ADOPTED LEVELS, GAMMAS for 128I
Authors: Zoltan Elekes and Janos Timar | Citation: Nucl. Data Sheets 129, 191 (2015) | Cutoff date: 28-Feb-2015
Full ENSDF file | Adopted Levels (PDF version)
| Q(β-)=2122 keV 4 | S(n)= 6826.13 keV 5 | S(p)= 6746 keV 4 | Q(α)= -2543 keV 4 | ||
| Reference: 2012WA38 |
| References: | |||
| A | 124Sn(7Li,3nγ) | B | 128Te(p,nγ) |
| C | 127I(n,X): Resonances | D | 127I(n,γ) E=THERMAL:PRIMARY |
| E | 127I(n,γ) E=THERMAL:SECONDARY | F | 127I(d,p) |
| G | 129I(d,t) | H | 128Te(3He,t) |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 0.0 | B DEFGH | 1+ | 24.99 m 2 % β- = 93.1 8 % ε = 6.9 8 | |||||
| 27.3620 11 | B DEFG | 2+ | 27.362 5 | 100 | M1 | 0.0 | 1+ | |
| 85.471 3 | B DEFG | 3+ | 58.107 4 | 100 | M1 | 27.3620 | 2+ | |
| 128.237 6 | DEFG | (4)+ | 42.766 6 | 100 | M1 | 85.471 | 3+ | |
| 133.6107 10 | B DE GH | 2- | 12.3 ns 5 | 48.148 7 106.2486 7 133.6106 11 | 0.93 3 4.84 25 100 3 | E1 E1 E1 | 85.471 27.3620 0.0 | 3+ 2+ 1+ |
| 137.851 3 | B DEFG | 4- | 0.845 µs 20 | 4.240 5 52.378 5 | 100 | E1 | 133.6107 85.471 | 2- 3+ |
| 143.995 8 | B DEFG | (3)- | 10.25 5 | 100 | 133.6107 | 2- | ||
| 151.6420 21 | B DEFG | (3)+ | < 0.7 ns | 66.198 18 124.2804 19 | 2.28 12 100 3 | M1 | 85.471 27.3620 | 3+ 2+ |
| 160.7563 10 | B DEFG | 1+,2+ | < 0.7 ns | 133.3954 17 160.7560 12 | 32.7 22 100 3 | M1 M1 | 27.3620 0.0 | 2+ 1+ |
| 167.368 4 | AB EFG | (6)- | 175 ns 15 | 29.512 5 | 100 | (E2) | 137.851 | 4- |
| 180.377 3 | B DEFG | (3)+ | < 1.7 ns | 19.58 4 94.901 10 153.011 3 | 0.82 20 5.11 12 100 3 | (M1+E2) M1 M1 | 160.7563 85.471 27.3620 | 1+,2+ 3+ 2+ |
| 183.0 8 | A | (7-) | ||||||
| 220.9260 24 | B DEF H | (1,2,3)+ | < 0.7 ns | 69.34 20 193.5634 22 | 2.2 5 100.0 14 | M1,E2 | 151.6420 27.3620 | (3)+ 2+ |
| 226.102 5 | AB EFG | (5,6,7)- | 58.74 3 | 100 | M1 | 167.368 | (6)- | |
| 232.577 4 | B DEFG | 4+ | < 1.7 ns | 52.38 80.952 7 104.366 15 147.104 3 | <14 11.07 25 6.33 25 100 3 | M1 | 180.377 151.6420 128.237 85.471 | (3)+ (3)+ (4)+ 3+ |
| 234.488 4 | B E | (5)- | 67.118 4 96.639 4 | 100.0 18 24 3 | M1 M1 | 167.368 137.851 | (6)- 4- | |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 269.712 7 | A EFG | (5,6,7)- | 102.344 5 | 100 | M1 | 167.368 | (6)- | |
| 285.24 18 | A FG | (8-) | 15.6 3 117.8 3 | | 269.712 167.368 | (5,6,7)- (6)- | ||
| 294.358 4 | B E G | (5)- | 68.258 5 126.988 5 156.506 3 | 26.5 14 34 3 100 3 | M1 M1 | 226.102 167.368 137.851 | (5,6,7)- (6)- 4- | |
| 295.667 3 | B DEF | (2,3,4)+ | < 0.8 ns | 74.81 4 115.240 23 134.94 4 144.024 3 268.309 6 | 5.4 5 9.1 3 25.4 11 26 3 100 4 | M1 M1,E2 | 220.9260 180.377 160.7563 151.6420 27.3620 | (1,2,3)+ (3)+ 1+,2+ (3)+ 2+ |
| 344.516 3 | B DEFG | (2,3,4)+ | < 1.2 ns | 111.941 13 164.1390 23 193.13 20 259.038 8 317.50 14 | 20.6 6 100 5 20 5 47 3 50 25 | M1+E2 M1,E2 | 232.577 180.377 151.6420 85.471 27.3620 | 4+ (3)+ (3)+ 3+ 2+ |
| 346.3 5 | D | |||||||
| 372.123 7 | B DEFG | < 0.4 ns | 211.40 5 344.757 7 | 5.6 20 100 4 | 160.7563 27.3620 | 1+,2+ 2+ | ||
| 376.625 4 | B DEF | (4)- | < 5 ns | 142.1371 15 232.632 17 | 100 3 6.4 6 | M1 | 234.488 143.995 | (5)- (3)- |
| 385.446 5 | B DEFG | 2+,3+ | < 0.3 ns | 205.09 224.689 8 251.80 10 299.95 9 385.448 6 | 6.6 12.2 10 12 15 6 100 2 | 180.377 160.7563 133.6107 85.471 0.0 | (3)+ 1+,2+ 2- 3+ 1+ | |
| 386.593 4 | B E | (3 TO 6)- | < 0.8 ns | 160.489 6 248.742 3 | 8.6 11 100 2 | M1,E2 | 226.102 137.851 | (5,6,7)- 4- |
| 392.002 3 | B DE G | (1,2,3)+ | < 0.5 ns | 211.5 2 231.244 3 240.38 15 364.660 14 392.008 8 | <1.0 37.0 14 6 3 24 3 100 5 | M1,E2 | 180.377 160.7563 151.6420 27.3620 0.0 | (3)+ 1+,2+ (3)+ 2+ 1+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 416.281 3 | B DEFG | (2,3)+ | < 0.4 ns | 235.898 3 255.533 5 330.837 10 388.909 13 | 95 10 100 5 56 5 87 6 | M1,E2 | 180.377 160.7563 85.471 27.3620 | (3)+ 1+,2+ 3+ 2+ |
| 426.339 4 | B DE GH | + | < 0.5 ns | 205.412 3 265.610 16 398.93 8 | 85 5 27 4 100 16 | M1,E2 | 220.9260 160.7563 27.3620 | (1,2,3)+ 1+,2+ 2+ |
| 434.356 14 | E | 290.358 12 | 100 | 143.995 | (3)- | |||
| 435.510 4 | B DE | (2,3)- | < 0.6 ns | 58.86 6 90.43 20 291.513 11 301.897 5 | 3.8 4 2.5 6.0 5 100 2 | M1,E2 | 376.625 344.516 143.995 133.6107 | (4)- (2,3,4)+ (3)- 2- |
| 445.3 3 | G | |||||||
| 481.7 3 | A F | (7-) | 255.6 5 314.3 5 | 67 17 10E1 3 | 226.102 167.368 | (5,6,7)- (6)- | ||
| 485.422 9 | B DE | (LE 4) | < 1.4 ns | 93.25 8 264.494 10 325.20 15 458.074 23 | 5.6 8 52 5 21 9 100 11 | 392.002 220.9260 160.7563 27.3620 | (1,2,3)+ (1,2,3)+ 1+,2+ 2+ | |
| 518.456 4 | B DEF | (3,4)- | < 0.2 ns | 131.8646 23 224.093 4 283.963 10 374.455 21 380.8 8 | 25.1 19 100 3 29.0 14 45 5 9.9 12 | M1,E2 M1,E2 | 386.593 294.358 234.488 143.995 137.851 | (3 TO 6)- (5)- (5)- (3)- 4- |
| 521.081 15 | E | (4-,5-) | < 1.5 ns | 226.68 3 251.373 17 294.9 1 383.34 5 | 62 9 100 15 47 15 91 18 | 294.358 269.712 226.102 137.851 | (5)- (5,6,7)- (5,6,7)- 4- | |
| 529.965 18 | B EF | (3+) | 113.71 5 297.398 22 502.55 4 | 5.9 6 36 5 100 14 | 416.281 232.577 27.3620 | (2,3)+ 4+ 2+ | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 536.35 8 | D | |||||||
