ADOPTED LEVELS, GAMMAS for 231Th
Authors: Balraj Singh, Jagdish K. Tuli, and Edgardo Browne | Citation: Nucl. Data Sheets 185, 560 (2022) | Cutoff date: 31-Aug-2022
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=391.5 keV 15 | S(n)= 5118.02 keV 20 | S(p)= 7312 keV 16 | Q(α)= 4213.4 keV 16 | ||
Reference: 2021WA16 |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
0.0 | ABCD HI | 5/2+ | 25.57 h 8 % β- = 100 | |||||
41.9521 16 | ABCD HIJ | 7/2+ | 41.98 5 | 100 | M1+E2 | 0.0 | 5/2+ | |
96.129 3 | BCD GHIJ | 9/2+ | 54.25 5 96.09 2 | 13 4 100 6 | M1+E2 [E2] | 41.9521 0.0 | 7/2+ 5/2+ | |
162.11 3 | B GHIJ | 11/2+ | 120.35 5 | 100 | [E2] | 41.9521 | 7/2+ | |
185.7160 13 | ABCD G I | 5/2- | 1.07 ns 8 | 143.765 2 185.713 2 | 19.11 14 100.0 12 | E1 E1 | 41.9521 0.0 | 7/2+ 5/2+ |
205.3101 15 | ABCD G I | (7/2-) | 19.55 5 109.176 31 163.357 2 205.311 2 | 32.2 13 100.0 8 99.2 10 | [M1] [E1] (E1) (E1) | 185.7160 96.129 41.9521 0.0 | 5/2- 9/2+ 7/2+ 5/2+ | |
221.3966 20 | ABCDE GHI | 3/2+ | < 74 ps | 221.392 20 | 100.0 | M1 | 0.0 | 5/2+ |
≈225? | J | (13/2+) | ||||||
236.899 7 | BCD I | 9/2- | 31.60 5 51.21 5 74.94 4 140.759 20 194.942 7 | 7.2 27 5.3 12 11.5 21 33.2 23 100.0 21 | [M1] [E2] [E1] [E1] [E1] | 205.3101 185.7160 162.11 96.129 41.9521 | (7/2-) 5/2- 11/2+ 9/2+ 7/2+ | |
240.6? | H | (13/2+) | 144.5 3 | 100 | 96.129 | 9/2+ | ||
240.8794 24 | ABCD GHIJ | 5/2+ | 198.927 3 240.876 4 | 62 4 100 6 | M1 M1(+E2) | 41.9521 0.0 | 7/2+ 5/2+ | |
247.5867 20 | A CDE G I | 1/2+ | < 74 ps | 26.2S 247.586 3 | ≤53 100 18 | [M1] E2 | 221.3966 0.0 | 3/2+ 5/2+ |
272.1800 15 | A CDE G I | 3/2+ | 24.6S 31.3S 50.8S 230.243 11 272.181 2 | 2.2 13 ≤7.5 ≤10.4 5.5 12 100 15 | [M1] (M1) [M1] [E2] M1+E2 | 247.5867 240.8794 221.3966 41.9521 0.0 | 1/2+ 5/2+ 3/2+ 7/2+ 5/2+ | |
275.4250 25 | BCD HI | 7/2+ | 34.7 1 ? 54.1 1 179.297 2 233.470 3 275.428 4 | ≈97 <2.6 40 6 100 7 25 5 | [M1] [E2] M1(+E2) M1 M1(+E2) | 240.8794 221.3966 96.129 41.9521 0.0 | 5/2+ 3/2+ 9/2+ 7/2+ 5/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
277.60 6 | B G IJ | (11/2-) | 41.1 72.7 2 115.45 5 182.1? | 100 7 8.19 9 | [M1] [E2] [E1] | 236.899 205.3101 162.11 96.129 | 9/2- (7/2-) 11/2+ 9/2+ | |
301.7429 19 | BCD G I | 5/2+ | 80.347 2 259.790 4 301.741 3 | 51 8 36 6 100 16 | M1+E2 M1 | 221.3966 41.9521 0.0 | 3/2+ 7/2+ 5/2+ | |
317.0809 22 | BCD G I | 5/2+ | 76.198 4 95.7? 275.129 2 317.063 12 | 20 3 100 15 4.6 9 | [M1+E2] M1+E2 M1 | 240.8794 221.3966 41.9521 0.0 | 5/2+ 3/2+ 7/2+ 5/2+ | |
324.913 7 | BCD GHIJ | (9/2)+ | 228.785 6 282.92 5 | 100 15 65 23 | M1 [M1+E2] | 96.129 41.9521 | 9/2+ 7/2+ | |
330.6? | H | (15/2+) | 168.1 3 | 100 | 162.11 | 11/2+ | ||
333 3 | B G I | (13/2-) | ||||||
348.3 5 | CDE | (1/2+,3/2+) | ||||||
351.511 6 | BCD G I | 7/2+ | 255.365 10 309.557 12 351.512 23 | 79 16 100 21 64 13 | M1 (E2) M1 | 96.129 41.9521 0.0 | 9/2+ 7/2+ 5/2+ | |
377.573 9 | BCD G I | (7/2)+ | 136.55 5 173.0 10 281.440 9 | 100 6 45 20 ≈25 | [M1+E2] [E1] M1 | 240.8794 205.3101 96.129 | 5/2+ (7/2-) 9/2+ | |
380.0 3 | CD | 1/2+,3/2+ | ||||||
385.68 4 ? | B | (5/2+:11/2+) | 289.56 4 343.5 2 | 74 14 100 9 | 96.129 41.9521 | 9/2+ 7/2+ | ||
386.5 5 ? | E | (1/2+,3/2+) | ||||||
387.828 3 | BCD | 7/2- | 147.0? 150.937 20 182.504 10 202.110 3 291.65 3 345.92 3 387.84 3 | 6.8 9 38.5 14 100 3 3.4 4 3.2 4 2.59 22 | [M1+E2] [M1+E2] [M1+E2] | 240.8794 236.899 205.3101 185.7160 96.129 41.9521 0.0 | 5/2+ 9/2- (7/2-) 5/2- 9/2+ 7/2+ 5/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
402.0 3 | G IJ | (15/2)- | ||||||
432.7? | H | (17/2+) | 192.1 2 | 100 | 240.6 | (13/2+) | ||
447.4 7 | G I | (9/2)+ | ||||||
452.192 18 | B | 9/2- | 64.45 5 S 215.30 5 246.83 3 266.47 5 291.2 356.03 5 410.29 4 | 58 4 100 6 12.9 20 4.7 16 4.5 13 | [M1+E2] [M1+E2] [M1] [E2] | 387.828 236.899 205.3101 185.7160 162.11 96.129 41.9521 | 7/2- 9/2- (7/2-) 5/2- 11/2+ 9/2+ 7/2+ | |
466.5 3 | G I | (1/2-,3/2-) | ||||||
478 6 ? | J | |||||||
490 3 | G | (11/2+) | ||||||
501.2 5 | CD | |||||||
510.897 11 ? | CD | (7/2)+ | 468.944 10 ? | 100 | M1+E2 | 41.9521 | 7/2+ | |
530 3 | G I | (11/2+) | ||||||
530.23 5 | B G I | (11/2-) | 142.40 5 | 100 | [E2] | 387.828 | 7/2- | |
536.7 7 | CD | |||||||
544.9? | H | (19/2+) | 214.3 3 | 100 | 330.6 | (15/2+) | ||
554.6503 16 | A CDE G I | (1/2)- | 503 ps 12 | 282.471 2 307.063 2 368.934 2 | 100 3 78.5 9 39.2 6 | E1 E1 E2 | 272.1800 247.5867 185.7160 | 3/2+ 1/2+ 5/2- |
568 3 | B G | |||||||
579 1 | G IJ | (9/2+) | ||||||
590.8396 24 | CDE G I | 3/2- | 289.092 10 385.532 3 405.121 3 | 3.0 6 25 4 100 15 | (E2) E2+M1 | 301.7429 205.3101 185.7160 | 5/2+ (7/2-) 5/2- | |
593.6173 20 | A CDE G I | (3/2)- | 0.10 ns 4 | 346.1 2 372.221 2 388.3 2 407.899 2 | 17 4 43 6 9.5 30 100 11 | (E1) E1 [E2] E2 | 247.5867 221.3966 205.3101 185.7160 | 1/2+ 3/2+ (7/2-) 5/2- |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
595.9738 21 | CD I | 5/2- | 244.451 10 323.794 2 374.590 9 390.662 4 410.252 10 | 18 4 100 15 23 5 63 12 29 6 | E1 (E1) (E1) M1+E2 M1 | 351.511 272.1800 221.3966 205.3101 185.7160 | 7/2+ 3/2+ 3/2+ (7/2-) 5/2- | |
619.638 4 | CDE G I | 3/2- | 302.540 7 317.886 22 398.242 10 433.927 4 | 28 6 7.9 16 38 8 100 16 | (E1) (E1) (M1) | 317.0809 301.7429 221.3966 185.7160 | 5/2+ 5/2+ 3/2+ 5/2- | |
623.935 18 ? | CD G | (5/2-) | 418.62 4 438.22 2 | | E0(+E2+M1) | 205.3101 185.7160 | (7/2-) 5/2- | |
629.3428 22 | CD I | (5/2)- | 424.032 4 443.626 2 629.368 15 | 38 7 100 15 9.6 15 | M1+E2 M1(+E2) | 205.3101 185.7160 0.0 | (7/2-) 5/2- 5/2+ | |
