57.01 LaII 139 mass 3.5 spin -0.0004 log isotopic abundance 0.000 2.0 5d2 a3F 397.6 19.8 HHW 1016.100 3.0 5d2 a3F 101.4 25.7 HHW 1394.460 2.0 5d2 a1D 949.5 49.8 HHW 1895.150 1.0 5d6s a3D -1128.1 49.8 HHW 1970.700 4.0 5d2 a3F -18.6 37.5 HHW 2591.600 2.0 5d6s a3D -8.7 56.7 HHW 3250.350 3.0 5d6s a3D 1067.0 60.3 HHW 5249.700 0.0 5d2 a3P 0. 5718.120 1.0 5d2 a3P -225.2 25.8 HHW 6227.420 2.0 5d2 a3P -158.2 -45.0 HHW 7394.570 0.0 6s2 a1S 0. 7473.320 4.0 5d2 a1G 150.1 151.8 HHW 10094.860 2.0 5d6s b1D 48.1 39.6 HHW 14147.980 2.0 4f6s 3F -468.8 80. FRSE 14375.170 3.0 4f6s 1F 1110.9 130. FRSE 15698.740 4.0 4f6s 3F 792.8 155. FRSE 15773.770 3.0 4f6s 3F -431.0 -399. FRSE 16599.170 4.0 4f5d z1G 220.4 116. FRSE 17211.930 2.0 4f5d y3F 366.1 -3.9 HHW 17825.620 4.0 4f5d z3H 267.9 91. FRSE 18235.560 3.0 4f5d y3F 148.9 4.5 HHW 18580.410 5.0 4f5d z3H 170. 92. NRHW 18895.410 2.0 4f5d z1D 197.6 -16. FRSE 19214.540 4.0 4f5d y3F 64.8 8.4 HHW 19749.620 6.0 4f5d z3H 132. 236. calc 20402.820 3.0 4f5d z3G 332.7 60. FRSE 21331.600 4.0 4f5d z3G 170.7 180. FRSE 21441.730 1.0 4f5d z3D 412.4 8. FRSE 22106.020 2.0 4f5d z3D 127.8 2.6 FRSE 22282.900 5.0 4f5d z3G 136.1 60. FRSE 22537.300 3.0 4f5d z3D 100.9 -31.2 MHMZ 22683.700 0.0 4f5d z3P 0. 22705.150 1.0 4f5d z3P 72.2 -28. FRSE 23246.930 2.0 4f5d z3P 34.5 11.1 HHW 24462.660 2.0 5d6p y1D 446.5 21. FRSE 24522.700 3.0 4f5d y1F 164.3 20.4 HHW 25973.370 1.0 5d6p y3D 547.3 27. FRSE 26414.010 2.0 5d6p x3F 250.5 51.9 HHW 26837.660 3.0 5d6p x3F 258.9 114.3 LMCC 27388.110 2.0 5d6p y3D 68.8 30. FRSE 27423.910 1.0 4f5d z1P 886.9 -18.9 LMCC 27545.850 0.0 6s6p y3P 0. 28154.550 1.0 6s6p y3P 791.8 -24. FRSE 28315.250 3.0 5d6p y3D 82.9 -28. FRSE 28525.710 5.0 4f5d z1H 206. 234. calc 28565.400 4.0 5d6p x3F 126.1 150. FRSE 29498.050 2.0 6s6p y3P 610.2 88. FRSE 30353.330 1.0 4f5d y1P -157.7 33. FRSE 31785.820 0.0 5d6p x3P 0. 32160.990 1.0 5d6p x3P 1383.9 -35. FRSE 32201.050 3.0 5d6p x1F 193.7 143. FRSE 33204.410 2.0 6s6p x3P 942. 73. calc 35452.660 3.0 4f6p 3G 420. 30. NRHW 35787.530 2.0 4f6p 3F 242.6 0. FERS 36954.650 3.0 4f6p 3F 167. 0. NRHW 37172.790 4.0 4f6p 3F 265. 208. NRHW 37209.710 3.0 4f6p 1F 202.2 25 . FERS 37790.570 4.0 4f6p 3G 231. 0. NRHW 38221.490 2.0 4f6p 3D 291. 10. NRHW 38534.110 1.0 4f6p 3D 431. 42. NRHW 39018.740 5.0 4f6p 3G 161. 122. NRHW 39221.650 4.0 4f6p 1G 194. 200. NRHW 39402.550 3.0 4f6p 3D 149.9 25. FERS 40457.710 2.0 4f6p 1D 165.1 55. FERS 45692.170 1.0 6s6p x1P 243. 