| 549.732 18 | DEF | (3+,4+) | 317.147 22 369.37 3 | 71 10 100 10 | 232.577 180.377 | 4+ (3)+ | ||
| 552.321 14 | A E | (8-) | < 1.0 ns | 282.609 12 | 100 | 269.712 | (5,6,7)- | |
| 554.430 6 | B DE | (2-,3,4-) | < 0.3 ns | 118.84 10 169.00 20 ? 177.803 7 416.554 13 420.843 10 | 1.79 18 5 4 6.0 9 48 3 100 6 | 435.510 385.446 376.625 137.851 133.6107 | (2,3)- 2+,3+ (4)- 4- 2- | |
| 582.21 10 | A F | (8-) | 312.5 1 | 100 | 269.712 | (5,6,7)- | ||
| 589.4 9 | F | |||||||
| 608.705 5 | B DEF | (3,4)- | < 0.6 ns | 173.192 6 222.088 12 314.350 5 374.223 9 | 22.8 22 15.0 18 96 8 100 10 | M1,E2 | 435.510 386.593 294.358 234.488 | (2,3)- (3 TO 6)- (5)- (5)- |
| 613.85 6 | B D F | 461.47 17 | 100 | 151.6420 | (3)+ | |||
| 629.7 4 | F | |||||||
| 639 2 | H | (1+) | ||||||
| 657.207 24 | DE | 424.74 3 ? 528.78 4 | 53 8 100 27 | 232.577 128.237 | 4+ (4)+ | |||
| 661.36 6 | D F | |||||||
| 676.69 9 | D F | |||||||
| 679.06 6 | B | 124.5 3 334.90 12 ? 383.20 16 457.9 2 518.2 1 | 7 4 22 11 50 14 24 5 100 22 | 554.430 344.516 295.667 220.9260 160.7563 | (2-,3,4-) (2,3,4)+ (2,3,4)+ (1,2,3)+ 1+,2+ | |||
| 687.050 5 | DE | (3,4)- | < 0.5 ns | 251.534 7 252.65 4 300.449 7 310.451 12 392.708 11 | 90 7 25 3 31 3 44 4 100 8 | M1,E2 | 435.510 434.356 386.593 376.625 294.358 | (2,3)- (3 TO 6)- (4)- (5)- |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 696.27 19 | A | (9-) | 411.0 1 | 100 | 285.24 | (8-) | ||
| 704.92 10 | B D F | 484.4 2 677.40 14 | 100 22 88 44 | 220.9260 27.3620 | (1,2,3)+ 2+ | |||
| 715.2 6 | E | (1-,2,3+) | 571.5 11 715.1 8 | 86 37 100 37 | 143.995 0.0 | (3)- 1+ | ||
| 724.2 5 | F | |||||||
| 728.184 19 | E | - | 207.102 11 | 100 | M1,E2 | 521.081 | (4-,5-) | |
| 735.46 8 | B | 502.88 8 | 100 | 232.577 | 4+ | |||
| 750.39 9 | B D F | (LE 4) | 590.20 17 723.2 2 | 100 36 89 36 | 160.7563 27.3620 | 1+,2+ 2+ | ||
| 768.36 15 | B F | (LE 4) | 634.75 15 | 100 | 133.6107 | 2- | ||
| 770.7 4 | D | |||||||
| 778.62 8 | B | 248.65 8 | 100 | 529.965 | (3+) | |||
| 787.96 17 | D F | |||||||
| 791.9 5 | D | |||||||
| 795.14 14 | B D F | 643.0 2 | 100 | 151.6420 | (3)+ | |||
| 821.41 6 | D | |||||||
| 825.1 7 | F | |||||||
| 828.30 4 | DEF | 596.4 5 647.4 3 | 47 16 100 32 | 232.577 180.377 | 4+ (3)+ | |||
| 834.61 14 | B | (LE 4) | 701.00 14 | 100 | 133.6107 | 2- | ||
| 840.00 4 | DE | (1-,2,3+) | 543.1 5 695.2 8 838.8 7 | 100 33 44 18 44 21 | 295.667 143.995 0.0 | (2,3,4)+ (3)- 1+ | ||
| 843.45 8 | E | (LE 4) | 662.2 7 707.9 8 | 22 11 100 33 | 180.377 133.6107 | (3)+ 2- | ||
| 844.63 15 | B D F | 290.20 15 | 100 | 554.430 | (2-,3,4-) | |||
| 849.20 4 | B D | (LE 4) | 432.55 20 715.40 8 | 100 33 | 416.281 133.6107 | (2,3)+ 2- | ||
| 856.8 8 | F | |||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 863.86 10 | D | |||||||
| 866.56 10 | B | 705.8 1 | 100 | 160.7563 | 1+,2+ | |||
| 867.16 10 | D F | |||||||
| 876.2 10 | F | |||||||
| 880.97 5 | D F | |||||||
| 885.2 3 | D | |||||||
| 910.88 19 | A F | (8-) | 429.1 5 641.2 5 743.5 3 | 50 14 59 18 100 14 | 481.7 269.712 167.368 | (7-) (5,6,7)- (6)- | ||
| 916.79 5 | B DE | (LE 4) | 783.4 1 | 100 | 133.6107 | 2- | ||
| 934.10 3 | B DE | (2-,3,4) | 325.37 12 498.6 3 557.42 9 788.8 | 22 9 100 17 4 | 608.705 435.510 376.625 143.995 | (3,4)- (2,3)- (4)- (3)- | ||
| 938.81 16 | D | |||||||
| 942.31 10 | E | (3-,4,5-) | 508.0 1 564.2 8 708.5 6 795.8 9 812.7 9 | 100 26 8 3 5.9 24 11 4 13 5 | 434.356 376.625 234.488 143.995 128.237 | (4)- (5)- (3)- (4)+ | ||
| 944.75 9 | D F | |||||||
| 957.1 7 | F | |||||||
| 973.64 22 | D | |||||||
| 983.8 3 | D F | |||||||
| 985.89 14 | D | |||||||
| 994.3 11 | F | |||||||
| 1006.65 14 | D F | |||||||
| 1013.1 4 | E | (2,3,4) | 834.6 9 868.7 4 | 15 8 100 23 | 180.377 143.995 | (3)+ (3)- | ||
| 1015.97 17 | D F | |||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1024.8 5 | E | (3-,4,5-) | 789.8 6 881.9 9 | 48 18 100 34 | 234.488 143.995 | (5)- (3)- | ||
| 1032.04 3 | B DE | (2+,3,4-) | 596.6 2 798.7 9 888.3 5 898.3 2 | 42 11 100 53 | 435.510 232.577 143.995 133.6107 | (2,3)- 4+ (3)- 2- | ||
| 1035.5 7 | F H | (2-) | ||||||
| 1041.69 19 | A | (10-) | 345.4 3 756.5 1 | 11.4 18 100 5 | 696.27 285.24 | (9-) (8-) | ||
| 1048.64 5 | B D F | (1,2,3+) | 613.5 2 1048.7 2 ? | 82 36 100 64 | 435.510 0.0 | (2,3)- 1+ | ||
| 1062.15 17 | DE | 976.5 8 | 100 | 85.471 | 3+ | |||
| 1064.8 5 | F | |||||||
| 1084.552 21 | DE | (LE 4) | 698.0 3 940.4 11 950.3 12 | 100 41 82 36 89 39 | 386.593 143.995 133.6107 | (3 TO 6)- (3)- 2- | ||
| 1091.88 8 | D F | |||||||
| 1100.082 21 | DEF | 803.3 8 867.7 5 955.3 8 | 37 14 94 31 100 33 | 295.667 232.577 143.995 | (2,3,4)+ 4+ (3)- | |||
| 1109.7 13 | F | |||||||
| 1117.7 6 | F | |||||||
| 1128.0 5 | E | 982.7 7 1102.4 8 | 100 33 67 31 | 143.995 27.3620 | (3)- 2+ | |||
| 1135.78 11 | D F | |||||||
| 1149.11 12 | D | |||||||
| 1150.0 3 | A F | (9-) | 239.0 5 567.9 5 | 67 17 ≤100 | 910.88 582.21 | (8-) (8-) | ||
| 1153 | H | (1+) | ||||||
| 1163.49 14 | DE | (LE 3) | 868.2 5 1165.6 8 | 100 30 56 33 | 295.667 0.0 | (2,3,4)+ 1+ | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1168.99 4 | D F | |||||||