634.046 13 ? | BCD | (7/2-) | 428.71 4 448.339 18 | 100 22 87 44 | M1+E0(+E2) | 205.3101 185.7160 | (7/2-) 5/2- | |
646.6 4 | I | (5/2-,7/2-) | ||||||
655.939 15 ? | CD G IJ | (7/2-) | 419.031 16 ? 470.25 3 ? | 100 21 71 17 | (M1) M1 | 236.899 185.7160 | 9/2- 5/2- | |
684.4908 24 | CD G I | (5/2)- | 479.19 5 498.775 2 | 9.6 16 100 15 | E2+M1 M1 | 205.3101 185.7160 | (7/2-) 5/2- | |
687.631 3 | CDE | 1/2+ | 415.460 8 440.044 7 466.227 3 687.658 7 | 12.1 20 18 3 81 12 100 15 | (M1) E0+M1 M1 (E2) | 272.1800 247.5867 221.3966 0.0 | 3/2+ 1/2+ 3/2+ 5/2+ | |
693.50 18 | CD | |||||||
704 2 | G | (15/2-) | ||||||
709.099 4 | CD I | 3/2+ | 392.038 13 436.917 4 468.209 19 487.689 23 | 17 4 100 14 26 6 20 4 | M1+E0(+E2) M1(+E2) (E2) | 317.0809 272.1800 240.8794 221.3966 | 5/2+ 3/2+ 5/2+ 3/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
713.755 3 | CDE I | 3/2- | 325.925 3 441.64 4 528.038 3 | 24 4 5.0 10 100 16 | M1 | 387.828 272.1800 185.7160 | 7/2- 3/2+ 5/2- | |
720.302 6 | CD G I | (7/2)- | 418.62 4 444.892 14 514.991 7 534.562 15 | 2.6 4 16 4 100 15 15 3 | (E1) M1+E2 M1 | 301.7429 275.4250 205.3101 185.7160 | 5/2+ 7/2+ (7/2-) 5/2- | |
735.263 7 | CD | (5/2)+ | 433.517 8 463.085 12 487.689 23 | 100 16 75 16 42 9 | (E2) M1+E2 (E2) | 301.7429 272.1800 247.5867 | 5/2+ 3/2+ 1/2+ | |
750.0 3 | G IJ | (5/2-,7/2-) | ||||||
769.9 6 | I | (11/2+,13/2+) | ||||||
793.027 4 | CDE I | 1/2+ | 491.284 4 520.847 14 545.420 16 793.04 3 | 100 15 30 5 <7.4 34 7 | (E2) E2+M1 E0(+M1) | 301.7429 272.1800 247.5867 0.0 | 5/2+ 3/2+ 1/2+ 5/2+ | |
802 3 | G | |||||||
808.508 8 | CD I | 3/2+ | 456.990 11 ? 506.74 7 536.336 17 560.875 21 587.155 17 766.6 3 808.38 9 | 110 19 45 10 76 17 58 12 81 14 43 11 100 30 | (E2) E0+M1(+E2) M1 | 351.511 301.7429 272.1800 247.5867 221.3966 41.9521 0.0 | 7/2+ 5/2+ 3/2+ 1/2+ 3/2+ 7/2+ 5/2+ | |
812.3 2 | G IJ | (5/2)- | ||||||
820.552 7 | CD | 1/2+ | 503.44 6 572.964 7 599.20 4 820.43 7 | 19 5 100 17 21 5 37 6 | M1+E0 | 317.0809 247.5867 221.3966 0.0 | 5/2+ 1/2+ 3/2+ 5/2+ | |
833.169 4 | CDE I | (1/2)- | 239.548 4 278.524 14 585.607 13 611.80 2 | 100 15 7.0 15 28 5 23 4 | M1 | 593.6173 554.6503 247.5867 221.3966 | (3/2)- (1/2)- 1/2+ 3/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
839.303 9 | CDE G | 3/2+ | 284.659 13 522.218 16 567.108 19 617.87 4 797.56 13 839.36 5 | 20 4 64 10 69 12 34 7 45 10 100 16 | (M1) M1+E0 M1+E0 (E2) | 554.6503 317.0809 272.1800 221.3966 41.9521 0.0 | (1/2)- 5/2+ 3/2+ 3/2+ 7/2+ 5/2+ | |
841.42 5 | I | 1/2-,3/2- | ||||||
846.4 4 | CDE | (1/2+,3/2+) | ||||||
854.5 4 | I | (7/2+,9/2,11/2-) | ||||||
867.00 4 | CD G | 5/2-,7/2- | 479.19 5 630.00 6 681.37 7 | 100 17 51 11 80 13 | (E2) E2 (M1+E2) | 387.828 236.899 185.7160 | 7/2- 9/2- 5/2- | |
869.7 11 | E I | 1/2+ | ||||||
871 3 | J | (7/2)+ | ||||||
875.549 4 | CDE I | (3/2)- | 255.903 11 320.899 4 875.54 7 | 25 5 83 13 100 17 | M1+E2 | 619.638 554.6503 0.0 | 3/2- (1/2)- 5/2+ | |
889.997 12 | CD G I | 5/2+ | 614.563 14 649.142 23 668.56 10 | 100 16 77 12 41 9 | M1 (M1) E2+M1 | 275.4250 240.8794 221.3966 | 7/2+ 5/2+ 3/2+ | |
893 2 | G | |||||||
899.2 6 | CD | |||||||
914.90 4 | CD IJ | (5/2)- | 673.96 13 678.1 3 729.19 5 914.91 7 | 34 14 22 7 55 9 100 16 | (M1(+E2)) | 240.8794 236.899 185.7160 0.0 | 5/2+ 9/2- 5/2- 5/2+ | |
930.6 5 | I | (3/2+,5/2+) | ||||||
936.307 10 | CD | (5/2)- | 342.702 17 548.454 15 619.27 13 750.621 16 936.17 6 | 10.9 22 36 6 29.6 9 100 18 100 18 | (M1) E2+M1 M1 | 593.6173 387.828 317.0809 185.7160 0.0 | (3/2)- 7/2- 5/2+ 5/2- 5/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
942.2 9 | CD G I | |||||||
960.809 12 | CD I | 3/2+ | 643.85 7 658.97 6 688.611 24 713.234 16 719.74 12 739.409 25 775.04 13 918.92 11 | 19 5 20 5 85 15 100 15 19 5 70 12 26 8 49 8 | M1+E2 E2+M1 M1+E2 M1+E0(+E2) (E2) | 317.0809 301.7429 272.1800 247.5867 240.8794 221.3966 185.7160 41.9521 | 5/2+ 5/2+ 3/2+ 1/2+ 5/2+ 3/2+ 5/2- 7/2+ | |
966.0 6 | G IJ | 3/2+,5/2+ | ||||||
974.4 7 | I | |||||||
981 3 | G | |||||||
990.5 7 | I | |||||||
1004.232 21 | CDE G I | 3/2+ | 626.64 4 763.363 24 | 34 8 100 19 | M1 | 377.573 240.8794 | (7/2)+ 5/2+ | |
1011.5 9 | G I | |||||||
1020.730 6 | CDE G I | 3/2- | 336.240 10 427.110 7 773.18 13 799.38 5 834.92 5 | 40 8 100 15 45 11 89 15 131 21 | M1+E2 M1 (M1) | 684.4908 593.6173 247.5867 221.3966 185.7160 | (5/2)- (3/2)- 1/2+ 3/2+ 5/2- | |
1033.0 3 | CD I | 1/2+ | ||||||
1056.27 3 | CD G I | (3/2+) | 784.05 9 808.74 9 834.92 5 1014.33 4 | 26 5 23 4 34 6 100 20 | (M1) (E2) | 272.1800 247.5867 221.3966 41.9521 | 3/2+ 1/2+ 3/2+ 7/2+ | |
1066.191 23 | CD G | (5/2,7/2)+ | 688.611 24 749.14 5 844.55 18 1024.91 25 1066.07 15 | 100 18 56 9 25 6 41 14 45 15 | E2+M1 (M1) | 377.573 317.0809 221.3966 41.9521 0.0 | (7/2)+ 5/2+ 3/2+ 7/2+ 5/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
1074.346 17 | CDE I | (3/2)- | 483.507 17 757.28 18 888.49 19 | 88 19 71 17 100 22 | E2+M1 | 590.8396 317.0809 185.7160 | 3/2- 5/2+ 5/2- | |
1081.331 15 | CDE G | 1/2-,3/2- | 487.689 23 490.51 2 526.68 5 | 100 21 100 21 58 14 | (E2) M1 (M1) | 593.6173 590.8396 554.6503 | (3/2)- 3/2- (1/2)- | |
1081.6 6 | I | 3/2+,5/2+ | ||||||
1086.811 10 | CD G I | 5/2+ | 493.177 25 709.220 14 785.08 8 811.408 15 814.64 4 | 8.9 18 100 16 19 3 68 11 26 4 | (E1) E2+M1 E2 (E2) | 593.6173 377.573 301.7429 275.4250 272.1800 | (3/2)- (7/2)+ 5/2+ 7/2+ 3/2+ | |
1094.25 24 | CD | 1/2-,3/2- | ||||||
