168LU 123SB(48CA,3NG):XUNDL-2 2021RO11 202105 168LU c Compiled (unevaluated) dataset from 2021Ro11: 168LU c Phys. Rev. C 103, 034326 (2021) 168LU c Compiled by E.A. McCutchan (NNDC,BNL) March 30, 2021 168LU cG RI(c)$Possible contamination as a result of unresolved multiplets. 168LU c E({+48}Ca)=203 MeV from the 88'' cyclotron at LBNL. Target consisted 168LU2c of two stacked 520 |mg/cm{+2} self supporting foils enriched to 97.7% 168LU3c {+123}Sb. Measured E|g, I|g, |g|g, |g|g(|q) using the Gammasphere 168LU4c array consisting of 100 Compton-suppressed HPGe detectors. 168LU cG $DCO ratios are from gates on stretched quadrupole transitions, with 168LU2cG expected ratios of 1.0 and 0.6 for stretched quadrupole and dipole 168LU3cG transitions, respectively. Mixed transitions have DCO ratios between 168LU4cG 0.6 and 1.0 depending on the mixing ratio (2021Ro11). 168LU cG E$Uncertainties assigned by compiler based on general statement by 168LU2cG 2021Ro11 that uncertainties are 0.2 keV for most transitions, except 168LU3cG weak (I|g<10) transitions where uncertainty increases to 0.5 keV. 168LU cL E$From a least-squares fit to E|g, by compiler. 168LU cL J$As proposed by 2021Ro11, based on measured multipolarities, band 168LU2cL assignments and previous literature assignments for lower-lying 168LU3cL levels. 168LU CL BAND(C)$|p[404]7/2+|~#|n[523]5/2- band. 168LU CL BAND(A)$|p[404]7/2+|~#|n[642]5/2+ band. 168LU CL BAND(D)$|p[541]1/2-|~#|n[642]5/2+ band. 168LU CL BAND(B)$|p[514]9/2-|~#|n[642]5/2+ band. 168LU CL BAND(E)$|p[541]1/2-|~#|n[642]5/2+ band. 168LU CL BAND(F)$|p[411]1/2+|~#|n[642]5/2+ band. 168LU CL BAND(G)$Side band to Band(F) 168LU CL BAND(H)$|p[402]5/2+|~#|n[642]5/2+ band. 168LU L 0 6- C 168LU L 27.0 10 6+ A 168LU L 91.5 3 7+ A 168LU G 64.4 5 10 3 168LU cG $DCO=0.64 {I4} 168LU G 91.6 5 8 3 168LU cG $DCO=0.55 {I7} 168LU L 146.3 4 7- C 168LU G 146.3 5 3 LT 168LU L 170.7 3 8+ A 168LU G 79.3 5 9 3 168LU cG $DCO=0.75 {I6} 168LU G 143.6 5 3 LT 168LU cG $DCO=0.99 {I1} 168LU L 192.2 5 6- D 168LU L 273.2 5 7- D 168LU G 81.1 5 3 LT 168LU L 284.7 3 9+ A 168LU G 113.9 2 67 8 168LU cG $DCO=0.81 {I3} 168LU G 193.2 2 55 5 168LU L 313.0 3 8- C 168LU G 166.7 5 3 LT 168LU G 313.0 5 3 LT 168LU L 336.6 5 8- D 168LU G 63.1 5 3 LT 168LU G 144.4 2 52 11 168LU cG $DCO=0.97 {I10} 168LU L 428.9 3 10+ A 168LU G 144.2 2 190 7 168LU cG $DCO=0.81 {I3} 168LU G 258.2 2 312 11 168LU cG $DCO=0.96 {I4} 168LU L 467.5 4 9- D 168LU G 131.0 2 254 20 168LU cG $DCO=0.70 {I4} 168LU G 194.4 2 227 7 168LU cG $DCO=1.09 {I16} 168LU L 488.9 3 9- B 168LU G 