| 1171.3 4 | E | 784.7 5 826.9 10 | 100 48 67 52 | 386.593 344.516 | (3 TO 6)- (2,3,4)+ | |||
| 1178.57 5 | D F | |||||||
| 1197.48 13 | D F | |||||||
| 1211.45 19 | E | 777.4 6 866.9 2 | 24 8 100 71 | 434.356 344.516 | (2,3,4)+ | |||
| 1218.6 3 | DEF | 2+,3,4+ | 986.3 8 1088.1 11 1189.6 9 | 45 20 100 39 75 34 | 232.577 128.237 27.3620 | 4+ (4)+ 2+ | ||
| 1222 2 | H | (1+) | ||||||
| 1226.5 4 | E | (3-,4-) | 930.0 8 992.4 8 1094.4 8 1140.3 7 | 72 30 36 11 100 34 79 36 | 295.667 234.488 133.6107 85.471 | (2,3,4)+ (5)- 2- 3+ | ||
| 1232.2 12 | F | |||||||
| 1242.1 13 | F | |||||||
| 1246.859 21 | DE | 2+,3,4- | 810.3 7 1014.7 6 1102.1 5 1113.4 5 | 39 14 20 8 64 17 100 29 | 435.510 232.577 143.995 133.6107 | (2,3)- 4+ (3)- 2- | ||
| 1251.513 21 | DEF | (2-,3,4-) | 814.9 7 863.8 3 1071.9 12 1110.9 7 1117.0 11 | 100 31 49 20 23 11 83 35 | 435.510 386.593 180.377 137.851 133.6107 | (2,3)- (3 TO 6)- (3)+ 4- 2- | ||
| 1252.5 8 | F | |||||||
| 1256.0 3 | DEF | 821.3 8 | 100 8 | 435.510 | (2,3)- | |||
| 1266.362 21 | DEF | (2-,3+) | 830.8 5 878.2 8 891.4 6 921.6 8 1122.2 4 1132.5 4 1268.5 9 | 26 9 13 7 34 10 9 7 100 20 65 15 16 9 | 435.510 386.593 376.625 344.516 143.995 133.6107 0.0 | (2,3)- (3 TO 6)- (4)- (2,3,4)+ (3)- 2- 1+ | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1275.44 6 | B DEF | (LE 4) | 837.6 7 1093.4 10 1141.6 6 | 47 16 19 9 100 27 | 435.510 180.377 133.6107 | (2,3)- (3)+ 2- | ||
| 1287.0 5 | A | (9-) | 704.8 5 | 100 | 582.21 | (8-) | ||
| 1291.2 16 | F | |||||||
| 1291.4 4 | A | (10-) | 709.1 5 | 100 | 582.21 | (8-) | ||
| 1291.47 21 | A | (10-) | 595.2 1 | 100 | 696.27 | (9-) | ||
| 1301.70 9 | DE | (2+,3,4-) | 863.6 7 1069.3 7 1157.5 9 1168.0 8 | 66 22 46 15 69 27 100 42 | 435.510 232.577 143.995 133.6107 | (2,3)- 4+ (3)- 2- | ||
| 1303.75 12 | D F | |||||||
| 1324.9 10 | F | |||||||
| 1330.16 4 | DE | (LE 4) | 1196.0 5 | 100 | 133.6107 | 2- | ||
| 1336.17 10 | D F | |||||||
| 1343.176 21 | DE | (3-,4,5) | 907.1 10 1048.1 4 1108.8 3 1204.2 8 | 15 7 100 22 45 13 28 11 | 435.510 295.667 234.488 137.851 | (2,3)- (2,3,4)+ (5)- 4- | ||
| 1347.1 5 | A D F | (9-) | 764.9 5 | 100 | 582.21 | (8-) | ||
| 1348.91 18 | F | |||||||
| 1360.11 16 | E | (3-,4-) | 927.4 10 975.4 4 1067.7 8 1127.8 3 1221.3 4 1225.9 3 | 19 8 29 12 31 12 67 20 100 20 100 27 | 434.356 385.446 294.358 232.577 137.851 133.6107 | 2+,3+ (5)- 4+ 4- 2- | ||
| 1362.576 21 | D F | |||||||
| 1370.1 6 | E | 933.5 7 1027.9 10 | 100 31 31 24 | 435.510 344.516 | (2,3)- (2,3,4)+ | |||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1373 2 | H | (1+) | ||||||
| 1382.91 6 | D F | |||||||
| 1391.87 7 | D F | |||||||
| 1404.0 13 | F | |||||||
| 1418.52 10 | D F | |||||||
| 1429.94 13 | D F | |||||||
| 1439.05 9 | D F H | (1+) | ||||||
| 1441.59 6 | DEF | 1006.3 6 1298.2 6 | 56 18 100 27 | 435.510 143.995 | (2,3)- (3)- | |||
| 1454.02 19 | A | (11-) | 412.3 1 757.7 1 | 100 5 26.8 13 | 1041.69 696.27 | (10-) (9-) | ||
| 1455.35 10 | DE | (LE 3) | 1427.3 8 1455.2 11 | 100 39 45 18 | 27.3620 0.0 | 2+ 1+ | ||
| 1460.96 19 | A F | (9+) | 550.1 3 764.7 1 1175.5 3 | 13.2 19 100 5 8.9 12 | 910.88 696.27 285.24 | (8-) (9-) (8-) | ||
| 1475.7 14 | F H | (1+) | ||||||
| 1486.83 3 | DEF | 1051.3 5 1342.1 10 | 100 31 63 27 | 435.510 143.995 | (2,3)- (3)- | |||
| 1498.7 5 | E | (LE 4) | 1112.7 8 1203.0 9 1471.9 8 | 44 22 100 41 88 37 | 385.446 295.667 27.3620 | 2+,3+ (2,3,4)+ 2+ | ||
| 1506.96 13 | DEF | 1161.7 9 | 100 | 344.516 | (2,3,4)+ | |||
| 1527.795 21 | DE | (2-,3,4-) | 1092.9 6 1140.9 7 1151.6 3 1393.1 7 | 37 11 16 8 100 21 100 29 | 435.510 386.593 376.625 133.6107 | (2,3)- (3 TO 6)- (4)- 2- | ||
| 1532.73 14 | DE | 2+,3,4- | 1299.2 10 1398.3 9 | 27 11 100 43 | 232.577 133.6107 | 4+ 2- | ||
| 1538.11 4 | DEF | 1101.7 10 1148.9 10 1161.2 9 1393.4 4 | 21 9 11 5 29 11 100 20 | 435.510 386.593 376.625 143.995 | (2,3)- (3 TO 6)- (4)- (3)- | |||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1542.1 6 | E | (LE 4) | 1107.6 10 1407.8 8 | 71 27 100 37 | 435.510 133.6107 | (2,3)- 2- | ||
| 1548 2 | H | (1+) | ||||||
| 1553.8 7 | E | 1409.8 7 | 100 | 143.995 | (3)- | |||
| 1559.9 6 | E | 1123.6 7 1418.3 12 | 100 35 88 40 | 435.510 143.995 | (2,3)- (3)- | |||
| 1562.27 20 | A | (10+) | 101.3 1 412.3 5 866.0 1 | 100 5 6.2 21 69 3 | M1 | 1460.96 1150.0 696.27 | (9+) (9-) (9-) | |
| 1565.8 8 | F | |||||||
| 1574.7 3 | DE | 1138.9 6 | 100 | 435.510 | (2,3)- | |||
| 1580.03 7 | D F | |||||||
| 1598.43 10 | D F | |||||||
| 1607 2 | H | (1+) | ||||||
| 1615.957 21 | D F | |||||||
| 1619.3 7 | E | 1242.6 11 1475.4 9 | 59 27 100 37 | 376.625 143.995 | (4)- (3)- | |||
| 1628.084 21 | DEF | (1,2,3) | 1191.5 5 1494.0 6 1599.7 5 | 68 21 100 30 64 22 | 435.510 133.6107 27.3620 | (2,3)- 2- 2+ | ||
| 1634.0 3 | E | 1199.6 5 1257.1 6 1287.8 5 | 100 29 71 22 38 27 | 434.356 376.625 346.3 | (4)- | |||
| 1651.05 23 | D F | |||||||
| 1664.5 6 | F | |||||||
| 1677.4 11 | F | |||||||
| ≈1684 | H | (1+) | ||||||
| 1691.67 13 | D F | |||||||
| 1702.24 17 | DEF | (3-,4,5-) | 1408.8 7 1559.0 12 | 100 35 67 29 | 294.358 143.995 | (5)- (3)- | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1715.74 11 | DEF | 1343.7 11 1368.2 11 1571.9 4 | 34 15 14 11 100 25 | 372.123 346.3 143.995 | (3)- | |||