1102.252 8 | CDE G I | 3/2- | 388.482 9 417.793 14 468.209 19 482.62 5 785.08 8 861.86 24 | 100 11 65 15 89 19 31 8 125 21 50 12 | M1 [E2] | 713.755 684.4908 634.046 619.638 317.0809 240.8794 | 3/2- (5/2)- (7/2-) 3/2- 5/2+ 5/2+ | |
1106 6 | J | (7/2+,9/2+) | ||||||
1115.4 6 | G I | |||||||
1126.0 6 | I | 3/2+,5/2+ | ||||||
1133.80 8 | CDE | (1/2+,3/2+) | 816.70 9 ? 861.86 24 886.15 25 | 119 26 71 17 100 24 | 317.0809 272.1800 247.5867 | 5/2+ 3/2+ 1/2+ | ||
1155.5 4 | CD I | |||||||
1159.751 8 | CDE G I | (3/2)- | 445.996 7 918.92 11 974.15 16 | 100 15 72 12 43 13 | E2+M1 (E1) | 713.755 240.8794 185.7160 | 3/2- 5/2+ 5/2- | |
1172.990 24 | CDE G I | 3/2- | 459.22 8 488.55 5 543.66 3 785.08 8 | 100 28 50 11 72 15 226 37 | M1(+E2) (M1) | 713.755 684.4908 629.3428 387.828 | 3/2- (5/2)- (5/2)- 7/2- | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
1181.2 6 | I | 1/2-,3/2- | ||||||
1187.0 7 | IJ | |||||||
1193.2 8 | CD | |||||||
1200.47 17 | CDE G I | 1/2-,3/2- | ||||||
1213.86 22 | CD G | |||||||
1219.05 25 | CDE I | (1/2+,3/2+) | ||||||
1222 3 | E G | (1/2+,3/2+) | ||||||
1235 2 | I | |||||||
1251.46 18 | CD | |||||||
1262 3 | I | |||||||
1271.1 6 | E | 1/2-,3/2- | ||||||
1273 1 | I | 3/2+,5/2+ | ||||||
1274.5 4 | CD | 1/2-,3/2- | ||||||
1282 3 | G | |||||||
1292 2 | I | |||||||
1300 2 | I | |||||||
1323 2 | I | |||||||
1327 2 | G IJ | |||||||
1339 2 | G | |||||||
1345.7 11 | I | |||||||
1352.8 11 | G I | 1/2-,3/2- | ||||||
1366 4 | G | |||||||
1372 2 | G I | |||||||
1393 1 | G I | 1/2-,3/2- | ||||||
1405.6 10 | G I | 1/2-,3/2- | ||||||
1414 5 | G | |||||||
1430.6 11 | I | |||||||
1437.2 10 | I | 3/2+,5/2+ | ||||||
1452 1 | I | |||||||
1458 2 | I | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
1464 1 | IJ | (1/2-,3/2-) | ||||||
1476 2 | IJ | |||||||
1487.4 11 | I | 1/2-,3/2- | ||||||
1494.3 11 | I | |||||||
1523 2 | I | |||||||
1533 2 | I | |||||||
1542 2 | I | |||||||
1572 1 | IJ | (5/2-,7/2-) | ||||||
1585 1 | I | 1/2-,3/2- | ||||||
1601 1 | I | 1/2-,3/2- | ||||||
1608 1 | I | |||||||
1619.5 10 | I | 1/2-,3/2- | ||||||
1627 2 | I | |||||||
1648 1 | I | |||||||
1654 1 | I | |||||||
1666 2 | I | |||||||
1678 2 | IJ | |||||||
1696 1 | I | |||||||
1708 1 | I | 1/2-,3/2- | ||||||
1714 1 | I | |||||||
5118.15 3 S | CD | 1/2+ | 3843.6 4 3866.66 17 3899.07 24 3904.26 21 3917.71 17 3924.9 8 3946.19 24 3958.49 12 3962.6 4 3984.31 9 4023.87 23 4062.44 13 4085.1 3 4096.72 13 4113.98 13 4157.42 17 4175.9 9 4182.51 19 4218.9 6 4242.45 15 4271.7 4 4278.73 17 4284.91 12 4297.14 21 4404.39 11 4424.61 17 4462.2 3 4498.5 3 4523.95 25 4527.09 11 4563.45 9 4581.4 7 4616.9 5 4738.1 3 4769.8 5 4845.92 6 4870.1 3 4896.82 21 5117.69 17 | 3.9 6 9.4 7 8.1 8 9.8 8 11.2 8 1.5 5 5.6 5 75 4 7.1 12 9.4 7 5.3 5 18.7 11 3.6 5 26.5 15 25.7 15 8.6 6 1.3 4 7.0 5 1.4 3 17.5 12 3.8 5 20.7 14 100 5 8.4 8 38.9 23 13.3 9 2.4 3 2.3 4 15.3 23 63 4 49.6 23 1.5 3 2.7 4 13.7 23 3.8 6 16.5 8 2.6 3 7.3 6 4.5 3 | E1 (M1) D D E1 (M1) E1 E1 (M1) D (M1) (E1) E1 E1 E1 E1 E1 M1 M1 M1 M1 M1 | 1274.5 1251.46 1219.05 1213.86 1200.47 1193.2 1172.990 1159.751 1155.5 1133.80 1094.25 1056.27 1033.0 1020.730 1004.232 960.809 942.2 936.307 899.2 875.549 846.4 839.303 833.169 820.552 713.755 693.50 655.939 619.638 593.6173 590.8396 554.6503 536.7 501.2 380.0 348.3 272.1800 247.5867 221.3966 0.0 | 1/2-,3/2- (1/2+,3/2+) 1/2-,3/2- 3/2- (3/2)- (1/2+,3/2+) 1/2-,3/2- (3/2+) 1/2+ 3/2- 3/2+ 3/2+ (5/2)- (3/2)- (1/2+,3/2+) 3/2+ (1/2)- 1/2+ 3/2- (7/2-) 3/2- (3/2)- 3/2- (1/2)- 1/2+,3/2+ (1/2+,3/2+) 3/2+ 1/2+ 3/2+ 5/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
5119.84 11 S | E | 1/2+ | 3848.7 6 3898.0 29 3900.9 32 3918.0 8 3947.3 6 3960.9 4 3985.7 26 4016.7 4 4038.8 9 4044.9 8 4099.0 3 4116.3 5 4245.1 10 4250.1 11 4276.3 16 ? 4279.9 14 4285.5 8 4325.9 12 4406.7 3 4434.3 5 4500.0 3 4524.7 9 4528.5 7 4564.9 3 4733.4 5 ? 4770.2 10 ? 4847.9 7 4872.7 7 4898.5 7 | 33 7 19 7 17 7 26 7 40 10 55 7 21 7 69 7 29 10 36 10 81 10 43 7 36 12 31 12 21 10 31 14 38 10 17 7 81 7 48 7 88 7 67 29 100 29 74 7 41 7 19 7 29 7 31 7 36 7 | E1 (M1) (M1) D D E1 (M1) E1 D D E1 D D D (M1) D D M1 E1 D E1 E1 E1 E1 (M1) (M1) M1 M1 M1 | 1271.1 1222 1219.05 1200.47 1172.990 1159.751 1133.80 1102.252 1081.331 1074.346 1020.730 1004.232 875.549 869.7 846.4 839.303 833.169 793.027 713.755 687.631 619.638 593.6173 590.8396 554.6503 386.5 348.3 272.1800 247.5867 221.3966 | 1/2-,3/2- (1/2+,3/2+) (1/2+,3/2+) 1/2-,3/2- 3/2- (3/2)- (1/2+,3/2+) 3/2- 1/2-,3/2- (3/2)- 3/2- 3/2+ (3/2)- 1/2+ (1/2+,3/2+) 3/2+ (1/2)- 1/2+ 3/2- 1/2+ 3/2- (3/2)- 3/2- (1/2)- (1/2+,3/2+) (1/2+,3/2+) 3/2+ 1/2+ 3/2+ |
E(level): From least-squares fit to Eγ data, when levels are populated in any of the four γ-ray studies. The gamma-ray energy uncertainty is assumed as 0.5 keV when not stated. Reduced χ2 of 2.07 is somewhat larger than critical χ2=1.25 at 95% confidence level, with only three low energy and four high-energy primary γ rays in (n,γ) poorly fitted.
Jπ(level): From γ-ray deexcitation in (n,γ) E=thermal. Levels populated by capture γ rays in 230Th(n,γ) E=2 keV:ARC have J=1/2, 3/2, based on the multipolarity of the capture γ ray. Additional arguments are given with individual levels. See detailed arguments for Jπ assignments in 1987Wh01. In (d,t), "fingerprint " method (comparison of experimental spectroscopic strengths or cross sections of members of a rotational band with those predicted by perturbed (and unperturbed) Coriolis calculations) has been used by 2008Bu14 to assign Jπ for levels which form members of a band based on a Nilsson configuration.