91. calc 49733.130 1.0 5d7s 3D 422. 30. calc 49884.350 2.0 5d7s 3D 277. 55. calc 51228.570 3.0 5d7s 3D 43. 80. calc 51523.860 2.0 5d7s 1D 28. 72. calc 52137.670 3.0 5d6d f1F 132. 33. calc 52169.660 1.0 5d6d g3D 221. -17. calc 52734.810 2.0 5d6d g3D 38. -25. calc 52857.880 3.0 5d6d f3G 152. 40. calc 53302.560 1.0 5d6d e1P -38. -5. calc 53333.370 4.0 5d6d f3G 112. 68. calc 53689.560 3.0 5d6d g3D 9. -4. calc 53885.240 2.0 5d6d f3F 217. 9. calc 54365.800 1.0 5d6d e3S -77. -19. calc 54434.650 5.0 5d6d f3G 20. 95. calc 54793.820 0.0 5d6d 3P 0. 54840.040 3.0 5d6d f3F 56. 37. calc 55107.250 4.0 4f2 e3H 254. 61. calc 55184.050 2.0 5d6d g1D 43. 0. calc 55230.330 1.0 5d6d e3P 47. 22. calc 55321.350 4.0 5d6d f3F 91. 47. calc 55982.090 5.0 4f2 e3H 230. 65. calc 56035.700 4.0 5d6d f1G 82. 66. calc 56036.600 2.0 5d6d e3P 30. -27. calc 56837.940 6.0 4f2 e3H 174. 73. calc 57364.120 3.0 5d7p 3F 149. 71. calc 57399.580 2.0 4f2 g3F 311. -15. calc 57918.500 3.0 4f2 g3F 193. -16. calc 58259.410 4.0 4f2 g3F 176. -9. calc 59527.600 4.0 4f2 g1G 180. 22. calc 59900.080 2.0 6p2 h1D 220. 37. calc 60094.840 0.0 6p2 f3P 0. 60660.180 1.0 6s7s f3S 2951. 0. calc 61128.830 1.0 6p2 f3P -50. 36. calc 62026.270 2.0 4f2 i1D 232. -2. calc 62408.400 6.0 4f2 e1I 225. 141. calc 62506.360 2.0 6p2 f3P 137. -55. calc 63463.950 0.0 4f2 g3P 0. 63703.180 1.0 4f2 g3P -39. 23. calc 64278.920 2.0 4f2 g3P 232. -42. calc 64361.280 1.0 6s6d h3D -843. 11. calc 64529.900 2.0 6s6d h3D 269. 18. calc 64692.590 3.0 6s6d h3D 272. 59. calc 66591.910 0.0 6f2 f1S 0. REFERENCES. A AND B IN MHZ. NRHW Nighat, Y., Raith, M., Hussain, M., and Windholz, L. 2010. J. Phys. B. 43, 125001. FRSE Furmann, B., Ruczkowski, J., Stedfanska, D., Elantkowska,M., and Dembczynski, J. 2008. J. Phys. B 41, 215004. calc FRSE calculation if odd FESR calculation if even FESR Furmann, B., Elantkowska, M., Ruczkowski, J., Stedfanska, D., and Dembczynski, J. 2008. J. Phys. B 41, 215004. LMCC Li, M., Ma, H., Chgen, M,, Chen, Z., Lu, F., TAng, J., and Yang, F. 2000. Physica Scripta 61,449-451. HHW Honle, C., Huhnermann, H., and Wagner, H. 1982. Z. Phys. A304, 279-283. *********************************************************** 54964.190 0.0 5d6d e3P 58748.900 4.0 2odd 59612.640 2.0 3odd 59612.640 3.0 3odd 60744.170 4.0 4odd 61017.660 4.0 5odd 61514.460 3.0 6odd 61514.460 4.0 6odd 63598.870 4.0 7odd 64411.170 3.0 8odd 69233.900 3.0 i3D? 69505.060 0.0 4f2 g1S ??