| 1717.2 10 | F | |||||||
| 1724.2 6 | E | (3-,4,5-) | 1489.3 10 1580.5 8 | 35 17 100 33 | 234.488 143.995 | (5)- (3)- | ||
| 1729.69 3 | D F | |||||||
| 1734.054 21 | DE | (2,3,4) | 1297.2 5 1360.7 5 1437.9 7 1589.2 4 1646.6 8 | 52 14 36 9 25 9 100 19 21 10 | 435.510 372.123 295.667 143.995 85.471 | (2,3)- (2,3,4)+ (3)- 3+ | ||
| 1739.68 6 | DE | 1350.9 9 1595.6 6 | 21 10 100 30 | 386.593 143.995 | (3 TO 6)- (3)- | |||
| 1745.49 10 | DEF | 1359.4 9 | 100 | 386.593 | (3 TO 6)- | |||
| 1752.5 14 | F | |||||||
| 1761.07 7 | D F | |||||||
| 1772.8 4 | D F | |||||||
| 1782.98 4 | D F | |||||||
| 1793.28 11 | D F | |||||||
| 1803.8 7 | F | |||||||
| 1807.40 3 | DE | 1435.7 10 1511.1 6 1574.8 9 1721.4 6 | 42 17 100 29 27 12 71 30 | 372.123 295.667 232.577 85.471 | (2,3,4)+ 4+ 3+ | |||
| 1818.16 18 | D | |||||||
| 1820.4 10 | F | |||||||
| 1825.615 21 | DEF | 1529.2 7 1684.8 10 1741.8 9 | 100 34 72 31 66 33 | 295.667 137.851 85.471 | (2,3,4)+ 4- 3+ | |||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1836.7 9 | F | |||||||
| 1843.97 12 | D F | |||||||
| 1863.5 4 | D F | |||||||
| 1866.4 5 | E | (3-,4-) | 1494.0 11 1573.2 8 1731.7 8 | 46 20 71 25 100 35 | 372.123 294.358 133.6107 | (5)- 2- | ||
| 1873.6 3 | E | (2+,3,4-) | 1440.3 9 1488.8 8 1500.8 5 1641.6 8 1729.8 6 1738.3 10 | 32 13 17 8 58 15 19 8 100 25 75 33 | 434.356 385.446 372.123 232.577 143.995 133.6107 | 2+,3+ 4+ (3)- 2- | ||
| 1873.61 20 | A | (12-) | 419.5 1 832.0 1 | 98 5 100 5 | 1454.02 1041.69 | (11-) (10-) | ||
| 1875.96 12 | D F | |||||||
| 1886.4 4 | EF | 1450.0 7 1651.7 7 1748.8 12 1887.9 9 | 67 24 44 16 100 43 49 26 | 435.510 234.488 137.851 0.0 | (2,3)- (5)- 4- 1+ | |||
| 1893.6 8 | F | |||||||
| 1905.2 4 | DEF | 1469.2 10 1759.3 13 | 100 42 97 42 | 435.510 143.995 | (2,3)- (3)- | |||
| 1918.6 3 | D F | |||||||
| 1922.1 3 | DE | (LE 4) | 1533.0 9 1895.3 8 | 40 20 100 40 | 386.593 27.3620 | (3 TO 6)- 2+ | ||
| 1933.08 7 | D F | |||||||
| 1941.2 2 | H | (1+) | ||||||
| 1943.06 24 | DE | 1507.3 9 | 100 | 435.510 | (2,3)- | |||
| 1947.00 3 | D F | |||||||
| 1964.97 21 | A | (11+) | 402.7 1 | 100 | 1562.27 | (10+) | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1971.81 19 | D F | |||||||
| 1983.85 24 | DEF | (LE 3) | 1983.3 8 | 100 | 0.0 | 1+ | ||
| 1985.0 9 | F | |||||||
| 1987.7 3 | D | |||||||
| 1991.17 21 | A | (11+) | 428.9 1 | 100 | 1562.27 | (10+) | ||
| 1994.8 9 | F | |||||||
| 2004.1 9 | F | |||||||
| 2013.0 4 | DE | 1832.8 8 | 100 | 180.377 | (3)+ | |||
| 2025.4 8 | F | |||||||
| 2037.60 10 | D F | |||||||
| 2050.86 12 | D F H | (1+) | ||||||
| 2067.18 4 | D F | |||||||
| 2069.95 4 | DEF | 1727.8 9 1983.5 10 | 50 38 100 50 | 344.516 85.471 | (2,3,4)+ 3+ | |||
| 2082.34 9 | D F | |||||||
| 2107 2 | H | (1+) | ||||||
| 2111.4 3 | A | (12-) | 238.0 5 657.4 5 820.0 5 1069.7 3 | 8 4 17 4 29 8 100 17 | 1873.61 1454.02 1291.4 1041.69 | (12-) (11-) (10-) (10-) | ||
| 2115.49 4 | D F | |||||||
| 2130.42 22 | D F | |||||||
| 2143.74 18 | DEF | 1,2,3 | 2144.1 11 | 100 | 0.0 | 1+ | ||
| 2150.46 18 | D F | |||||||
| 2161.96 14 | DE | 1726.5 11 1816.9 8 | 100 45 61 45 | 435.510 344.516 | (2,3)- (2,3,4)+ | |||
| 2166.59 10 | D F | |||||||
| 2175 2 | H | (1+) | ||||||
| 2185.97 22 | A | (12+) | 194.8 1 221.0 1 | 51 3 100 5 | 1991.17 1964.97 | (11+) (11+) | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 2187.64 8 | DE | 1842.6 9 2005.8 9 | 85 60 100 45 | 344.516 180.377 | (2,3,4)+ (3)+ | |||
| 2191.31 10 | D F | |||||||
| 2204.67 10 | DEF | (LE 4) | 2177.6 11 | 100 | 27.3620 | 2+ | ||
| 2206.66 9 | D F | |||||||
| 2229 2 | H | (1+) | ||||||
| 2302.97 22 | A | (12+) | 740.7 1 | 100 | 1562.27 | (10+) | ||
| 2320.61 4 | DE | (LE 4) | 1948.3 9 2186.3 8 | 44 16 100 38 | 372.123 133.6107 | 2- | ||
| 2338 2 | H | (1+) | ||||||
| 2341.32 21 | A | (13-) | 229.9 5 887.3 1 | 18 6 100 5 | 2111.4 1454.02 | (12-) (11-) | ||
| 2380.3 5 | A | (13+) | 415.3 5 | 100 | 1964.97 | (11+) | ||
| 2415 2 | H | (1+) | ||||||
| 2425.4 8 | E | 2280.7 12 2292.3 11 | 82 36 100 39 | 143.995 133.6107 | (3)- 2- | |||
| 2432.7 5 | E | (2-,3,4+) | 2055.3 9 2288.5 7 2407.1 12 | 46 18 100 27 33 16 | 376.625 143.995 27.3620 | (4)- (3)- 2+ | ||
| 2437.88 24 | A | (13+) | 251.9 1 473.0 5 | 100 5 12 3 | 2185.97 1964.97 | (12+) (11+) | ||
| 2454.0 5 | E | (3-,4,5-) | 2067.0 7 2226.2 11 2311.6 9 | 43 21 33 15 100 39 | 386.593 226.102 143.995 | (3 TO 6)- (5,6,7)- (3)- | ||
| 2477 2 | H | (1+) | ||||||
| 2480.5 5 | A | (12+) | 515.5 5 | 100 | 1964.97 | (11+) | ||
| 2520.9 5 | A | (12+) | 555.9 5 | 100 | 1964.97 | (11+) | ||
| 2567.0 7 | E | (LE 4) | 2421.3 13 2434.0 8 | 67 29 100 43 | 143.995 133.6107 | (3)- 2- | ||
| 2573 2 | H | (1+) | ||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 2575.7 3 | A | (13-) | 702.1 3 | 100 | 1873.61 | (12-) | ||
| 2584.8 6 | E | 2+,3,4- | 2351.6 10 2450.9 11 2500.1 10 | 36 17 100 43 70 36 | 232.577 133.6107 85.471 | 4+ 2- 3+ | ||
| 2640.8 6 | E | 2206.6 7 2344.8 10 | 100 38 56 23 | 434.356 295.667 | (2,3,4)+ | |||
| 2661.7 4 | A | (13+) | 475.7 3 | 100 | 2185.97 | (12+) | ||