T1/2(level): For excited states, values are from βγγ(t) in 231Ac decay (1999Aa03)
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 1 - ν5/2[633],α=+1/2. | |||||||
0.0 | 5/2+ | 25.57 h 8 % β- = 100 | |||||
96.129 3 | 9/2+ | 54.25 5 96.09 2 | 13 4 100 6 | M1+E2 [E2] | 41.9521 0.0 | 7/2+ 5/2+ | |
240.6 | (13/2+) | 144.5 3 | 100 | 96.129 | 9/2+ | ||
432.7 | (17/2+) | 192.1 2 | 100 | 240.6 | (13/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 2 - ν5/2[633],α=-1/2. | |||||||
0.0 | 5/2+ | 25.57 h 8 % β- = 100 | |||||
41.9521 16 | 7/2+ | 41.98 5 | 100 | M1+E2 | 0.0 | 5/2+ | |
96.129 3 | 9/2+ | 54.25 5 96.09 2 | 13 4 100 6 | M1+E2 [E2] | 41.9521 0.0 | 7/2+ 5/2+ | |
162.11 3 | 11/2+ | 120.35 5 | 100 | [E2] | 41.9521 | 7/2+ | |
330.6 | (15/2+) | 168.1 3 | 100 | 162.11 | 11/2+ | ||
544.9 | (19/2+) | 214.3 3 | 100 | 330.6 | (15/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 3 - ν5/2[752]. | |||||||
185.7160 13 | 5/2- | 1.07 ns 8 | |||||
205.3101 15 | (7/2-) | 19.55 5 109.176 31 163.357 2 205.311 2 | 32.2 13 100.0 8 99.2 10 | [M1] [E1] (E1) (E1) | 185.7160 96.129 41.9521 0.0 | 5/2- 9/2+ 7/2+ 5/2+ | |
236.899 7 | 9/2- | 31.60 5 51.21 5 74.94 4 140.759 20 194.942 7 | 7.2 27 5.3 12 11.5 21 33.2 23 100.0 21 | [M1] [E2] [E1] [E1] [E1] | 205.3101 185.7160 162.11 96.129 41.9521 | (7/2-) 5/2- 11/2+ 9/2+ 7/2+ | |
277.60 6 | (11/2-) | 41.1 72.7 2 115.45 5 182.1? | 100 7 8.19 9 | [M1] [E2] [E1] | 236.899 205.3101 162.11 96.129 | 9/2- (7/2-) 11/2+ 9/2+ | |
333 3 | (13/2-) | ||||||
402.0 3 | (15/2)- | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 4 - ν3/2[631]. | |||||||
221.3966 20 | 3/2+ | < 74 ps | |||||
240.8794 24 | 5/2+ | 198.927 3 240.876 4 | 62 4 100 6 | M1 M1(+E2) | 41.9521 0.0 | 7/2+ 5/2+ | |
275.4250 25 | 7/2+ | 34.7 1 ? 54.1 1 179.297 2 233.470 3 275.428 4 | ≈97 <2.6 40 6 100 7 25 5 | [M1] [E2] M1(+E2) M1 M1(+E2) | 240.8794 221.3966 96.129 41.9521 0.0 | 5/2+ 3/2+ 9/2+ 7/2+ 5/2+ | |
324.913 7 | (9/2)+ | 228.785 6 282.92 5 | 100 15 65 23 | M1 [M1+E2] | 96.129 41.9521 | 9/2+ 7/2+ | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 5 - ν1/2[631]. | |||||||
247.5867 20 | 1/2+ | < 74 ps | |||||
272.1800 15 | 3/2+ | 24.6S 31.3S 50.8S 230.243 11 272.181 2 | 2.2 13 ≤7.5 ≤10.4 5.5 12 100 15 | [M1] (M1) [M1] [E2] M1+E2 | 247.5867 240.8794 221.3966 41.9521 0.0 | 1/2+ 5/2+ 3/2+ 7/2+ 5/2+ | |
317.0809 22 | 5/2+ | 76.198 4 95.7? 275.129 2 317.063 12 | 20 3 100 15 4.6 9 | [M1+E2] M1+E2 M1 | 240.8794 221.3966 41.9521 0.0 | 5/2+ 3/2+ 7/2+ 5/2+ | |
351.511 6 | 7/2+ | 255.365 10 309.557 12 351.512 23 | 79 16 100 21 64 13 | M1 (E2) M1 | 96.129 41.9521 0.0 | 9/2+ 7/2+ 5/2+ | |
490 3 | (11/2+) | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 6 - ν1/2[501]. | |||||||
554.6503 16 | (1/2)- | 503 ps 12 | |||||
593.6173 20 | (3/2)- | 0.10 ns 4 | 346.1 2 372.221 2 388.3 2 407.899 2 | 17 4 43 6 9.5 30 100 11 | (E1) E1 [E2] E2 | 247.5867 221.3966 205.3101 185.7160 | 1/2+ 3/2+ (7/2-) 5/2- |
595.9738 21 | 5/2- | 244.451 10 323.794 2 374.590 9 390.662 4 410.252 10 | 18 4 100 15 23 5 63 12 29 6 | E1 (E1) (E1) M1+E2 M1 | 351.511 272.1800 221.3966 205.3101 185.7160 | 7/2+ 3/2+ 3/2+ (7/2-) 5/2- | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 7 - ν5/2[503]. | |||||||
684.4908 24 | (5/2)- | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 8 - ν3/2[501]. | |||||||
875.549 4 | (3/2)- | ||||||
914.90 4 | (5/2)- | 673.96 13 678.1 3 729.19 5 914.91 7 | 34 14 22 7 55 9 100 16 | (M1(+E2)) | 240.8794 236.899 185.7160 0.0 | 5/2+ 9/2- 5/2- 5/2+ | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 9 - ν7/2[743]. | |||||||
387.828 3 | 7/2- | ||||||
452.192 18 | 9/2- | 64.45 5 S 215.30 5 246.83 3 266.47 5 291.2 356.03 5 410.29 4 | 58 4 100 6 12.9 20 4.7 16 4.5 13 | [M1+E2] [M1+E2] [M1] [E2] | 387.828 236.899 205.3101 185.7160 162.11 96.129 41.9521 | 7/2- 9/2- (7/2-) 5/2- 11/2+ 9/2+ 7/2+ | |
530.23 5 | (11/2-) | 142.40 5 | 100 | [E2] | 387.828 | 7/2- | |
704 2 | (15/2-) | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 10 - ν7/2[624]. | |||||||
510.897 11 | (7/2)+ | ||||||
579 1 | (9/2+) | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 11 - ν5/2[622]. | |||||||
301.7429 19 | 5/2+ | ||||||
377.573 9 | (7/2)+ | 136.55 5 173.0 10 281.440 9 | 100 6 45 20 ≈25 | [M1+E2] [E1] M1 | 240.8794 205.3101 96.129 | 5/2+ (7/2-) 9/2+ | |
447.4 7 | (9/2)+ | ||||||
530 3 | (11/2+) | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 12 - ν3/2[761]. | |||||||
590.8396 24 | 3/2- | ||||||
629.3428 22 | (5/2)- | 424.032 4 443.626 2 629.368 15 | 38 7 100 15 9.6 15 | M1+E2 M1(+E2) | 205.3101 185.7160 0.0 | (7/2-) 5/2- 5/2+ | |
655.939 15 | (7/2-) | 419.031 16 ? 470.25 3 ? | 100 21 71 17 | (M1) M1 | 236.899 185.7160 | 9/2- 5/2- | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 13 - ν1/2[631]~#0+ + ν5/2[633]~#2+. | |||||||
687.631 3 | 1/2+ | ||||||
709.099 4 | 3/2+ | 392.038 13 436.917 4 468.209 19 487.689 23 | 17 4 100 14 26 6 20 4 | M1+E0(+E2) M1(+E2) (E2) | 317.0809 272.1800 240.8794 221.3966 | 5/2+ 3/2+ 5/2+ 3/2+ | |
735.263 7 | (5/2)+ | 433.517 8 463.085 12 487.689 23 | 100 16 75 16 42 9 | (E2) M1+E2 (E2) | 301.7429 272.1800 247.5867 | 5/2+ 3/2+ 1/2+ | |
820.552 7 | 1/2+ | 503.44 6 572.964 7 599.20 4 820.43 7 | 19 5 100 17 21 5 37 6 | M1+E0 | 317.0809 247.5867 221.3966 0.0 | 5/2+ 1/2+ 3/2+ 5/2+ | |
839.303 9 | 3/2+ | 284.659 13 522.218 16 567.108 19 617.87 4 797.56 13 839.36 5 | 20 4 64 10 69 12 34 7 45 10 100 16 | (M1) M1+E0 M1+E0 (E2) | 554.6503 317.0809 272.1800 221.3966 41.9521 0.0 | (1/2)- 5/2+ 3/2+ 3/2+ 7/2+ 5/2+ | |
889.997 12 | 5/2+ | 614.563 14 649.142 23 668.56 10 | 100 16 77 12 41 9 | M1 (M1) E2+M1 | 275.4250 240.8794 221.3966 | 7/2+ 5/2+ 3/2+ | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 14 - ν3/2[631]~#0-. | |||||||
619.638 4 | 3/2- | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 15 - ν5/2[752]~#0+ + ν3/2[631]~#0- | |||||||
623.935 18 | (5/2-) | ||||||
634.046 13 | (7/2-) | 428.71 4 448.339 18 | 100 22 87 44 | M1+E0(+E2) | 205.3101 185.7160 | (7/2-) 5/2- | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 16 - ν1/2[640] + ν1/2[631]~#0+. | |||||||
793.027 4 | 1/2+ | ||||||
808.508 8 | 3/2+ | 456.990 11 ? 506.74 7 536.336 17 560.875 21 587.155 17 766.6 3 808.38 9 | 110 19 45 10 76 17 58 12 81 14 43 11 100 30 | (E2) E0+M1(+E2) M1 | 351.511 301.7429 272.1800 247.5867 221.3966 41.9521 0.0 | 7/2+ 5/2+ 3/2+ 1/2+ 3/2+ 7/2+ 5/2+ | |
966.0 6 | 3/2+,5/2+ | ||||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 17 - ν1/2[770]. | |||||||
713.755 3 | 3/2- | ||||||
720.302 6 | (7/2)- | 418.62 4 444.892 14 514.991 7 534.562 15 | 2.6 4 16 4 100 15 15 3 | (E1) M1+E2 M1 | 301.7429 275.4250 205.3101 185.7160 | 5/2+ 7/2+ (7/2-) 5/2- | |
833.169 4 | (1/2)- | 239.548 4 278.524 14 585.607 13 611.80 2 | 100 15 7.0 15 28 5 23 4 | M1 | 593.6173 554.6503 247.5867 221.3966 | (3/2)- (1/2)- 1/2+ 3/2+ | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 18 - ν3/2[631]~#0+ | |||||||
960.809 12 | 3/2+ |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
41.9521 | 7/2+ | 41.98 5 | M1+E2 | 0.95 10 | 3.7×102 | α=3.7×102 4 | |
96.129 | 9/2+ | 54.25 5 | M1+E2 | 0.85 25 | 100 | α=100 29 | |
9/2+ | 96.09 2 | [E2] | 13.6 | α=13.6 2 | |||
162.11 | 11/2+ | 120.35 5 | [E2] | 5.04 | α=5.04 7 | ||
185.7160 | 5/2- | 1.07 ns 8 | 143.765 2 | E1 | 0.207 | B(E1)(W.u.)=8.0E-6 +7-6, α=0.207 3 | |
5/2- | 1.07 ns 8 | 185.713 2 | E1 | 0.1124 | B(E1)(W.u.)=1.95E-5 +16-14, α=0.1124 16 | ||
205.3101 | (7/2-) | 19.55 5 | [M1] | 114.7 | α=114.7 19 | ||
(7/2-) | 109.176 31 | [E1] | 0.0932 | α=0.0932 13 | |||
(7/2-) | 163.357 2 | (E1) | 0.1525 | α=0.1525 22 | |||
(7/2-) | 205.311 2 | (E1) | 0.0887 | α=0.0887 13 | |||
221.3966 | 3/2+ | < 74 ps | 221.392 20 | M1 | 1.96 | B(M1)(W.u.)>0.0092, α=1.96 3, α(K)=1.566 22, α(L)=0.296 5, α(M)=0.0712 10, α(N)=0.0190 3, α(O)=0.00450 7, α(P)=0.000873 13, α(Q)=8.28×10-5 12 | |
236.899 | 9/2- | 31.60 5 | [M1] | 110.7 | α=110.7 16 | ||
9/2- | 51.21 5 | [E2] | 274 | α=274 4 | |||
9/2- | 74.94 4 | [E1] | 0.252 | α=0.252 4 | |||
9/2- | 140.759 20 | [E1] | 0.218 | α=0.218 3 | |||
9/2- | 194.942 7 | [E1] | 0.100 | α=0.100 2 | |||
240.8794 | 5/2+ | 198.927 3 | M1 | 2.64 | α=2.64 4 | ||
5/2+ | 240.876 4 | M1(+E2) | 0.3 3 | 1.45 | α=1.45 22 | ||
247.5867 | 1/2+ | < 74 ps | 26.2 | [M1] | 192 | α=192 4 | |
1/2+ | < 74 ps | 247.586 3 | E2 | 0.312 | B(E2)(W.u.)>58, α=0.312 5 | ||
272.1800 | 3/2+ | 24.6 | [M1] | 231 | α=231 5 | ||
3/2+ | 31.3 | (M1) | 114 | α=114 2 | |||
3/2+ | 50.8 | [M1] | 27.3 | α=27.3 5 | |||
3/2+ | 230.243 11 | [E2] | 0.399 | α=0.399 6 | |||
3/2+ | 272.181 2 | M1+E2 | 0.64 10 | 0.85 | α=0.85 6 | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
275.4250 | 7/2+ | 34.7 1 | [M1] | 83.9 | α=83.9 14 | ||
7/2+ | 54.1 1 | [E2] | 210 | α=210 4 | |||
7/2+ | 179.297 2 | M1(+E2) | 0.25 25 | 3.4 | α=3.4 4 | ||