176.0 2 15 3 168LU cG $DCO=0.72 {I5} 168LU G 318.2 2 30 6 168LUF G FLAG=c 168LU G 342.7 33 6 168LUF G FLAG=c 168LU L 512.2 4 9- C 168LU G 199.3 5 3 LT 168LU G 366 5 3 LT 168LU L 554.7 4 10- D 168LU G 87.1 5 3 LT 168LU G 218.0 2 335 34 168LU cG $DCO=0.99 {I7} E 168LU L 590.1 5 8- 168LU L 599.0 3 11+ A 168LU G 170.2 2 69 4 168LU cG $DCO=0.83 {I6} 168LU G 314.4 2 281 15 168LU cG $DCO=0.99 {I4} 168LU L 599.9 3 10- B 168LU G 87.7 5 3 LT 168LU G 111.0 2 25 5 168LU G 315.2 2 35 9 168LU L 730.4 3 11- B 168LU G 130.4 2 148 18 168LUL G FL=599.9 168LU cG $DCO=0.75 {I4} 168LU G 131.3 5 3 LT 168LUL G FL=599.0 168LU cG $DCO=1.07 {I16} 168LU G 241.4 2 29 5 168LU cG $DCO=0.94 {I19} 168LU G 301.4 2 28 7 168LU cG $DCO=0.70 {I14} 168LU L 743.4 4 11- D 168LU G 188.6 2 303 22 168LU cG $DCO=0.60 {I5} 168LU G 276.0 2 363 21 168LU cG $DCO=0.92 {I4} 168LU L 792.0 3 12+ A 168LU G 193.0 2 80 9 168LUL G FL=599.0 168LU cG $DCO=0.64 {I5} 168LU G 363.2 2 540 16 168LU cG $DCO=1.06 {I4} 168LU L 858.1 4 12- D 168LU G 114.9 2 70 9 168LU cG $DCO=0.62 {I4} 168LU G 303.2 2 756 76 168LU cG $DCO=1.01 {I4} 168LU L 886.8 5 10- E 168LU G 296.7 2 22 1 168LU cG $DCO=1.12 {I17} 168LU G 419.2 5 2 1 168LU cG $DCO=0.68 {I14} 168LU L 891.4 3 12- B 168LU G 161.0 2 104 8 168LU cG $DCO=0.79 {I4} 168LU G 291.4 2 50 6 168LU cG $DCO=0.99 {I15} 168LU G 292.3 5 3 LT 168LUL G FL=599.0 168LU cG $DCO=0.83 {I12} 168LU L 1007.2 3 13+ A 168LU G 215.2 2 67 10 168LU cG $DCO=0.64 {I7} 168LU G 408.2 2 427 22 168LU cG $DCO=1.00 {I4} 168LU L 1075.5 3 13- B 168LU G 184.3 2 237 31 168LU cG $DCO=0.74 {I3} 168LU G 283.6 2 25 8 168LU cG $DCO=0.71 {I7} 168LU G 345.0 2 300 36 168LU cG $DCO=0.97 {I4} 168LU L 1102.3 4 13- D 168LU G 244.3 2 187 14 168LU cG $DCO=0.71 {I3} 168LU G 358.9 2 381 21 168LU cG $DCO=0.96 {I5} 168LU L 1240.0 3 14+ A 168LU G 232.8 2 66 3 168LU cG $DCO=0.79 {I8} 168LU G 447.9 2 582 17 168LU cG $DCO=1.06 {I4} 168LU L 1245.2 5 12- E 168LU G 358.4 2 45 2 168LU cG $DCO=1.02 {I15} 168LU G 502.0 5 6 1 168LU cG $DCO=0.58 {I12} 168LU L 1251.2 4 14- D 168LU G 148.8 2 28 1 168LU cG $DCO=0.75 {I11} 168LU G 393.1 2 1000 1 168LU cG $DCO=1.03 {I4} 168LU L 1286.7 3 14- B 168LU G 211.2 2 281 37 168LU cG $DCO=0.71 {I7} 168LU G 279.6 2 16 4 168LU cG $DCO=0.73 {I15} 168LU G 395.2 2 306 38 168LU cG $DCO=0.92 {I9} 168LU L 1493.0 3 15+ A 168LU G 253.0 2 52 3 168LU cG $DCO=0.82 {I12} 168LU G 486.0 2 496 26 168LU cG $DCO=0.98 {I8} 168LU L 1517.2 3 15- B 168LU G 230.4 2 215 26 168LU cG $DCO=0.74 {I3} 168LU G 277.2 2 16 6 168LU cG $DCO=0.83 {I17} 168LU G 441.8 2 363 43 168LU cG $DCO=1.02 {I4} 