| 2665.0 3 | A | (14+) | 227.1 1 479.0 5 | 100 5 19 5 | 2437.88 2185.97 | (13+) (12+) | ||
| 2684.4 6 | E | (2+,3,4+) | 2451.9 11 2656.9 8 | 41 20 100 39 | 232.577 27.3620 | 4+ 2+ | ||
| 2691.8 3 | A | (13+) | 388.8 3 | 100 | 2302.97 | (12+) | ||
| 2714.3 5 | A | (13+) | 528.3 5 | 100 | 2185.97 | (12+) | ||
| 2717 2 | H | (1+) | ||||||
| 2721.0 5 | E | (3-,4-) | 2284.9 11 2484.3 9 2589.0 7 | 30 13 22 9 100 27 | 435.510 234.488 133.6107 | (2,3)- (5)- 2- | ||
| 2737.2 5 | E | 2392.4 6 2600.4 11 | 56 40 100 45 | 344.516 137.851 | (2,3,4)+ 4- | |||
| 2779 2 | H | (1+) | ||||||
| 2789.2 3 | A | (14-) | 447.9 3 915.6 3 | 100 13 83 13 | 2341.32 1873.61 | (13-) (12-) | ||
| 2847.89 20 | E | 2503.4 2 2550.7 11 | 100 69 24 10 | 344.516 295.667 | (2,3,4)+ (2,3,4)+ | |||
| 2856 2 | H | (1+) | ||||||
| 2900.4 5 | E | (2-,3+) | 2523.5 9 2758.5 9 2898.8 8 | 75 25 100 38 91 42 | 376.625 143.995 0.0 | (4)- (3)- 1+ | ||
| 2904 2 | H | (1+) | ||||||
| 2950.78 20 | E | 2515.2 2 2867.0 12 | 100 25 11 6 | 435.510 85.471 | (2,3)- 3+ | |||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 2953.4 3 | A | (14+) | 261.6 5 650.5 3 | 14 5 100 14 | 2691.8 2302.97 | (13+) (12+) | ||
| 3001.0 8 | E | 2567.3 10 2819.6 12 | 100 43 63 30 | 434.356 180.377 | (3)+ | |||
| 3009.3 6 | A | (14+) | 347.6 5 | 100 | 2661.7 | (13+) | ||
| 3076.7 6 | E | (1-,2,3+) | 2733.6 12 2893.5 8 2932.1 11 3076.2 11 | 33 25 58 25 100 40 73 38 | 344.516 183.0 143.995 0.0 | (2,3,4)+ (7-) (3)- 1+ | ||
| 3115.7 4 | A | (14-) | 540.0 5 1242.0 5 | 45 18 10E1 3 | 2575.7 1873.61 | (13-) (12-) | ||
| 3152.5 4 | A | (15+) | 199.1 5 487.5 5 | 50 13 10E1 3 | 2953.4 2665.0 | (14+) (14+) | ||
| 3158.0 4 | A | (15+) | 493.0 3 | 100 | 2665.0 | (14+) | ||
| 3158.8 4 | A | (15-) | 369.5 5 817.6 5 | 57 14 10E1 3 | 2789.2 2341.32 | (14-) (13-) | ||
| 3182.7 5 | E | 3037.9 6 3098.8 9 | 100 29 53 24 | 143.995 85.471 | (3)- 3+ | |||
| 3309.3 5 | A | (15-) | 968.0 5 | 100 | 2341.32 | (13-) | ||
| 3555.9 5 | A | (16-) | 246.6 5 397.1 5 | 30 10 10E1 3 | 3309.3 3158.8 | (15-) (15-) | ||
| 3559.3 6 | A | (16+) | 894.3 5 | 100 | 2665.0 | (14+) | ||
| 3621.5 5 | A | (16+) | 463.5 5 469.0 5 | 29 14 10E1 3 | 3158.0 3152.5 | (15+) (15+) | ||
| 3794.3 5 | E | (0,1,2,3+) | 3498.6 8 3660.9 10 3794.0 9 | 66 21 100 38 63 30 | 295.667 133.6107 0.0 | (2,3,4)+ 2- 1+ | ||
| 3802.6 4 | E | 3366.9 4 3623.4 12 | 100 33 19 10 | 435.510 180.377 | (2,3)- (3)+ | |||
| 3834.4 8 | E | (2,3,4) | 3655.2 12 3689.3 11 | 46 24 100 44 | 180.377 143.995 | (3)+ (3)- | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 3846.8 3 | E | 3411.1 7 3502.7 4 3700.6 9 | 93 30 100 67 98 33 | 435.510 344.516 143.995 | (2,3)- (2,3,4)+ (3)- | |||
| 3862.8 6 | E | (3,4,5-) | 3485.1 10 3630.7 8 3719.0 13 | 100 36 60 21 95 40 | 376.625 232.577 143.995 | (4)- 4+ (3)- | ||
| 3991.6 7 | E | (3,4,5-) | 3760.2 12 3847.0 11 3853.1 11 | 28 14 88 33 100 44 | 232.577 143.995 137.851 | 4+ (3)- 4- | ||
| 4150.8 7 | E | (LE 4) | 3967.9 10 4017.0 8 | 28 13 100 38 | 183.0 133.6107 | (7-) 2- | ||
| 6826.076 50 | C | (2+) | ||||||
| 6826.087 50 | C | (3+) | ||||||
| 6826.137 50 | C | (1-) | ||||||
| 6826.140 50 | C | (1-) | ||||||
| 6826.144 50 | C | (2-) | ||||||
| 6826.150 50 | C | (2+) | ||||||
| 6826.154 50 | C | (1-) | ||||||
| 6826.161 7 | CD | 2+,3+ | 4505.46 4 4619.41 9 ? 4621.40 10 4634.76 10 4638.42 8 4659.48 10 4664.09 14 4675.61 18 4682.34 18 4695.65 22 4710.58 4 4743.73 9 4756.12 4 4758.89 4 4775.21 12 4788.46 10 4813.1 5 4838.40 25 4842.16 25 4854.25 19 4879.06 3 4882.98 25 4892.98 7 4903.6 4 4907.5 3 4920.6 4 4950.10 12 4962.6 4 4982.09 12 5000.44 2 5007.90 18 5018.65 3 5032.77 11 5043.07 4 5053.3 4 5064.98 7 5080.57 10 5086.36 6 5091.99 2 5096.36 3 5110.31 12 5123.89 18 5134.38 13 5175.00 23 5197.96 2 5210.09 2 5227.62 10 5246.02 7 5251.2 4 5287.92 4 5293.28 14 5298.25 2 5319.07 13 5339.21 3 5370.68 10 5384.46 6 5386.99 9 5396.10 13 5407.52 10 5434.17 7 5443.13 6 5463.46 2 5477.12 18 5482.86 2 5489.86 10 5495.87 4 5522.28 12 5524.29 9 5550.57 6 5559.67 2 5570.1 3 5574.51 2 5579.17 2 5607.1 3 5628.55 13 5647.46 5 5657.04 4 5662.65 15 5676.92 12 5690.24 11 5725.94 2 5734.14 8 5741.47 2 5763.86 17 5777.41 5 5793.98 3 5810.05 17 5819.37 14 5840.13 14 5842.2 3 ? 5852.38 22 ? 5881.27 9 5887.21 16 ? 5891.91 3 5909.30 6 5940.8 3 ? 5945.04 5 5958.85 10 5962.15 10 ? 5976.71 5 5982.53 8 5986.00 4 5997.70 4 6004.60 6 ? 6030.42 19 6034.1 5 ? 6038.05 17 6055.3 4 ? 6076.03 13 6121.14 17 6139.01 8 6149.31 9 6164.64 6 6169.6 4 6212.06 6 6217.49 12 6271.59 2 6276.32 19 6289.64 8 ? 6307.53 2 6340.70 17 6390.51 2 6399.1 3 6410.04 16 6434.05 6 6440.72 6 6449.29 3 6453.66 6 6479.8 8 ? 