7/2+ | 233.470 3 | M1 | 1.688 | α=1.688 24 | |||
7/2+ | 275.428 4 | M1(+E2) | 0.25 25 | 1.02 | α=1.02 12 | ||
277.60 | (11/2-) | 41.1 | [M1] | 51.0 | α=51.0 7 | ||
(11/2-) | 72.7 2 | [E2] | 50.8 | α=50.8 10 | |||
(11/2-) | 115.45 5 | [E1] | 0.348 | α=0.348 5 | |||
301.7429 | 5/2+ | 259.790 4 | M1+E2 | 0.65 10 | 0.96 | α=0.96 7 | |
5/2+ | 301.741 3 | M1 | 0.880 | α=0.880 13 | |||
317.0809 | 5/2+ | 76.198 4 | [M1+E2] | 24 | α=24 17 | ||
5/2+ | 275.129 2 | M1+E2 | 0.6 1 | 0.84 | α=0.84 6 | ||
5/2+ | 317.063 12 | M1 | 0.723 | α=0.723 10 | |||
324.913 | (9/2)+ | 228.785 6 | M1 | 1.79 | α=1.79 3 | ||
(9/2)+ | 282.92 5 | [M1+E2] | 0.60 | α=0.60 40 | |||
351.511 | 7/2+ | 255.365 10 | M1 | 1.315 | α=1.315 19 | ||
7/2+ | 309.557 12 | (E2) | 0.1534 | α=0.1534 22 | |||
7/2+ | 351.512 23 | M1 | 0.545 | α=0.545 8 | |||
377.573 | (7/2)+ | 136.55 5 | [M1+E2] | 5.3 | α=5.3 24 | ||
(7/2)+ | 173.0 10 | [E1] | 0.132 | α=0.132 2 | |||
(7/2)+ | 281.440 9 | M1 | 1.005 | α=1.005 14 | |||
387.828 | 7/2- | 150.937 20 | [M1+E2] | 3.9 | α=3.9 19 | ||
7/2- | 182.504 10 | [M1+E2] | 2.1 | α=2.1 13 | |||
7/2- | 202.110 3 | [M1+E2] | 1.6 | α=1.6 9 | |||
452.192 | 9/2- | 64.45 5 | [M1+E2] | 52 | α=52 39 | ||
9/2- | 215.30 5 | [M1+E2] | 1.3 | α=1.3 8 | |||
9/2- | 246.83 3 | [M1] | 1.445 | α=1.445 20 | |||
9/2- | 266.47 5 | [E2] | 0.245 | α=0.245 4 | |||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
510.897 | (7/2)+ | 468.944 10 | M1+E2 | 0.7 2 | 0.18 | α=0.18 3 | |
530.23 | (11/2-) | 142.40 5 | [E2] | 2.48 | α=2.48 4 | ||
554.6503 | (1/2)- | 503 ps 12 | 282.471 2 | E1 | 0.0425 | B(E1)(W.u.)=6.94E-6 20, α=0.0425 6 | |
(1/2)- | 503 ps 12 | 307.063 2 | E1 | 0.0353 | B(E1)(W.u.)=4.24E-6 12, α=0.0353 5 | ||
(1/2)- | 503 ps 12 | 368.934 2 | E2 | 0.0927 | B(E2)(W.u.)=0.336 10, α=0.0927 13 | ||
590.8396 | 3/2- | 385.532 3 | (E2) | 0.0822 | α=0.0822 12 | ||
3/2- | 405.121 3 | E2+M1 | 1.4 2 | 0.173 | α=0.173 22 | ||
593.6173 | (3/2)- | 0.10 ns 4 | 346.1 2 | (E1) | 0.0272 | B(E1)(W.u.)=4.1E-6 +28-14, α=0.0272 4 | |
(3/2)- | 0.10 ns 4 | 372.221 2 | E1 | 0.0232 | B(E1)(W.u.)=8E-6 +6-3, α=0.0232 3 | ||
(3/2)- | 0.10 ns 4 | 388.3 2 | [E2] | 0.0806 | B(E2)(W.u.)=0.40 +29-16, α=0.0806 11 | ||
(3/2)- | 0.10 ns 4 | 407.899 2 | E2 | 0.0708 | B(E2)(W.u.)=3.3 +22-10, α=0.0708 10 | ||
595.9738 | 5/2- | 244.451 10 | E1 | 0.0591 | α=0.0591 8 | ||
5/2- | 323.794 2 | (E1) | 0.0314 | α=0.0314 5 | |||
5/2- | 374.590 9 | (E1) | 0.0229 | α=0.0229 3 | |||
5/2- | 390.662 4 | M1+E2 | 1.2 3 | 0.21 | α=0.21 5 | ||
5/2- | 410.252 10 | M1 | 0.358 | α=0.358 5 | |||
619.638 | 3/2- | 302.540 7 | (E1) | 0.0365 | α=0.0365 5 | ||
3/2- | 398.242 10 | (E1) | 0.0201 | α=0.0201 3 | |||
3/2- | 433.927 4 | (M1) | 0.308 | α=0.308 4 | |||
629.3428 | (5/2)- | 424.032 4 | M1+E2 | 0.9 1 | 0.209 | α=0.209 16 | |
(5/2)- | 443.626 2 | M1(+E2) | 0.4 4 | 0.26 | α=0.26 6 | ||
655.939 | (7/2-) | 419.031 16 | (M1) | 0.338 | α=0.338 5 | ||
(7/2-) | 470.25 3 | M1 | 0.248 | α=0.248 4 | |||
684.4908 | (5/2)- | 479.19 5 | E2+M1 | 3.0 8 | 0.066 | α=0.066 14 | |
(5/2)- | 498.775 2 | M1 | 0.211 | α=0.211 3 | |||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
687.631 | 1/2+ | 415.460 8 | (M1) | 0.346 | α=0.346 5 | ||
1/2+ | 466.227 3 | M1 | 0.253 | α=0.253 4 | |||
1/2+ | 687.658 7 | (E2) | 0.0210 | α=0.0210 3 | |||
709.099 | 3/2+ | 468.209 19 | M1(+E2) | 0.15 | α=0.15 10 | ||
3/2+ | 487.689 23 | (E2) | 0.0453 | α=0.0453 6 | |||
713.755 | 3/2- | 528.038 3 | M1 | 0.181 | α=0.181 3 | ||
720.302 | (7/2)- | 444.892 14 | (E1) | 0.01599 | α=0.01599 23 | ||
(7/2)- | 514.991 7 | M1+E2 | 1.0 2 | 0.117 | α=0.117 17 | ||
(7/2)- | 534.562 15 | M1 | 0.1755 | α=0.1755 25 | |||
735.263 | (5/2)+ | 433.517 8 | (E2) | 0.0605 | α=0.0605 9 | ||
(5/2)+ | 463.085 12 | M1+E2 | 1.2 2 | 0.136 | α=0.136 19 | ||
(5/2)+ | 487.689 23 | (E2) | 0.0453 | α=0.0453 6 | |||
793.027 | 1/2+ | 491.284 4 | (E2) | 0.0445 | α=0.0445 6 | ||
1/2+ | 520.847 14 | E2+M1 | 1.5 3 | 0.085 | α=0.085 16 | ||
808.508 | 3/2+ | 456.990 11 | (E2) | 0.0531 | α=0.0531 8 | ||
3/2+ | 587.155 17 | M1 | 0.1366 | α=0.1366 19 | |||
833.169 | (1/2)- | 239.548 4 | M1 | 1.571 | α=1.571 22 | ||
839.303 | 3/2+ | 522.218 16 | (M1) | 0.187 | α=0.187 3 | ||
3/2+ | 839.36 5 | (E2) | 0.01403 | α=0.01403 20 | |||
867.00 | 5/2-,7/2- | 479.19 5 | (E2) | 0.0472 | α=0.0472 7 | ||
5/2-,7/2- | 630.00 6 | E2 | 0.0253 | α=0.0253 4 | |||
5/2-,7/2- | 681.37 7 | (M1+E2) | 0.06 | α=0.06 4 | |||
875.549 | (3/2)- | 320.899 4 | M1+E2 | 0.9 2 | 0.45 | α=0.45 7 | |
889.997 | 5/2+ | 614.563 14 | M1 | 0.1209 | α=0.1209 17 | ||
5/2+ | 649.142 23 | (M1) | 0.1046 | α=0.1046 15 | |||
5/2+ | 668.56 10 | E2+M1 | 1.2 3 | 0.053 | α=0.053 11 | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
914.90 | (5/2)- | 729.19 5 | (M1(+E2)) | 0.05 | α=0.05 3 | ||
936.307 | (5/2)- | 342.702 17 | (M1) | 0.584 | α=0.584 8 | ||
(5/2)- | 548.454 15 | E2+M1 | 1.5 3 | 0.074 | α=0.074 14 | ||
(5/2)- | 750.621 16 | M1 | 0.0711 | α=0.0711 10 | |||
960.809 | 3/2+ | 658.97 6 | M1+E2 | 1.0 3 | 0.062 | α=0.062 14 | |
3/2+ | 688.611 24 | E2+M1 | 1.1 2 | 0.052 | α=0.052 7 | ||
3/2+ | 713.234 16 | M1+E2 | 0.6 1 | 0.065 | α=0.065 5 | ||
3/2+ | 918.92 11 | (E2) | 0.01175 | α=0.01175 17 | |||
1004.232 | 3/2+ | 763.363 24 | M1 | 0.0680 | α=0.0680 10 | ||
1020.730 | 3/2- | 336.240 10 | M1+E2 | 0.63 25 | 0.47 | α=0.47 8 | |
3/2- | 427.110 7 | M1 | 0.321 | α=0.321 5 | |||
3/2- | 834.92 5 | (M1) | 0.0537 | α=0.0537 8 | |||
1056.27 | (3/2+) | 834.92 5 | (M1) | 0.0537 | α=0.0537 8 | ||
1066.191 | (5/2,7/2)+ | 688.611 24 | E2+M1 | 1.1 2 | 0.052 | α=0.052 7 | |
(5/2,7/2)+ | 749.14 5 | (M1) | 0.0715 | α=0.0715 10 | |||
1074.346 | (3/2)- | 483.507 17 | E2+M1 | 1.4 3 | 0.108 | α=0.108 21 | |
1081.331 | 1/2-,3/2- | 487.689 23 | (E2) | 0.0453 | α=0.0453 6 | ||
1/2-,3/2- | 490.51 2 | M1 | 0.221 | α=0.221 3 | |||
1/2-,3/2- | 526.68 5 | (M1) | 0.183 | α=0.183 3 | |||
1086.811 | 5/2+ | 493.177 25 | (E1) | 0.01297 | α=0.01297 18 | ||
5/2+ | 709.220 14 | E2+M1 | 0.8 2 | 0.058 | α=0.058 8 | ||
5/2+ | 811.408 15 | E2 | 0.01501 | α=0.01501 21 | |||
5/2+ | 814.64 4 | (E2) | 0.01489 | α=0.01489 21 | |||
1102.252 | 3/2- | 417.793 14 | M1 | 0.341 | α=0.341 5 | ||
3/2- | 468.209 19 | [E2] | 0.0500 | α=0.0500 7 | |||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
1159.751 | (3/2)- | 445.996 7 | E2+M1 | 1.17 20 | 0.150 | α=0.150 21 | |
(3/2)- | 918.92 11 | (E1) | 0.00400 | α=0.00400 6 | |||
1172.990 | 3/2- | 459.22 8 | M1(+E2) | 0.8 LT | 0.264 | α=0.264 4 | |
3/2- | 543.66 3 | (M1) | 0.1677 | α=0.1677 24 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
0.0 | 5/2+ | 25.57 h 8 % β- = 100 | %α≈2×10-14 is expected as negligible, as deduced by evaluators from theoretical T1/2(β-)>100 s and T1/2(α)=4.9×1017 s (2019Mo01). E(level): ν5/2[633],α=+1/2. ν5/2[633],α=-1/2. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). |
41.9521 | 7/2+ | E(level): ν5/2[633],α=-1/2. ν5/2[633],α=-1/2. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). | |
96.129 | 9/2+ | E(level): ν5/2[633],α=+1/2. ν5/2[633],α=-1/2. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). | |
162.11 | 11/2+ | E(level): ν5/2[633],α=-1/2. ν5/2[633],α=-1/2. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). | |
185.7160 | 5/2- | 1.07 ns 8 | E(level): ν5/2[752]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 185.1- (5/2-), 205.5- (7/2-), 237.2- (9/2-), 280.4- (11/2-), 331.6- (13/2-), 403.9 keV (15/2-) (1987Wh01). |
205.3101 | (7/2-) | E(level): ν5/2[752]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 185.1- (5/2-), 205.5- (7/2-), 237.2- (9/2-), 280.4- (11/2-), 331.6- (13/2-), 403.9 keV (15/2-) (1987Wh01). | |
221.3966 | 3/2+ | < 74 ps | XREF: γ(225). E(level): ν3/2[631]. Jπ(level): Member of K=3/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 220.7- (3/2+), 241.7- (5/2+), 276.9- (7/2+), 323.2- (9/2+), and 385.8 keV (11/2+) (1987Wh01). |
236.899 | 9/2- | E(level): ν5/2[752]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 185.1- (5/2-), 205.5- (7/2-), 237.2- (9/2-), 280.4- (11/2-), 331.6- (13/2-), 403.9 keV (15/2-) (1987Wh01). | |
240.6 | (13/2+) | E(level): ν5/2[633],α=+1/2. | |
240.8794 | 5/2+ | E(level): ν3/2[631]. Jπ(level): Member of K=3/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 220.7- (3/2+), 241.7- (5/2+), 276.9- (7/2+), 323.2- (9/2+), and 385.8 keV (11/2+) (1987Wh01). | |
247.5867 | 1/2+ | < 74 ps | E(level): ν1/2[631]. |
272.1800 | 3/2+ | XREF: γ(271). E(level): ν1/2[631]. | |
275.4250 | 7/2+ | E(level): ν3/2[631]. | |
277.60 | (11/2-) | XREF: J(284). E(level): ν5/2[752]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 185.1- (5/2-), 205.5- (7/2-), 237.2- (9/2-), 280.4- (11/2-), 331.6- (13/2-), 403.9 keV (15/2-) (1987Wh01). | |