168LU L 1541.1 4 15- D 168LU G 290.0 2 227 19 168LU cG $DCO=0.71 {I3} 168LU G 438.8 2 507 27 168LU cG $DCO=1.00 {I4} 168LU L 1669.6 5 14- E 168LU G 424.4 2 68 4 168LU cG $DCO=1.03 {I10} 168LU G 567.2 5 7 1 168LU cG $DCO=0.64 {I13} 168LU L 1732.9 4 16- D 168LU G 191.7 2 62 3 168LU cG $DCO=0.70 {I14} 168LU G 481.7 2 908 30 168LU cG $DCO=1.01 {I4} 168LU L 1758.0 3 16+ A 168LU G 264.9 2 43 3 168LU cG $DCO=0.76 {I8} 168LU G 517.8 2 530 30 168LU cG $DCO=1.05 {I4} 168LU L 1769.2 3 16- B 168LU G 252.0 2 182 40 168LU cG $DCO=0.65 {I4} 168LU G 276.2 5 4 1 168LU G 482.4 2 297 53 168LU cG $DCO=0.95 {I5} 168LU L 2039.9 3 17- B 168LU G 270.7 2 191 24 168LU cG $DCO=0.63 {I3} 168LU G 282.0 5 3 LT 168LU G 522.7 2 460 57 168LU cG $DCO=1.06 {I4} 168LU L 2042.7 3 17+ A 168LU G 284.7 2 38 2 168LU cG $DCO=0.65 {I6} 168LU G 549.9 2 452 24 168LU cG $DCO=0.99 {I5} 168LU L 2054.1 4 17- D 168LU G 321.2 2 136 12 168LU cG $DCO=0.64 {I3} 168LU G 513.1 2 478 26 168LU cG $DCO=0.96 {I4} 168LU L 2161.2 5 16- E 168LU G 491.6 2 75 5 168LU cG $DCO=0.95 {I10} 168LU G 620.0 5 8 1 168LU cG $DCO=0.59 {I12} 168LU L 2297.3 4 18- D 168LU G 564.3 2 823 34 168LU cG $DCO=0.96 {I4} 168LU L 2314.8 4 (17-) E 168LU G 581.9 2 33 7 168LU L 2324.5 3 18- B 168LU G 284.6 2 251 82 168LU cG $DCO=0.59 {I5} 168LU G 555.4 2 461 67 168LU cG $DCO=1.04 {I5} 168LU L 2331.8 4 18+ A 168LU G 289.2 2 73 4 168LU cG $DCO=0.81 {I8} 168LU G 573.7 2 472 27 168LU cG $DCO=1.04 {I4} 168LU L 2621.7 3 19- B 168LU G 297.2 2 49 9 168LU cG $DCO=0.76 {I11} 168LU G 324.2 2 24 3 168LU cG $DCO=0.69 {I10} 168LU G 567.9 2 46 9 168LU cG $DCO=0.95 {I7} 168LU G 581.8 2 602 70 168LU cG $DCO=1.01 {I4} 168LU L 2640.2 3 19- D 168LU G 315.8 2 180 28 168LUF G FLAG=c 168LU cG $DCO=0.77 {I8} 168LU G 342.8 2 68 4 168LU cG $DCO=0.61 {I12} 168LU G 586.0 2 287 30 168LU cG $DCO=0.92 {I4} 168LU G 600.4 2 141 24 168LU cG $DCO=1.08 {I6} 168LU L 2642.6 4 19+ A 168LU G 310.7 2 36 2 168LU cG $DCO=0.63 {I9} 168LU G 600.0 2 375 20 168LUL G FL=2042.7 168LU cG $DCO=1.06 {I4} 168LU L 2716.1 5 18- E 168LU G 554.9 2 81 6 168LU cG $DCO=1.12 {I7} 168LU L 2933.3 4 20- D 168LU G 608.6 2 342 26 168LU cG $DCO=0.98 {I10} 168LU G 636.4 2 443 14 168LU cG $DCO=0.52 {I7} 168LU L 2939.2 4 20- B 168LU G 614.6 2 220 38 168LU cG $DCO=1.00 {I10} 168LU G 641.6 2 266 53 168LU cG $DCO=1.04 {I10} 168LU L 2948.7 4 20+ A 168LU G 306.2 2 43 3 168LU cG $DCO=0.68 {I7} 168LU G 616.8 2 407 24 168LU cG $DCO=1.01 {I4} 168LU L 2949.2 5 (19-) E 168LU G 634.4 2 22 4 168LU L 3256.2 4 21- B 168LU G 317.0 2 12 4 168LUF G FLAG=c 168LU G 634.4 2 372 65 168LU cG $DCO=1.04 {I4} 168LU L 3281.2 4 21+ A 168LU G 332.4 2 32 2 168LUL G FL=2948.7 168LU cG $DCO=0.68 {I10} 168LU G 638.6 2 273 15 168LU cG $DCO=0.97 {I4} 168LU L 3281.9 4 21- D 168LU G 342.7 2 117 14 168LUF G FLAG=c 168LU cG $DCO=0.79 {I10} 168LU G 348.8 2 54 9 168LU cG $DCO=0.66 {I13} 168LU G 641.6 2 265 28 168LU cG $DCO=0.97 {I4} 168LU L 3331.3 6 20- E 168LU G 615.2 2 72 6 168LU cG $DCO=0.94 {I9} 168LU L 3590.0 4 22- B 168LU G 308.1 2 116 22 168LUL G FL=3281.9 168LU cG $DCO=0.61 {I9} 168LU G 333.8 2 21 6 168LU G 650.8 2 123 21 168LU cG $DCO=0.94 {I9} 168LU G 656.8 2 194 34 168LU cG $DCO=1.00 {I4} 168LU L 3601.8 4 22+ A 168LU G 320.7 2 33 2 168LUL G FL=3281.2 168LU cG $DCO=0.76 {I11} 168LU G 653.2 2 339 20 168LUL G FL=2948.7 168LU cG $DCO=1.02 {I4} 168LU L 3642.2 4 22- D 168LU G 702.9 2 319 30 168LU cG $DCO=1.07 {I5} 168LU G 709.1 2 266 14 168LU cG $DCO=0.97 {I4} 168LU L 3643.1 5 (21-) E 168LU G 693.9 2 22 4 168LUL G FL=2949.2 168LU L 3940.8 4 23- B 168LU G 684.6 2 355 66 168LU cG $DCO=0.97 {I4} 168LU L 3955.6 4 23+ A 168LU G 353.7 2 23 1 168LU cG $DCO=0.75 {I11} 168LU G 674.1 2 208 12 168LUL G FL=3281.2 168LU cG $DCO=0.98 {I4} 168LU L 3958.7 4 23- D 168LU G 368.7 2 12 2 168LU cG $DCO=0.72 {I14} 168LU G 676.8 2 173 19 168LUL G FL=3281.9 168LU cG $DCO=1.00 {I15} 168LU L 3997.3 6 22- E 168LU G 666.0 2 57 4 168LU cG $DCO=1.02 {I10} 168LU L 4277.7 4 24- B 168LU G 319.0 2 104 16 168LU cG $DCO=0.77 {I8} 168LU G 336.9 2 33 6 168LU G 687.8 2 260 38 168LU cG $DCO=0.91 {I9} 168LU L 4295.8 4 24+ A 168LU G 340.0 2 17 4 168LU cG $DCO=0.72 {I11} 168LU G 694.4 2 245 15 168LU cG $DCO=1.02 {I4} 168LU L 4397.4 5 (23-) E 168LU G 754.3 2 20 4 168LUL G FL=3643.1 168LU cG $DCO=0.94 {I14} 168LU L 4405.9 4 24- D 168LU G 763.7 2 144 8 168LUL G FL=3642.2 168LU cG $DCO=1.00 {I10} 168LU L 4666.3 4 (25-) D 168LU G 707.5 2 29 4 168LU cG $DCO=0.90 {I18} 168LU L 4674.3 4 25+ A 168LU G 378.6 2 15 1 168LU cG $DCO=0.58 {I9} 168LU G 718.7 2 160 10 168LU cG $DCO=1.06 {I4} 168LU L 4674.4 4 25- B 168LU G 396.7 5 3 LT 168LU G 715.7 2 74 17 168LU G 733.6 2 193 38 168LU cG $DCO=1.01 {I10} 168LU L 4708.1 6 24- E 168LU G 710.8 2 49 4 168LU cG $DCO=0.97 {I15} 168LU L 5003.5 4 26- B 168LU G 725.8 2 116 23 168LU cG $DCO=1.06 {I11} 168LU L 5043.1 4 26+ A 168LU G 368.7 2 13 1 168LUL G FL=4674.3 168LU cG $DCO=0.66 {I13} 168LU G 747.2 2 166 10 168LU cG $DCO=1.02 {I4} 168LU L 5196.7 6 (25-) E 168LU G 799.3 2 19 4 168LU cG $DCO=0.89 {I18} 168LU L 5221.9 5 26- D 168LU G 816.0 2 63 7 168LU cG $DCO=0.99 {I15} 168LU L 5426.7 5 (27-) D 168LU G 760.4 2 11 2 168LU cG $DCO=1.05 {I21} 168LU L 5449.7 5 27+ A 168LU G 406.1 5 3 LT 168LU G 775.4 2 118 7 168LUL G FL=4674.3 168LU cG $DCO=0.94 {I5} 168LU L 5450.9 4 27- B 168LU G 776.6 2 143 29 168LUL G FL=4674.4 168LU cG $DCO=1.05 {I11} 168LU G 784.4 2 28 7 168LU cG $DCO=0.98 {I20} 168LU L 5466.3 7 26- E 168LU G 758.2 2 40 3 168LU cG $DCO=1.03 {I15} 168LU L 5779.7 5 28- B 168LU G 776.2 2 107 22 168LU cG $DCO=0.92 {I9} 168LU L 5852.7 5 28+ A 168LU G 809.6 2 114 8 168LU cG $DCO=1.02 {I4} 168LU L 6033.9 6 (27-) E 168LU G 837.2 2 13 3 168LU cG $DCO=1.05 {I21} 168LU L 6085.0 5 28- D 168LU G 863.1 2 44 5 168LU cG $DCO=0.95 {I14} 168LU L 6250.2 7 (29-) D 168LU G 823.5 5 10 2 168LU cG $DCO=0.97 {I19} 168LU L 6275.0 7 28- E 168LU G 808.7 2 21 1 168LU cG $DCO=1.04 {I16} 168LU L 6277.8 5 29- B 168LU G 826.9 2 100 21 168LUL G FL=5450.9 168LU cG $DCO=1.01 {I15} 168LU L 6289.9 5 29+ A 168LU G 840.2 2 64 4 168LU cG $DCO=1.01 {I10} 168LU L 6613.6 5 30- B 168LU G 833.9 2 95 19 168LU cG $DCO=1.00 {I10} 168LU L 6728.8 5 30+ A 168LU G 876.1 2 73 5 168LU cG $DCO=1.00 {I5} 168LU L 6920.1 8 (29-) E 168LU G 886.2 5 9 2 168LU L 6992.0 6 30- D 168LU G 907.0 2 22 3 168LU cG $DCO=1.20 {I24} 168LU L 7137.8 7 30- E 168LU G 862.8 2 14 1 168LU cG $DCO=0.86 {I17} 168LU L 7146.8 8 (31-) D 168LU G 896.6 5 9 2 168LU L 7158.2 5 31- B 168LU G 880.4 2 55 12 168LU cG $DCO=0.99 {I15} 168LU L 7197.6 5 31+ A 168LU G 907.7 2 48 3 168LU cG $DCO=1.05 {I16} 168LU L 7506.0 6 32- B 168LU G 892.4 2 76 18 168LU cG $DCO=0.94 {I20} 168LU L 7671.2 6 32+ A 168LU G 942.4 2 54 2 168LU cG $DCO=1.02 {I10} 168LU L 7858.9 9 (31-) E 168LU G 938.8 5 7 1 168LU cG $DCO=0.92 {I18} 168LU L 7946.3 6 32- D 168LU G 954.3 2 12 2 168LU cG $DCO=1.09 {I22} 168LU L 8048.4 9 32- E 168LU G 910.6 5 9 1 168LU cG $DCO=1.05 {I21} 168LU L 8095.0 5 33- B 168LU G 936.8 2 38 8 168LU cG $DCO=0.90 {I14} 168LU L 8117.3 10 (33-) D 168LU G 970.4 5 3 LT 168LU L 8171.6 6 33+ A 168LU G 974.0 2 30 2 168LU cG $DCO=1.06 {I16} 168LU L 8456.2 6 34- B 168LU G 950.2 2 56 15 168LU cG $DCO=0.96 {I14} 168LU L 8676.5 6 34+ A 168LU G 1005.3 2 36 2 168LU cG $DCO=0.98 {I15} 168LU L 8853.3 11 (33-) E 168LU G 994.4 5 3 LT 168LU L 8953.4 8 (34-) D 168LU G 1007.1 5 8 1 168LU cG $DCO=1.36 {I27} 168LU L 9001.4 10 (34-) E 168LU G 953.0 5 3 LT 168LU L X (6+) F 168LU L 9092.4 6 35- B 168LU G 997.4 2 24 5 168LU cG $DCO=1.04 {I21} 168LU L X+93.80 19 (7+) F 168LU G 94.8 2 11 3 168LU cG $DCO=0.55 {I10} 168LU L 9158.6 11 (35-) D 168LU G 1041.3 5 3 LT 168LU L 9216.3 6 35+ A 168LU G 1044.7 2 13 2 168LU cG $DCO=1.09 {I22} 168LU L X+219.80 23 (8+) F 168LU