6481.76 19 6530.44 14 6593.8 4 6605.4 4 6645.61 2 6665.24 5 6674.53 9 6681.98 2 6688.05 4 6692.36 2 6697.73 4 6740.46 5 6798.68 6 6826.00 9 | 15 1 8.2 6 6.7 5 5.9 5 7.4 4 10.2 6 5.1 4 4.2 6 3.3 4 2.2 6 16.3 8 5.6 4 11.3 6 13.3 7 4.00 22 8.0 6 0.55 22 7.55 10 4.22 10 3.1 3 18.2 8 2.22 22 21.1 11 2.4 3 5.9 6 4.0 4 50.1 21 1.44 22 5.3 4 27.6 11 1.00 11 28.1 12 4.7 3 14.5 7 1.33 22 6.7 3 1.44 11 4.2 3 43.2 18 29.6 12 9.9 6 2.1 3 4.22 22 1.55 22 92 4 25.2 10 5.3 3 5.9 3 12 2 110 5 21 8 444 18 29 2 185 8 44 3 122 6 56 3 30 2 54 5 46 3 66 3 430 18 15 1 411 17 46 2 111 5 67 5 124 7 61 3 901 37 10 1 485 20 256 11 13 1 23 2 70 3 84 4 22 1 27 1 26 1 474 19 41 3 222 9 17 1 66 3 166 7 11 1 22 2 54 4 16 2 14 1 33 2 18 1 155 7 58 3 8 2 74 4 35 2 31 2 73 4 59 3 128 5 105 5 58 3 13 1 4 1 13 2 8 1 22 1 15 1 43 3 37 2 61 3 6 1 52 3 27 2 207 9 19 2 44 2 576 23 17 1 271 11 11 1 16 1 47 2 64 3 132 6 59 3 5 1 51 4 19 1 7 1 9 1 185 8 53 3 25 1 227 9 107 5 507 21 126 5 72 8 38 2 21 2 | 2320.61 2206.66 2204.67 2191.31 2187.64 2166.59 2161.96 2150.46 2143.74 2130.42 2115.49 2082.34 2069.95 2067.18 2050.86 2037.60 2013.0 1987.7 1983.85 1971.81 1947.00 1943.06 1933.08 1922.1 1918.6 1905.2 1875.96 1863.5 1843.97 1825.615 1818.16 1807.40 1793.28 1782.98 1772.8 1761.07 1745.49 1739.68 1734.054 1729.69 1715.74 1702.24 1691.67 1651.05 1628.084 1615.957 1598.43 1580.03 1574.7 1538.11 1532.73 1527.795 1506.96 1486.83 1455.35 1441.59 1439.05 1429.94 1418.52 1391.87 1382.91 1362.576 1348.91 1343.176 1336.17 1330.16 1303.75 1301.70 1275.44 1266.362 1256.0 1251.513 1246.859 1218.6 1197.48 1178.57 1168.99 1163.49 1149.11 1135.78 1100.082 1091.88 1084.552 1062.15 1048.64 1032.04 1015.97 1006.65 985.89 983.8 973.64 944.75 938.81 934.10 916.79 885.2 880.97 867.16 863.86 849.20 843.45 840.00 828.30 821.41 795.14 791.9 787.96 770.7 750.39 704.92 687.050 676.69 661.36 657.207 613.85 608.705 554.430 549.732 536.35 518.456 485.422 435.510 426.339 416.281 392.002 385.446 376.625 372.123 346.3 344.516 295.667 232.577 220.9260 180.377 160.7563 151.6420 143.995 137.851 133.6107 128.237 85.471 27.3620 0.0 | (LE 4) (LE 4) 1,2,3 (1+) (LE 3) (LE 4) (2,3,4) (3-,4,5-) (1,2,3) 2+,3,4- (2-,3,4-) (LE 3) (1+) (3-,4,5) (LE 4) (2+,3,4-) (LE 4) (2-,3+) (2-,3,4-) 2+,3,4- 2+,3,4+ (LE 3) (LE 4) (1,2,3+) (2+,3,4-) (2-,3,4) (LE 4) (LE 4) (LE 4) (1-,2,3+) (LE 4) (3,4)- (3,4)- (2-,3,4-) (3+,4+) (3,4)- (LE 4) (2,3)- + (2,3)+ (1,2,3)+ 2+,3+ (4)- (2,3,4)+ (2,3,4)+ 4+ (1,2,3)+ (3)+ 1+,2+ (3)+ (3)- 4- 2- (4)+ 3+ 2+ 1+ | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 6826.167 50 | C | (3+) | ||||||
| 6826.169 50 | C | (3-) | ||||||
| 6826.175 50 | C | (2+) | ||||||
| 6826.183 50 | C | (4-) | ||||||
| 6826.194 50 | C | (1-) | ||||||
| 6826.195 50 | C | (2+) | ||||||
| 6826.208 50 | C | (3+) | ||||||
| 6826.215 50 | C | (3-) | ||||||
| 6826.220 50 | C | (3+) | ||||||
| 6826.230 50 | C | (4-) | ||||||
| 6826.247 50 | C | (2-) | ||||||
| 6826.263 50 | C | (3-) | ||||||
| 6826.266 50 | C | (1-) | ||||||
| 6826.268 50 | C | (3+) | ||||||
| 6826.275 50 | C | (4-) | ||||||
| 6826.283 50 | C | (2-) | ||||||
| 6826.288 50 | C | (3-) | ||||||
| 6826.296 50 | C | (3+) | ||||||
| 6826.297 50 | C | (2+) | ||||||
| 6826.303 50 | C | (2+) | ||||||
| 6826.307 50 | C | (3+) | ||||||
| 6826.324 50 | C | (3+) | ||||||
| 6826.330 50 | C | (4-) | ||||||
| 6826.335 50 | C | (2+) | ||||||
| 6826.352 50 | C | (2-) | ||||||
| 6826.355 50 | C | (3-) | ||||||
| 6826.365 50 | C | (2+) | ||||||
| 6826.373 50 | C | (3+) | ||||||
| 6826.385 50 | C | (4-) | ||||||
| 6826.393 50 | C | (3+) | ||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 6826.399 50 | C | (3+) | ||||||
| 6826.402 50 | C | (3-) | ||||||
| 6826.410 50 | C | (2-) | ||||||
| 6826.420 50 | C | (1-) | ||||||
| 6826.427 50 | C | (2+) | ||||||
| 6826.434 50 | C | (4-) | ||||||
| 6826.438 50 | C | (2+) | ||||||
| 6826.442 50 | C | (3-) | ||||||
| 6826.452 50 | C | (2+) | ||||||
| 6826.453 50 | C | (2+) | ||||||
| 6826.456 50 | C | (3+) | ||||||
| 6826.474 50 | C | (4-) | ||||||
| 6826.479 50 | C | (2-) | ||||||
| 6826.481 50 | C | (1-) | ||||||
| 6826.490 50 | C | (2+) | ||||||
| 6826.502 50 | C | (2+) | ||||||
| 6826.509 50 | C | (3-) | ||||||
| 6826.513 50 | C | (2+) | ||||||
| 6826.519 50 | C | (4-) | ||||||
| 6826.520 50 | C | (2-) | ||||||
| 6826.540 50 | C | (1-) | ||||||
| 6826.547 50 | C | (3+) | ||||||
| 6826.549 50 | C | (3-) | ||||||
| 6826.554 50 | C | (2+) | ||||||
| 6826.558 50 | C | (4-) | ||||||
| 6826.562 50 | C | (3+) | ||||||
| 6826.567 50 | C | (2-) | ||||||
| 6826.575 50 | C | (2+) | ||||||
| 6826.581 50 | C | (3+) | ||||||
| 6826.585 50 | C | (1-) | ||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 6826.595 50 | C | (3-) | ||||||
| 6826.602 50 | C | (2+) | ||||||
| 6826.606 50 | C | (2+) | ||||||
| 6826.625 50 | C | (2+) | ||||||
| 6826.641 50 | C | (2+) | ||||||
| 6826.644 50 | C | (3+) | ||||||
| 6826.659 50 | C | (3+) | ||||||
| 6826.672 50 | C | (4-) | ||||||
| 6826.676 50 | C | (2+) | ||||||
| 6826.689 50 | C | (3-) | ||||||
| 6826.691 50 | C | (3+) | ||||||
| 6826.695 50 | C | (2+) | ||||||
| 6826.704 50 | C | (2-) | ||||||
| 6826.710 50 | C | (2+) | ||||||
| 6826.714 50 | C | (4-) | ||||||
| 6826.722 50 | C | (1-) | ||||||
| 6826.744 50 | C | (3+) | ||||||
| 6826.749 50 | C | (3-) | ||||||
| 6826.758 50 | C | (3+) | ||||||
| 6826.761 50 | C | (4-) | ||||||
| 6826.769 50 | C | (2-) | ||||||
| 6826.770 50 | C | (2+) | ||||||
| 6826.772 50 | C | (1-) | ||||||
| 6826.784 50 | C | (3+) | ||||||
| 6826.787 50 | C | (3-) | ||||||
| 6826.794 50 | C | (2+) | ||||||