301.7429 | 5/2+ | XREF: B(?). E(level): ν5/2[622]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=-0.39, and including Coriolis mixing. Band structure: 247.7- (1/2+), 271.5- (3/2+), 302.0- (5/2+), 352.7- (7/2+), 409.5- (9/2+), 489.3 keV (11/2+) (1987Wh01). | |
317.0809 | 5/2+ | E(level): ν1/2[631]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 317.8- (5/2+), 376.0- (7/2+), 447.9- (9/2+), 531.5 keV (1987Wh01). | |
324.913 | (9/2)+ | XREF: J(326). E(level): ν3/2[631]. Jπ(level): Member of K=3/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 220.7- (3/2+), 241.7- (5/2+), 276.9- (7/2+), 323.2- (9/2+), and 385.8 keV (11/2+) (1987Wh01). | |
330.6 | (15/2+) | E(level): ν5/2[633],α=-1/2. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). | |
333 | (13/2-) | E(level): ν5/2[752]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 185.1- (5/2-), 205.5- (7/2-), 237.2- (9/2-), 280.4- (11/2-), 331.6- (13/2-), 403.9 keV (15/2-) (1987Wh01). | |
348.3 | (1/2+,3/2+) | XREF: E(?). | |
351.511 | 7/2+ | XREF: B(355). E(level): ν1/2[631]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=-0.39, and including Coriolis mixing. Band structure: 247.7- (1/2+), 271.5- (3/2+), 302.0- (5/2+), 352.7- (7/2+), 409.5- (9/2+), 489.3 keV (11/2+) (1987Wh01). | |
377.573 | (7/2)+ | E(level): ν5/2[622]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 317.8- (5/2+), 376.0- (7/2+), 447.9- (9/2+), 531.5 keV (1987Wh01). | |
385.68 | (5/2+:11/2+) | Jπ(level): Member of K=3/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 220.7- (3/2+), 241.7- (5/2+), 276.9- (7/2+), 323.2- (9/2+), and 385.8 keV (11/2+) (1987Wh01). | |
387.828 | 7/2- | E(level): ν7/2[743]. Jπ(level): Member of K=7/2 rotational band. Energies calculated using α=6.7 keV, and including Coriolis mixing. Band structure: 388.6- (7/2-), 452.9- (9/2-), 527.2- (11/2-), 598.9- (13/2-), and 705.4 keV (15/2-) (1987Wh01). | |
402.0 | (15/2)- | E(level): ν5/2[752]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 185.1- (5/2-), 205.5- (7/2-), 237.2- (9/2-), 280.4- (11/2-), 331.6- (13/2-), 403.9 keV (15/2-) (1987Wh01). | |
E(level) | Jπ(level) | T1/2(level) | Comments |
432.7 | (17/2+) | E(level): ν5/2[633],α=+1/2. | |
447.4 | (9/2)+ | XREF: γ(449). E(level): ν5/2[622]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 317.8- (5/2+), 376.0- (7/2+), 447.9- (9/2+), 531.5 keV (1987Wh01). | |
452.192 | 9/2- | E(level): ν7/2[743]. Jπ(level): Member of K=7/2 rotational band. Energies calculated using α=6.7 keV, and including Coriolis mixing. Band structure: 388.6- (7/2-), 452.9- (9/2-), 527.2- (11/2-), 598.9- (13/2-), and 705.4 keV (15/2-) (1987Wh01). | |
466.5 | (1/2-,3/2-) | L(d,t)=(1). | |
490 | (11/2+) | E(level): ν1/2[631]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=-0.39, and including Coriolis mixing. Band structure: 247.7- (1/2+), 271.5- (3/2+), 302.0- (5/2+), 352.7- (7/2+), 409.5- (9/2+), 489.3 keV (11/2+) (1987Wh01). | |
510.897 | (7/2)+ | E(level): ν7/2[624]. | |
530 | (11/2+) | E(level): ν5/2[622]. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 317.8- (5/2+), 376.0- (7/2+), 447.9- (9/2+), 531.5 keV (1987Wh01). | |
530.23 | (11/2-) | E(level): ν7/2[743]. Jπ(level): Member of K=7/2 rotational band. Energies calculated using α=6.7 keV, and including Coriolis mixing. Band structure: 388.6- (7/2-), 452.9- (9/2-), 527.2- (11/2-), 598.9- (13/2-), and 705.4 keV (15/2-) (1987Wh01). | |
544.9 | (19/2+) | E(level): ν5/2[633],α=-1/2. Jπ(level): Member of K=5/2 rotational band. Energies calculated using α=6.8 keV and including Coriolis mixing. Band structure: 0- (5/2+), 42- (7/2+), 96- (9/2+), 162 keV (11/2+) (1987Wh01). | |
554.6503 | (1/2)- | 503 ps 12 | E(level): ν1/2[501]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.7 keV, a=+0.93, and including Coriolis mixing. Band structure: 554- (1/2-), 594- (3/2-), and 596 keV (5/2-) (1987Wh01). |
568 | XREF: B(?). | ||
579 | (9/2+) | E(level): ν7/2[624]. | |
590.8396 | 3/2- | Note that (d,t) strength is not consistent with 3/2[761] configuration assignment. E(level): Note that (d,t) strength is not consistent with 3/2[761] configuration assignment. ν3/2[761]. Jπ(level): Member of K=3/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 588.6- (3/2-), 629.3- (5/2-), and 658.5 keV (7/2-) (1987Wh01). | |
593.6173 | (3/2)- | 0.10 ns 4 | XREF: E(595.2). E(level): ν1/2[501]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.7 keV, a=+0.93, and including Coriolis mixing. Band structure: 554- (1/2-), 594- (3/2-), and 596 keV (5/2-) (1987Wh01). |
595.9738 | 5/2- | E(level): ν1/2[501]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.7 keV, a=+0.93, and including Coriolis mixing. Band structure: 554- (1/2-), 594- (3/2-), and 596 keV (5/2-) (1987Wh01). | |
619.638 | 3/2- | E(level): ν3/2[631]~#0-. | |
623.935 | (5/2-) | E(level): ν5/2[752]~#0+ + ν3/2[631]~#0-. | |
629.3428 | (5/2)- | E(level): ν3/2[761]. Jπ(level): Member of K=3/2 rotational band. Energies calculated using α=6.7 keV and including Coriolis mixing. Band structure: 588.6- (3/2-), 629.3- (5/2-), and 658.5 keV (7/2-) (1987Wh01). | |
634.046 | (7/2-) | E(level): ν5/2[752]~#0+ + ν3/2[631]~#0-. | |
655.939 | (7/2-) | E(level): ν3/2[761]. | |
684.4908 | (5/2)- | E(level): ν5/2[503]. | |
687.631 | 1/2+ | XREF: E(685.6). E(level): ν1/2[631]~#0+ + ν5/2[633]~#2+. | |
704 | (15/2-) | E(level): ν7/2[743]. Jπ(level): Member of K=7/2 rotational band. Energies calculated using α=6.7 keV, and including Coriolis mixing. Band structure: 388.6- (7/2-), 452.9- (9/2-), 527.2- (11/2-), 598.9- (13/2-), and 705.4 keV (15/2-) (1987Wh01). | |
709.099 | 3/2+ | E(level): ν1/2[631]~#0+ + ν5/2[633]~#2+. | |
713.755 | 3/2- | E(level): ν1/2[770]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=-7.3, and including Coriolis mixing. Band structure: 833.5- (1/2-), 711.6- (3/2-), 984.2- (5/2-), 723.0- (7/2-), and 812.2 keV (15/2-) (1987Wh01). | |
E(level) | Jπ(level) | T1/2(level) | Comments |
720.302 | (7/2)- | E(level): ν1/2[770]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=-7.3, and including Coriolis mixing. Band structure: 833.5- (1/2-), 711.6- (3/2-), 984.2- (5/2-), 723.0- (7/2-), and 812.2 keV (15/2-) (1987Wh01). | |
735.263 | (5/2)+ | E(level): ν1/2[631]~#0+ + ν5/2[633]~#2+. | |
793.027 | 1/2+ | XREF: E(794.2). E(level): ν1/2[640] + ν1/2[631]~#0+. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=+0.16, and including Coriolis mixing. Band structure: 792.3- (1/2+), 808.7- (3/2+), 853.0- (5/2+), 891.6- (7/2+), 970.9- (9/2+), 1032.0 keV (11/2+) (1987Wh01). | |
808.508 | 3/2+ | E(level): ν1/2[640] + ν1/2[631]~#0+. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=+0.16, and including Coriolis mixing. Band structure: 792.3- (1/2+), 808.7- (3/2+), 853.0- (5/2+), 891.6- (7/2+), 970.9- (9/2+), 1032.0 keV (11/2+) (1987Wh01). | |
820.552 | 1/2+ | E(level): ν1/2[631]~#0+ + ν5/2[633]~#2+. | |
833.169 | (1/2)- | XREF: E(834.5). E(level): ν1/2[770]. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=-7.3, and including Coriolis mixing. Band structure: 833.5- (1/2-), 711.6- (3/2-), 984.2- (5/2-), 723.0- (7/2-), and 812.2 keV (15/2-) (1987Wh01). | |
839.303 | 3/2+ | XREF: E(840.1)γ(837). E(level): ν1/2[631]~#0+ + ν5/2[633]~#2+. | |
846.4 | (1/2+,3/2+) | XREF: E(?). | |
869.7 | 1/2+ | XREF: E(869.9). | |
875.549 | (3/2)- | E(level): ν3/2[501]. | |
889.997 | 5/2+ | XREF: γ(881). E(level): ν1/2[631]~#0+ + ν5/2[633]~#2+. | |
914.90 | (5/2)- | E(level): ν3/2[501]. | |
942.2 | XREF: γ(947)I(944.2). | ||
960.809 | 3/2+ | XREF: I(958.0). E(level): ν3/2[631]~#0+. | |
966.0 | 3/2+,5/2+ | E(level): ν1/2[640] + ν1/2[631]~#0+. Jπ(level): Member of K=1/2 rotational band. Energies calculated using α=6.8 keV, a=+0.16, and including Coriolis mixing. Band structure: 792.3- (1/2+), 808.7- (3/2+), 853.0- (5/2+), 891.6- (7/2+), 970.9- (9/2+), 1032.0 keV (11/2+) (1987Wh01). | |
1004.232 | 3/2+ | XREF: I(1003.0). | |
1020.730 | 3/2- | XREF: I(1021.7). | |
1056.27 | (3/2+) | XREF: I(1053). | |
1074.346 | (3/2)- | XREF: E(1075.1)I(1076.5). | |
1086.811 | 5/2+ | XREF: I(1091.8). | |
1102.252 | 3/2- | XREF: E(1103.3)I(1103.0). | |
1106 | (7/2+,9/2+) | L(3He,α)=(4). E(level): L(3He,α)=(4). | |
1172.990 | 3/2- | XREF: I(1171.2). | |
1187.0 | XREF: J(?). | ||
1219.05 | (1/2+,3/2+) | XREF: E(1219.1)I(1220.2). | |
E(level) | Jπ(level) | T1/2(level) | Comments |
1222 | (1/2+,3/2+) | XREF: E(1222.0). | |
1327 | XREF: J(1332). |
E(level) | E(gamma) | Comments |
162.11 | 120.35 | E(γ): somewhat poor fit. Level-energy difference=120.15 3. from α decay, based on least squares fit Eγ=119.989 2 |
236.899 | 74.94 | E(γ): somewhat poor fit. Level-energy difference=74.79 3 |
247.5867 | 26.2 | E(γ): From 231Ac β- decay I(γ): From 231Ac β- decay | 247.586 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
