17 1.174 (5I)4I 47 (5I)6H 35 (5I)6I 13 (5I7)3/2 92 (5I6)3/2 3 (5I6)1/2 2
4f106p 5.5 162312.00(22) 162301.3 11 17 1.143 (5I)4H 70 (5I)6H 23 (3K)4I2 1 (5I7)3/2 86 (5I6)1/2 4 (5I6)3/2 3
4f106p 3.5 # 162947.6 # # 0.596 (5I)6I 47 (5I)4H 31 (5I)6H 9 (5I4)1/2 84 (3H4)3/2 2 (5I5)3/2 2
4f106p 4.5 162983.48(24) 162957.0 27 7 0.635 (5I)6K 62 (5I)4I 22 (3H)4I4 4 (5I4)1/2 84 (3H4)1/2 3 (5I6)3/2 2
4f106p 4.5 164407.85(24) 164391.7 16 6 1.419 (5F)6D 48 (5F)6F 14 (5F)4F 11 (5F5)1/2 69 (3G5)1/2 4 (3G5)3/2 2
4f106p 5.5 164899.21(22) 164854.4 45 13 1.281 (5F)4G 33 (5F)6F 20 (5F)6G 19 (5F5)1/2 72 (3G5)1/2 5 (3G4)3/2 2
4f106p 6.5 165336.40(22) 165358.5 -22 19 1.098 (5I)6I 42 (5I)4K 19 (5I)4I 19 (5I6)3/2 89 (5I7)3/2 2 (5I5)3/2 2
4f106p 5.5 165546.19(22) 165551.1 -5 19 1.087 (5I)6H 32 (5I)4I 31 (5I)6I 21 (5I6)3/2 85 (5I5)3/2 4 (5I5)1/2 1
4f106p 7.5 165670.33(23) 165675.4 -5 12 1.120 (5I)6K 54 (5I)4K 37 (3H)4I4 2 (5I6)3/2 91 (3H6)3/2 2 (5I7)3/2 1
4f106p 4.5 166070.33(22) 166059.5 11 14 1.022 (5I)6H 46 (5I)4H 46 (3H)2G4 2 (5I6)3/2 84 (5I5)3/2 5 (5I5)1/2 2
4f106p 1.5 # 167639.5 # # 2.014 (5S)6P 57 (5S)4P 10 (3P)4P2 7 (5S2)1/2 67 (3P2)1/2 9 (3P2)3/2 3
4f106p 2.5 # 167936.7 # # 1.536 (5S)6P 35 (5S)4P 28 (3P)4D2 7 (5S2)1/2 62 (3P2)1/2 11 (5F2)1/2 3
4f106p 3.5 # 168188.0 # # 1.422 (5F)6D 35 (5F)6F 30 (5F)4D 12 (5F4)1/2 84 (5F4)3/2 1 (5F2)3/2 1
4f106p 4.5 # 168291.7 # # 1.080 (5F)6G 18 (5I)6I 16 (5F)4G 13 (5I5)3/2 24 (5F4)1/2 22 (5I4)3/2 10
4f106p 5.5 168464.07(22) 168464.5 0 17 0.969 (5I)4I 32 (5I)6I 28 (5I)6K 15 (5I5)3/2 76 (5I6)3/2 7 (5I4)3/2 1
4f106p 4.5 168566.60(23) 168536.1 31 9 1.108 (5F)6G 21 (5I)6I 14 (5F)4G 13 (5F4)1/2 24 (5I5)3/2 22 (5I4)3/2 9
4f106p 3.5 # 168552.6 # # 0.813 (5I)6H 67 (5I)4H 20 (3H)4G4 3 (5I5)3/2 80 (5I4)3/2 5 (3H5)3/2 4
4f106p 6.5 168839.85(22) 168818.9 21 18 1.011 (5I)4K 52 (5I)6K 32 (3H)4I4 3 (5I5)3/2 77 (5I6)3/2 6 (3H5)3/2 5
4f106p 2.5 # 170411.9 # # 0.327 (5I)6H 86 (3H)4G4 6 (3H)4G3 3 (5I4)3/2 86 (3H4)3/2 6 (3H4)3/2 3
4f106p 2.5 # 170700.2 # # 1.251 (5F)6F 31 (5F)6G 22 (5F)6D 15 (5F3)1/2 79 (5F2)1/2 6 # #