| 6826.815 50 | C | (3+) | ||||||
| 6826.827 50 | C | (3+) | ||||||
| 6826.833 50 | C | (2+) | ||||||
| 6826.833 50 | C | (3+) | ||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 6826.838 50 | C | (4-) | ||||||
| 6826.851 50 | C | (2-) | ||||||
| 6826.855 50 | C | (2+) | ||||||
| 6826.859 50 | C | (3-) | ||||||
| 6826.869 50 | C | (3+) | ||||||
| 6826.882 50 | C | (4-) | ||||||
| 6826.887 50 | C | (2+) | ||||||
| 6826.891 50 | C | (1-) | ||||||
| 6826.896 50 | C | (2-) | ||||||
| 6826.901 50 | C | (3-) | ||||||
| 6826.904 50 | C | (3+) | ||||||
| 6826.914 50 | C | (3+) | ||||||
| 6826.920 50 | C | (4-) | ||||||
| 6826.929 50 | C | (1-) | ||||||
| 6826.937 50 | C | (2+) | ||||||
| 6826.942 50 | C | (2-) | ||||||
| 6826.952 50 | C | (3+) | ||||||
| 6826.958 50 | C | (3+) | ||||||
| 6826.963 50 | C | (4-) | ||||||
| 6826.986 50 | C | (3+) | ||||||
| 6826.991 50 | C | (3-) | ||||||
| 6827.014 50 | C | (2+) | ||||||
| 6827.021 50 | C | (4-) | ||||||
| 6827.025 50 | C | (2+) | ||||||
| 6827.038 50 | C | (3+) | ||||||
| 6827.041 50 | C | (3-) | ||||||
| 6827.043 50 | C | (2-) | ||||||
| 6827.048 50 | C | (1-) | ||||||
| 6827.051 50 | C | (4-) | ||||||
| 6827.066 50 | C | (3+) | ||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 6827.078 50 | C | (3+) | ||||||
| 6827.084 50 | C | (3+) | ||||||
| 6827.089 50 | C | (4-) | ||||||
| 6827.092 50 | C | (3-) | ||||||
| 6827.095 50 | C | (2-) | ||||||
| 6827.110 50 | C | (1-) | ||||||
| 6827.126 50 | C | (4-) | ||||||
| 11948 2 | H | (0+) | ||||||
| ≈14E3 | H | |||||||
| ≈22E3 | H | |||||||
T1/2(level): From γγ(t) in 127I(n,γ) E=thermal:secondary, unless otherwise noted.
M(γ): From α(exp) data based on relative Iγ and Ice data in 127I(n,γ) E=thermal:secondary.
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 27.3620 | 2+ | 27.362 5 | M1 | 4.64 | α=4.64, α(L)=3.72 6, α(M)=0.750 11, α(N)=0.1517 22, α(O)=0.01767 25 | ||
| 85.471 | 3+ | 58.107 4 | M1 | 3.57 | α=3.57, α(K)=3.07 5, α(L)=0.404 6, α(M)=0.0815 12, α(N)=0.01648 23, α(O)=0.00192 3 | ||
| 128.237 | (4)+ | 42.766 6 | M1 | 8.73 | α=8.73, α(K)=7.49 11, α(L)=0.994 14, α(M)=0.200 3, α(N)=0.0405 6, α(O)=0.00472 7 | ||
| 133.6107 | 2- | 12.3 ns 5 | 48.148 7 | E1 | 1.531 | B(E1)(W.u.)=1.54E-6 10, α=1.531, α(K)=1.298 19, α(L)=0.188 3, α(M)=0.0376 6, α(N)=0.00737 11, α(O)=0.000778 11 | |
| 2- | 12.3 ns 5 | 106.2486 7 | E1 | 0.1721 | B(E1)(W.u.)=7.5E-7 6, α=0.1721, α(K)=0.1480 21, α(L)=0.0193 3, α(M)=0.00386 6, α(N)=0.000769 11, α(O)=8.55E-5 12 | ||
| 2- | 12.3 ns 5 | 133.6106 11 | E1 | 0.0905 | B(E1)(W.u.)=7.8E-6 5, α=0.0905, α(K)=0.0780 11, α(L)=0.01003 14, α(M)=0.00201 3, α(N)=0.000401 6, α(O)=4.50E-5 7 | ||
| 137.851 | 4- | 0.845 µs 20 | 52.378 5 | E1 | 1.220 | B(E1)(W.u.)=9.9E-7 3, α=1.220, α(K)=1.036 15, α(L)=0.1475 21, α(M)=0.0295 5, α(N)=0.00580 9, α(O)=0.000616 9 | |
| 151.6420 | (3)+ | < 0.7 ns | 66.198 18 | B(M1)(W.u.)>0.0017 | |||
| (3)+ | < 0.7 ns | 124.2804 19 | M1 | 0.405 | B(M1)(W.u.)>0.011, α=0.405, α(K)=0.348 5, α(L)=0.0454 7, α(M)=0.00915 13, α(N)=0.00185 3, α(O)=0.000217 3 | ||
| 160.7563 | 1+,2+ | < 0.7 ns | 133.3954 17 | M1 | 0.332 | B(M1)(W.u.)>0.0026, α=0.332, α(K)=0.286 4, α(L)=0.0372 6, α(M)=0.00750 11, α(N)=0.001517 22, α(O)=0.0001777 25 | |
| 1+,2+ | < 0.7 ns | 160.7560 12 | M1 | 0.198 | B(M1)(W.u.)>0.0046, α=0.198, α(K)=0.1705 24, α(L)=0.0221 3, α(M)=0.00445 7, α(N)=0.000902 13, α(O)=0.0001057 15 | ||
| 167.368 | (6)- | 175 ns 15 | 29.512 5 | (E2) | 175.0 | B(E2)(W.u.)=21.4 19, α=175.0, α(L)=139.2 20, α(M)=29.8 5, α(N)=5.64 8, α(O)=0.482 7 | |
| 180.377 | (3)+ | < 1.7 ns | 19.58 4 | (M1+E2) | 7.E2 | B(M1)(W.u.)>0.0095, α=7.E2 7, α(L)=5.E2 6, α(M)=1.1E2 12, α(N)=22 22, α(O)=1.9 18 | |
| (3)+ | < 1.7 ns | 94.901 10 | M1 | 0.868 | B(M1)(W.u.)>0.00011, α=0.868, α(K)=0.746 11, α(L)=0.0977 14, α(M)=0.0197 3, α(N)=0.00399 6, α(O)=0.000466 7 | ||
| (3)+ | < 1.7 ns | 153.011 3 | M1 | 0.227 | B(M1)(W.u.)>0.00051, α=0.227, α(K)=0.195 3, α(L)=0.0254 4, α(M)=0.00511 8, α(N)=0.001034 15, α(O)=0.0001212 17 | ||
| 220.9260 | (1,2,3)+ | < 0.7 ns | 193.5634 22 | M1,E2 | 0.15 | α=0.15 3, α(K)=0.120 18, α(L)=0.021 8, α(M)=0.0043 17, α(N)=0.0008 3, α(O)=9.E-5 3 | |
| 226.102 | (5,6,7)- | 58.74 3 | M1 | 3.46 | α=3.46, α(K)=2.97 5, α(L)=0.392 6, α(M)=0.0790 12, α(N)=0.01597 23, α(O)=0.00186 3 | ||
| 232.577 | 4+ | < 1.7 ns | 80.952 7 | B(M1)(W.u.)>0.0019 | |||
| 4+ | < 1.7 ns | 104.366 15 | B(M1)(W.u.)>0.00050 | ||||
| 4+ | < 1.7 ns | 147.104 3 | M1 | 0.253 | B(M1)(W.u.)>0.0027, α=0.253, α(K)=0.218 3, α(L)=0.0283 4, α(M)=0.00570 8, α(N)=0.001154 17, α(O)=0.0001352 19 | ||
| 234.488 | (5)- | 67.118 4 | M1 | 2.35 | α=2.35, α(K)=2.02 3, α(L)=0.266 4, α(M)=0.0535 8, α(N)=0.01083 16, α(O)=0.001264 18 | ||
| (5)- | 96.639 4 | M1 | 0.824 | α=0.824, α(K)=0.708 10, α(L)=0.0928 13, α(M)=0.0187 3, α(N)=0.00378 6, α(O)=0.000442 7 | |||
| 269.712 | (5,6,7)- | 102.344 5 | M1 | 0.700 | α=0.700, α(K)=0.602 9, α(L)=0.0788 11, α(M)=0.01587 23, α(N)=0.00321 5, α(O)=0.000376 6 | ||
| 294.358 | (5)- | 126.988 5 | M1 | 0.381 | α=0.381, α(K)=0.328 5, α(L)=0.0427 6, α(M)=0.00861 12, α(N)=0.001743 25, α(O)=0.000204 3 | ||