272.1800 | 24.6 | E(γ): From 231Ac β- decay I(γ): From 231Ac β- decay | 31.3 | E(γ): From 231Ac β- decay I(γ): From 231Ac β- decay | 50.8 | E(γ): From 231Ac β- decay I(γ): From 231Ac β- decay | 230.243 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 272.181 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
275.4250 | 179.297 | I(γ): from (n,γ), not seen in α decay | 275.428 | I(γ): from weighted average of values from α decay and (n,γ) E=th |
277.60 | 182.1 | E(γ): tentative γ from α decay, probably very weak, from coincidence data (1975Va11) |
301.7429 | 80.347 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 259.790 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 301.741 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
317.0809 | 76.198 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 275.129 | E(γ): From 230Th(n,γ), E=th I(γ): from (n,γ) E=th. From 230Th(n,γ), E=th | 317.063 | I(γ): from (n,γ) E=th |
351.511 | 255.365 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 309.557 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 351.512 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
387.828 | 147.0 | E(γ): tentative γ from α decay, from coincidence data (1975Va11) |
452.192 | 64.45 | E(γ): γ ray is expected, but it has not been observed. |
510.897 | 468.944 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
554.6503 | 282.471 | E(γ): Primary γ ray in (n,γ) E=thermal I(γ): From 231Ac β- decay | 307.063 | E(γ): Primary γ ray in (n,γ) E=thermal I(γ): From 231Ac β- decay | 368.934 | E(γ): Primary γ ray in (n,γ) E=thermal I(γ): From 231Ac β- decay |
E(level) | E(gamma) | Comments |
590.8396 | 289.092 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 385.532 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 405.121 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
593.6173 | 346.1 | E(γ): From 231Ac β- decay I(γ): From 231Ac β- decay | 372.221 | E(γ): Primary γ ray in (n,γ) E=thermal I(γ): weighted average from (n,γ) E=th and β- decay | 388.3 | E(γ): From 231Ac β- decay I(γ): From 231Ac β- decay | 407.899 | E(γ): Primary γ ray in (n,γ) E=thermal I(γ): From 231Ac β- decay |
595.9738 | 244.451 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 323.794 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 374.590 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 390.662 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 410.252 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
619.638 | 302.540 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 317.886 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 398.242 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 433.927 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
623.935 | 418.62 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 438.22 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
629.3428 | 424.032 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 443.626 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 629.368 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
634.046 | 428.71 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 448.339 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
655.939 | 419.031 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 470.25 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
E(level) | E(gamma) | Comments |
684.4908 | 479.19 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 498.775 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
687.631 | 415.460 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 440.044 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 466.227 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 687.658 | E(γ): somewhat poor fit. Level-energy difference=687.630 3. From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
709.099 | 392.038 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 436.917 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 468.209 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 487.689 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th |
713.755 | 325.925 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 441.64 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 528.038 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
720.302 | 418.62 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 444.892 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 514.991 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 534.562 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
735.263 | 433.517 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 463.085 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 487.689 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th |
793.027 | 491.284 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 520.847 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 545.420 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 793.04 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
808.508 | 456.990 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th M(γ): E2(+M1) from ce data in 231Th(n,γ). Level scheme requires pure E2. | 506.74 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 536.336 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 560.875 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 587.155 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 766.6 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 808.38 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
E(level) | E(gamma) | Comments |
820.552 | 503.44 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 572.964 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 599.20 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 820.43 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
833.169 | 239.548 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 278.524 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 585.607 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 611.80 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
839.303 | 284.659 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 522.218 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 567.108 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 617.87 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 797.56 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 839.36 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
867.00 | 479.19 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 630.00 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 681.37 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
875.549 | 255.903 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 320.899 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 875.54 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
889.997 | 614.563 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 649.142 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 668.56 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
914.90 | 673.96 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 678.1 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 729.19 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
E(level) | E(gamma) | Comments |
936.307 | 342.702 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 548.454 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 619.27 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 750.621 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 936.17 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
960.809 | 643.85 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 658.97 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 688.611 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 713.234 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 719.74 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 739.409 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 775.04 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 918.92 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th |
1004.232 | 626.64 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 763.363 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1020.730 | 336.240 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 427.110 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 773.18 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 799.38 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 834.92 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
1056.27 | 784.05 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 808.74 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 834.92 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 1014.33 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1066.191 | 688.611 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 749.14 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 844.55 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 1024.91 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 1066.07 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