4f106p 7.5 170771.46(30) 170774.8 -3 3 1.135 (3K)4I2 34 (3K)4I1 11 (3K)2K2 9 (3K8)1/2 52 (3K8)1/2 7 (3K8)3/2 4
4f106p 3.5 170863.07(30) 170834.3 29 5 0.749 (5I)6I 31 (5I)4H 27 (5F)6G 12 (5I4)3/2 61 (5F3)1/2 11 (5I5)3/2 4
4f106p 3.5 # 170913.0 # # 1.040 (5F)6G 38 (5F)4F 11 (5I)6I 10 (5F3)1/2 54 (5I4)3/2 13 (5I5)3/2 6
4f106p 4.5 170987.58(30) 170980.5 7 5 0.736 (5I)4I 46 (5I)6K 22 (5I)6I 17 (5I4)3/2 82 (5I5)3/2 3 (3H4)3/2 1
4f106p 1.5 # 171107.6 # # 1.247 (5F)6F 22 (5F)4D 18 (5S)6P 14 (5F2)1/2 55 (5S2)1/2 11 (5S2)3/2 3
4f106p 8.5 # 171110.0 # # 1.080 (3K)2L2 22 (3K)4K2 16 (3K)4L2 15 (3K8)1/2 53 (1L8)1/2 4 (3K8)1/2 3
4f106p 5.5 # 171182.4 # # 1.357 (5G)6F 39 (5F)6F 15 (5G)4G 9 (5G6)1/2 53 (5F5)3/2 22 (5G5)1/2 1
4f106p 2.5 # 171326.1 # # 1.209 (5F)6G 23 (5S)6P 12 (5F)4F 12 (5F2)1/2 44 (5S2)3/2 6 (5S2)1/2 6
4f106p 5.5 # 171538.3 # # 0.809 (5I)4K 70 (5I)6K 16 (3H)2I4 4 (5I4)3/2 80 (3H4)3/2 6 (5I5)3/2 5
4f106p 6.5 # 171729.1 # # 1.315 (5F)6G 49 (5G)6G 12 (5G)4H 9 (5F5)3/2 49 (5G6)1/2 28 (3G5)3/2 6
4f106p 1.5 # 172632.9 # # 0.362 (5F)6G 52 (5F)4F 13 (3D)4F1 12 (5F1)1/2 68 (3D1)1/2 8 (3D1)1/2 2
4f106p 6.5 # 172890.8 # # 1.278 (5F)6G 29 (5G)4H 27 (5G)6G 13 (5G6)1/2 47 (5F5)3/2 29 (3G5)3/2 4
4f106p 4.5 # 173011.3 # # 1.314 (5F)4F 34 (5F)6D 27 (3G)2G2 10 (5F5)3/2 56 (3G5)3/2 8 (3G5)1/2 5
4f106p 0.5 # 173128.8 # # -0.002 (5F)6F 37 (5F)4D 36 (3D)4D1 9 (5F1)1/2 76 (3D1)1/2 14 (3D1)3/2 1
4f106p 3.5 # 173299.3 # # 1.370 (5F)4D 59 (5F)6D 12 (3G)2F2 6 (5F5)3/2 70 (3G5)3/2 9 (5F4)3/2 2
4f106p 5.5 # 173635.5 # # 1.319 (5F)4G 29 (5F)6F 23 (5G)6G 13 (5F5)3/2 50 (5G6)1/2 13 (3G5)3/2 5
4f106p 4.5 # 173867.1 # # 1.340 (5G)6F 21 (5F)6F 17 (5F)4F 16 (5G5)1/2 19 (5F5)1/2 14 (5F5)3/2 11
4f106p 5.5 # 174723.1 # # 1.187 (5G)6H 13 (5G)4H 11 (3G)2H2 10 (5G5)1/2 26 (5F5)3/2 5 (3G5)1/2 4
4f106p 3.5 # 175409.1 # # 1.582 (5S)6P 66 (3P)4D2 14 (3D)4F1 3 (5S2)3/2 66 (3P2)3/2 14 (3D2)3/2 2
4f106p 3.5 # 175971.9 # # 1.221 (5G)6G 16 (5F)4F 12 (5G)4F 11 (5G4)1/2 35 (5F4)3/2 6 (5F3)1/2 3
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