G 126.0 2 38 5 168LU cG $DCO=0.68 {I16} 168LU G 220.8 5 3 LT 168LU L X+373.10 23 (9+) F 168LU G 153.3 2 76 19 168LU cG $DCO=0.71 {I11} 168LU G 279.3 2 74 12 168LU cG $DCO=0.87 {I13} 168LU L 9462.6 6 36- B 168LU G 1006.4 2 49 14 168LU cG $DCO=1.06 {I16} 168LU L X+546.2 3 (10+) F 168LU G 173.2 2 58 16 168LU cG $DCO=0.65 {I7} 168LU G 326.4 2 64 5 168LU cG $DCO=0.92 {I9} 168LU L 9736.1 6 36+ A 168LU G 1059.6 2 25 2 168LU cG $DCO=1.01 {I15} 168LU L X+750.7 3 (11+) F 168LU G 204.3 2 81 13 168LU cG $DCO=0.67 {I7} 168LU G 377.5 2 90 13 168LU cG $DCO=0.96 {I10} 168LU L X+955.6 3 (12+) F 168LU G 204.8 2 67 6 168LU cG $DCO=0.67 {I10} 168LU G 409.7 2 201 13 168LU cG $DCO=0.96 {I10} 168LU L 10025.8 9 (36-) D 168LU G 1072.4 5 4 1 168LU cG $DCO=1.20 {I24} 168LU L 10150.4 6 37- B 168LU G 1058.0 2 21 4 168LU cG $DCO=1.11 {I24} 168LU L X+1211.2 3 (13+) F 168LU G 255.7 2 39 7 168LU cG $DCO=0.76 {I8} 168LU G 460.4 2 101 10 168LU cG $DCO=0.87 {I11} 168LU L 10262.0 12 (37-) D 168LU G 1103.4 5 3 LT 168LU L 10311.6 8 (37+) A 168LU G 1095.3 5 7 1 168LU L X+1432.7 3 (14+) F 168LU G 221.4 2 27 6 168LU cG $DCO=0.70 {I11} 168LU G 477.1 2 226 13 168LU cG $DCO=0.92 {I4} 168LU L 10523.9 7 38- B 168LU G 1061.2 2 32 9 168LU cG $DCO=1.10 {I23} 168LU L X+1738.6 3 (15+) F 168LU G 305.9 2 17 3 168LU cG $DCO=0.50 {I8} 168LU G 527.3 2 91 10 168LU cG $DCO=0.94 {I10} 168LU L 10818.1 8 A 168LU G 1082.0 5 6 2 168LUF G FLAG=c 168LU L 10845.2 8 (38+) 168LU G 1109.1 5 8 2 168LU L X+1967.5 3 (16+) F 168LU G 228.9 2 18 1 168LU cG $DCO=0.53 {I11} 168LU G 534.8 2 191 6 168LU cG $DCO=0.89 {I4} 168LU L 11267.2 6 39- B 168LU G 1116.8 2 12 3 168LU cG $DCO=1.02 {I22} 168LU L X+2317.6 4 (17+) F 168LU G 579.0 2 85 6 168LU cG $DCO=0.99 {I6} 168LU L 11458.2 9 (39+) A 168LU G 1146.6 5 3 1 168LU L X+2548.4 4 (18+) F 168LU G 580.9 2 128 12 168LU cG $DCO=1.06 {I6} 168LU L 11637.8 7 40- B 168LU G 1113.9 2 19 5 168LU cG $DCO=1.02 {I20} 168LU L 11901.1 9 (40+) A 168LU G 1083.0 5 4 2 168LUF G FLAG=c 168LU L X+2927.7 4 (19+) F 168LU G 610.1 2 35 7 168LU cG $DCO=0.90 {I9} 168LU L X+3168.8 4 (20+) F 168LU G 620.4 2 121 10 168LU cG $DCO=0.83 {I8} 168LU L 12438.4 8 41- B 168LU G 1171.2 5 6 2 168LU cG $DCO=1.29 {I26} 168LU L X+3575.7 5 (21+) F 168LU G 648.0 2 24 6 168LU cG $DCO=0.99 {I10} 168LU L 12638.3 11 (41+) A 168LU G 1180.1 5 3 LT 168LU L 12799.2 7 42- B 168LU G 1161.4 2 13 3 168LU cG $DCO=1.17 {I25} 168LU L X+3832.2 5 (22+) F 168LU G 663.4 2 92 10 168LU cG $DCO=0.85 {I9} 168LU L 13030.1 11 (42+) A 168LU G 1129.0 5 3 LT 168LU L X+4269.5 5 (23+) F 168LU G 693.8 2 18 4 168LU cG $DCO=1.02 {I10} 168LU L X+4549.4 5 (24+) F 168LU G 717.2 2 58 6 168LU cG $DCO=1.01 {I10} 168LU L 13659.2 10 43- B 168LU G 1220.8 5 4 2 168LU cG $DCO=1.34 {I27} 168LU L 14008.2 9 44- B 168LU G 1209.0 5 7 2 168LU cG $DCO=1.38 {I28} 168LU L X+5020.0 6 (25+) F 168LU G 750.5 2 16 4 168LU cG $DCO=0.92 {I9} 168LU L 14206.1 12 (44+) A 168LU G 1176.0 5 3 LT 168LU L X+5329.6 6 (26+) F 168LU G 780.2 2 39 4 168LU cG $DCO=0.90 {I14} 168LU L X+5834.1 6 (27+) F 168LU G 814.1 2 12 3 168LU cG $DCO=0.99 {I12} 168LU L X+6176.0 6 (28+) F 168LU G 846.4 2 34 4 168LU cG $DCO=0.94 {I14} 168LU L 15258.5 10 46- B 168LU G 1250.3 5 5 2 168LU cG $DCO=1.35 {I27} 168LU L X+6714.4 8 (29+) F 168LU G 880.3 5 10 2 168LU cG $DCO=0.91 {I14} 168LU L X+7085.0 6 (30+) F 168LU G 909.0 2 23 2 168LU cG $DCO=1.04 {I16} 168LU L 16546.2 11 48- B 168LU G 1287.7 5 3 LT 168LU cG $DCO=1.07 {I21} 168LU L X+7652.9 9 (31+) F 168LU G 938.5 5 8 3 168LU cG $DCO=1.03 {I15} 168LU L X+8023.0 7 (32+) G 168LU G 938.0 2 13 2 168LU cG $DCO=0.94 {I19} 168LU L X+8077.6 8 (32+) F 168LU G 992.6 5 8 2 168LU cG $DCO=1.19 {I24} 168LU L X+8667.4 10 (33+) F 168LU G 1014.5 5 5 2 168LU cG $DCO=0.96 {I19} 168LU L 17879.7 12 50- B 168LU G 1333.5 5 3 LT 168LU cG $DCO=1.05 {I21} 168LU L X+8954.8 8 (34+) G 168LU G 931.8 5 7 1 168LU cG $DCO=1.02 {I20} 168LU L X+9095.2 9 (34+) F 168LU G 1017.6 5 3 LT 168LU L X+9727.8 12 (35+) F 168LU G 1060.4 5 3 LT 168LU L X+9953.8 10 (36+) G 168LU G 999.0 5 5 1 168LU cG $DCO=0.82 {I16} 168LU L X+10169.2 11 (36+) F 168LU G 1074.0 5 3 LT 168LU L X+10827.8 13 (37+) F 168LU G 1100.0 5 3 LT 168LU L X+11017.0 11 (38+) G 168LU G 1063.2 5 5 1 168LU L X+12146.0 12 (40+) G 168LU G 1129.0 5 3 LT 168LU L X+13340.6 13 (42+) G 168LU G 1194.6 5 3 LT 168LU L X+14588.4 14 (44+) G 168LU G 1247.8 5 3 LT 168LU L Y (8+) H 168LU L Y+155.5 4 (9+) H 168LU G 156.4 5 3 LT 168LU L Y+329.3 4 (10+) H 168LU G 173.5 5 3 LT 168LU cG $DCO=0.66 {I3} 168LU G 330.4 5 3 LT 168LU L Y+533.5 5 (11+) H 168LU G 204.4 5 3 LT 168LU cG $DCO=0.70 {I10} 168LU G 378.0 5 3 LT 168LU L Y+748.7 5 (12+) H 168LU G 215.5 5 3 LT 168LU cG $DCO=0.74 {I15} 168LU G 419.2 5 3 LT 168LU L Y+1000.9 5 (13+) H 168LU G 252.0 5 3 LT 168LU cG $DCO=0.74 {I15} 168LU G 467.5 5 3 LT 168LU L Y+1265.9 5 (14+) H 168LU G 265.0 2 18 9 168LU cG $DCO=0.59 {I12} 168LU G 517.2 2 21 10 168LU cG $DCO=1.02 {I20} 168LU L Y+1554.9 6 (15+) H 168LU G 289.0 5 7 1 168LU cG $DCO=0.58 {I12} 168LU G 553.9 5 9 1 168LU cG $DCO=1.13 {I23} 168LU L Y+1851.0 6 (16+) H 168LU G 296.0 2 19 7 168LU cG $DCO=0.74 {I15} 168LU G 585.1 2 26 9 168LU cG $DCO=1.34 {I20} 168LU L Y+2140.0 6 (17+) H 168LU G 289.0 2 36 4 168LU cG $DCO=0.58 {I12} 168LU G 585.1 2 58 5 168LU cG $DCO=0.99 {I15} 168LU L Y+2440.8 6 (18+) H 168LU G 589.8 2 50 18 168LU cG $DCO=1.35 {I20} 168LU L Y+2740.3 6 (19+) H 168LU G 600.3 2 62 5 168LU cG $DCO=1.21 {I18} 168LU L Y+3066.1 6 (20+) H 168LU G 625.3 2 36 2 168LU cG $DCO=1.09 {I16} 168LU L Y+3389.4 6 (21+) H 168LU G 649.1 2 51 5 168LU cG $DCO=0.97 {I15} 168LU L Y+3746.0 7 (22+) H 168LU G 679.9 2 30 3 168LU cG $DCO=1.03 {I15} 168LU L Y+4094.2 7 (23+) H 168LU G 704.8 2 48 5 168LU cG $DCO=1.08 {I14} 168LU L Y+4480.9 7 (24+) H 168LU G 734.9 2 20 2 168LU cG $DCO=0.98 {I14} 168LU L Y+4854.2 7 (25+) H 168LU G 760.0 2 45 4 168LU cG $DCO=1.00 {I15} 168LU L Y+5270.6 7 (26+) H 168LU G 789.7 2 14 2 168LU cG $DCO=1.09 {I15} 168LU L Y+5670.0 7 (27+) H 168LU G 815.8 2 35 4 168LU cG $DCO=0.99 {I15} 168LU L Y+6115.3 9 (28+) H 168LU G 844.7 5 9 1 168LU cG $DCO=1.03 {I21} 168LU L Y+6546.7 8 (29+) H 168LU G 876.7 2 27 3 168LU cG $DCO=1.13 {I23} 168LU L Y+7021.4 10 (30+) H 168LU G 906.1 5 6 1 168LU cG $DCO=0.93 {I19} 168LU L Y+7487.8 8 (31+) H 168LU G 941.1 2 14 2 168LU cG $DCO=1.01 {I20} 168LU L Y+7992.6 11 (32+) H 168LU G 971.2 5 5 1 168LU cG $DCO=0.93 {I19} 168LU L Y+8494.0 8 (33+) H 168LU G 1006.2 2 11 2 168LU cG $DCO=0.91 {I18} 168LU L Y+9022.7 12 (34+) H 168LU G 1030.1 5 5 1 168LU cG $DCO=1.03 {I21} 168LU L Y+9539.0 9 (35+) H 168LU G 1045.0 5 7 2 168LUF G FLAG=c 168LU cG $DCO=1.13 {I23} 168LU L Y+10094.5 13 (36+) H 168LU G 1071.8 5 4 1 168LU L Y+10584.0 11 (37+) H 168LU G 1045.0 5 6 2 168LUF G FLAG=c 168LU L Y+11197.8 14 (38+) H 168LU G 1103.3 5 3 LT 168LU cG $DCO=1.16 {I23} 168LU L Y+11656.6 12 (39+) H 168LU G 1072.6 5 3 LT 168LU L Y+12343.6 15 (40+) H 168LU G 1145.8 5 3 LT 168LU L Y+13527.5 16 (42+) H 168LU G 1183.9 5 3 LT 168LU TA(P,X):XUNDL-3 2019HU15 202401 168LU c Compiled (unevaluated) dataset from 2019Hu15: 168LU c Eur. Phys. J A 55, 96 (2019) 168LU c Compiled by E.A. McCutchan (NNDC,BNL) January 16, 2024 168LU c 1.4 GeV proton beam incident on a Ta target at ISOLDE/CERN. 168LU2c Nuclides are laser ionized by RILIS and mass separated by 168LU3c the General Purpose Separator. Measured masses using the 168LU4c Penning trap mass spectrometer ISOLTRAP. Deduced excitation energy 168LU5c of isomer. 168LU cL E$From the Adopted Levels of {+168}Lu in the ENSDF database 168LU L 0 6(-) 168LU L 160 40 3+ 168LU cL E$deduced by 2019Hu15 from their measured mass excess of 168LU2cL -56908.2 keV {I58} combined with the mass excess of the ground state 168LU3cL from AME2012.