E(level) | E(gamma) | Comments |
1074.346 | 483.507 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 757.28 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 888.49 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1081.331 | 487.689 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 490.51 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 526.68 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1086.811 | 493.177 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 709.220 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 785.08 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 811.408 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 814.64 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1102.252 | 388.482 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 417.793 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 468.209 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 482.62 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 785.08 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 861.86 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th |
1133.80 | 816.70 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 861.86 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 886.15 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1159.751 | 445.996 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 918.92 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th | 974.15 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th |
1172.990 | 459.22 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 488.55 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 543.66 | E(γ): From 230Th(n,γ), E=th I(γ): From 230Th(n,γ), E=th | 785.08 | E(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th I(γ): Multiply placed with undivided intensity. From 230Th(n,γ), E=th |
E(level) | E(gamma) | Comments |
5118.15 | 3843.6 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3866.66 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 3899.07 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known M(γ): required by level scheme. Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3904.26 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 3917.71 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3924.9 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 3946.19 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3958.49 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3962.6 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 3984.31 | E(γ): reported Eγ=3981.82 17 in (n,γ) E=th (1987Wh01), but level-energy difference gives 3984.35 9, which after removal of recoil is 3984.31, which is adopted here in place of authors’ value of 3981.82 M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4023.87 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4062.44 | E(γ): poor fit. Level-energy difference=4062.44 13. Primary γ ray in (n,γ) E=thermal | 4085.1 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4096.72 | E(γ): poor fit. Level-energy difference=4097.38 3. Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4113.98 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4157.42 | E(γ): Primary γ ray in (n,γ) E=thermal | 4175.9 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4182.51 | E(γ): somewhat poor fit. Level-energy difference=4181.81 3. Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4218.9 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4242.45 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4271.7 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4278.73 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4284.91 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): E1 or M1 from average reduced intensities in (n,γ) E=2 keV:ARC, ΔJπ consistent with E1.. Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4297.14 | E(γ): Primary γ ray in (n,γ) E=thermal | 4404.39 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4424.61 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4462.2 | E(γ): Primary γ ray in (n,γ) E=thermal | 4498.5 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4523.95 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4527.09 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4563.45 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4581.4 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4616.9 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known | 4738.1 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4769.8 | E(γ): Primary γ ray in (n,γ) E=thermal. Primary γ in (n,γ) E=th populates a level from which no secondary γ rays are known M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4845.92 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4870.1 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4896.82 | E(γ): Primary γ ray in (n,γ) E=thermal M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 5117.69 | E(γ): Primary γ ray in (n,γ) E=thermal |
E(level) | E(gamma) | Comments |
5119.84 | 3848.7 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3898.0 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3900.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3918.0 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3947.3 | E(γ): somewhat poor fit. Level-energy difference=3946.19 24. Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3960.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 3985.7 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4016.7 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4038.8 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4044.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4099.0 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4116.3 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4245.1 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4250.1 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4276.3 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4279.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4285.5 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4325.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4406.7 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4434.3 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4500.0 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4524.7 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4528.5 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4564.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4733.4 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4770.2 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4847.9 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4872.7 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) | 4898.5 | E(γ): Primary γ ray in (n,γ) E=2 keV res. M(γ): Multipolarity of primary γ rays in (n,γ) E=th and (n,γ) E=2 keV from average resonance capture (ARC) data, where these were deduced from average reduced intensities (see 1987Wh01 for details) |
2013Fr03 traced the identification of 231Th to γ.n. Antonoff, Phil. Mag. 22, 419 (1911), where decay of natural uranium was studied for α and β radiations, and half-life of 1.5 d (or 36 h) was proposed for a new activity labeled as uranium Y. This reference is not listed in 1931Cu01 or in 1940Li01 (Table of Isotopes). The adopted half-life of 25.57 h 8 here is from measurements by 1958Ca19 and 1951Ja17.
Mass measurement by Schottky mass spectrometry: 2005LiZZ
α total of 28 s-wave neutron resonances are reported between 1.427 5 keV and 563 keV, with resonance parameters in 2018MuZZ evaluation. See 230Th(n,γ),(n,n):Resonances dataset for energies and widths.
Theoretical calculations: consult the NSR database (www.nndc.bnl.gov/nsr) for 49 primary references, 23 dealing with half-lives of α and cluster decays and other aspects of radioactive decays, and 26 with nuclear structure calculations. These references are listed under ’document’ records in this dataset, which can be accessed through on-line ENSDF database at www.nndc.bnl.gov/ensdf/
Levels: Three high-spin bands, two tentatively assigned to signature partners of the ν5/2[633] configuration up to 57/2+ for α=+1/2 and 51/2+ for α=-1/2 are given in 232Th(209Bi,210Biγ) dataset from 2002AbZV thesis. As firm assignment could not be made in this work, these two bands and a third one with a cascade of eight transitions have not been given in the Adopted dataset.
Q-value: S(2n)=11912.3 22, S(2p)=13324 15 (2021Wa16)