| (5)- | 156.506 3 | M1 | 0.213 | α=0.213, α(K)=0.184 3, α(L)=0.0238 4, α(M)=0.00480 7, α(N)=0.000971 14, α(O)=0.0001138 16 | |||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 295.667 | (2,3,4)+ | < 0.8 ns | 144.024 3 | M1 | 0.268 | B(M1)(W.u.)>0.0013, α=0.268, α(K)=0.231 4, α(L)=0.0300 5, α(M)=0.00605 9, α(N)=0.001224 18, α(O)=0.0001434 20 | |
| (2,3,4)+ | < 0.8 ns | 268.309 6 | M1,E2 | 0.054 | α=0.054 4, α(K)=0.0453 23, α(L)=0.0069 14, α(M)=0.0014 3, α(N)=0.00028 6, α(O)=3.1×10-5 5 | ||
| 344.516 | (2,3,4)+ | < 1.2 ns | 164.1390 23 | M1+E2 | 0.8 8 | 0.23 | B(M1)(W.u.)>0.00020, α=0.23 5, α(K)=0.19 3, α(L)=0.034 14, α(M)=0.007 3, α(N)=0.0014 6, α(O)=0.00015 5 |
| (2,3,4)+ | < 1.2 ns | 259.038 8 | M1,E2 | 0.060 | α=0.060 6, α(K)=0.050 3, α(L)=0.0077 17, α(M)=0.0016 4, α(N)=0.00031 7, α(O)=3.5×10-5 6 | ||
| 376.625 | (4)- | < 5 ns | 142.1371 15 | M1 | 0.278 | B(M1)(W.u.)>0.0011, α=0.278, α(K)=0.240 4, α(L)=0.0311 5, α(M)=0.00627 9, α(N)=0.001270 18, α(O)=0.0001488 21 | |
| (4)- | < 5 ns | 232.632 17 | B(M1)(W.u.)>1.7×10-5 | ||||
| 386.593 | (3 TO 6)- | < 0.8 ns | 248.742 3 | M1,E2 | 0.068 | α=0.068 7, α(K)=0.057 4, α(L)=0.0088 21, α(M)=0.0018 5, α(N)=0.00036 9, α(O)=3.9×10-5 8 | |
| 392.002 | (1,2,3)+ | < 0.5 ns | 231.244 3 | M1,E2 | 0.084 | α=0.084 11, α(K)=0.070 7, α(L)=0.011 3, α(M)=0.0023 7, α(N)=0.00046 13, α(O)=5.0×10-5 11 | |
| 416.281 | (2,3)+ | < 0.4 ns | 255.533 5 | M1,E2 | 0.062 | α=0.062 6, α(K)=0.052 4, α(L)=0.0081 19, α(M)=0.0016 4, α(N)=0.00033 8, α(O)=3.6×10-5 7 | |
| 426.339 | + | < 0.5 ns | 205.412 3 | M1,E2 | 0.122 | α=0.122 21, α(K)=0.101 13, α(L)=0.017 6, α(M)=0.0035 12, α(N)=0.00069 23, α(O)=7.4×10-5 21 | |
| 435.510 | (2,3)- | < 0.6 ns | 301.897 5 | M1,E2 | 0.0380 | α=0.0380 15, α(K)=0.0322 7, α(L)=0.0047 7, α(M)=0.00096 15, α(N)=0.00019 3, α(O)=2.14×10-5 22 | |
| 518.456 | (3,4)- | < 0.2 ns | 224.093 4 | M1,E2 | 0.093 | α=0.093 13, α(K)=0.077 8, α(L)=0.013 4, α(M)=0.0026 8, α(N)=0.00051 15, α(O)=5.5×10-5 13 | |
| (3,4)- | < 0.2 ns | 283.963 10 | M1,E2 | 0.046 | α=0.046 3, α(K)=0.0384 14, α(L)=0.0057 10, α(M)=0.00117 22, α(N)=0.00023 4, α(O)=2.6×10-5 4 | ||
| 608.705 | (3,4)- | < 0.6 ns | 314.350 5 | M1,E2 | 0.0338 | α=0.0338 9, α(K)=0.0286 5, α(L)=0.0042 6, α(M)=0.00084 12, α(N)=0.000169 22, α(O)=1.90×10-5 16 | |
| 687.050 | (3,4)- | < 0.5 ns | 251.534 7 | M1,E2 | 0.065 | α=0.065 7, α(K)=0.055 4, α(L)=0.0085 20, α(M)=0.0017 5, α(N)=0.00035 8, α(O)=3.8×10-5 7 | |
| 728.184 | - | 207.102 11 | M1,E2 | 0.119 | α=0.119 20, α(K)=0.098 13, α(L)=0.016 6, α(M)=0.0034 12, α(N)=0.00067 22, α(O)=7.2×10-5 20 | ||
| 1562.27 | (10+) | 101.3 1 | M1 | 0.721 | α=0.721, α(K)=0.620 9, α(L)=0.0811 12, α(M)=0.01634 24, α(N)=0.00331 5, α(O)=0.000387 6 |
Additional Level Data and Comments:
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 160.7563 | 1+,2+ | < 0.7 ns | XREF: γ(163.0). |
| 167.368 | (6)- | 175 ns 15 | XREF: γ(166.0). |
| 183.0 | (7-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 220.9260 | (1,2,3)+ | < 0.7 ns | XREF: F(224.0). |
| 226.102 | (5,6,7)- | XREF: F(224.0). | |
| 232.577 | 4+ | < 1.7 ns | XREF: F(233.2). |
| 285.24 | (8-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 295.667 | (2,3,4)+ | < 0.8 ns | XREF: F(296.2). |
| 344.516 | (2,3,4)+ | < 1.2 ns | XREF: F(343.2). |
| 346.3 | E(level): From 127I(n,γ) E=thermal:primary. From 127I(n,γ) E=thermal:primary. | ||
| 376.625 | (4)- | < 5 ns | XREF: F(379.6). |
| 481.7 | (7-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 552.321 | (8-) | < 1.0 ns | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). |
| 582.21 | (8-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 608.705 | (3,4)- | < 0.6 ns | XREF: F(606.9). |
| 657.207 | XREF: d(656.4). | ||
| 696.27 | (9-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 863.86 | E(level): From 127I(n,γ) E=thermal:primary. From 127I(n,γ) E=thermal:primary. | ||
| 880.97 | XREF: F(882.6). | ||
| 885.2 | E(level): From 127I(n,γ) E=thermal:primary. From 127I(n,γ) E=thermal:primary. | ||
| 910.88 | (8-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 938.81 | E(level): From 127I(n,γ) E=thermal:primary. From 127I(n,γ) E=thermal:primary. | ||
| 944.75 | XREF: F(945.3). | ||
| 983.8 | XREF: F(986.8). | ||
| 985.89 | E(level): From 127I(n,γ) E=thermal:primary. From 127I(n,γ) E=thermal:primary. | ||
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 1006.65 | XREF: F(1004.8). | ||
| 1015.97 | XREF: F(1017.1). | ||
| 1041.69 | (10-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1048.64 | (1,2,3+) | XREF: F(1049.6). | |
| 1150.0 | (9-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1168.99 | XREF: F(1167.1). | ||
| 1218.6 | 2+,3,4+ | XREF: F(1216.3). | |
| 1275.44 | (LE 4) | XREF: F(1273.4). | |
| 1287.0 | (9-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1291.4 | (10-) | XREF: α(1291.2). E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1291.47 | (10-) | XREF: α(1291.4). E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1303.75 | XREF: F(1302.3). | ||
| 1347.1 | (9-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1382.91 | XREF: F(1380.3). | ||
| 1454.02 | (11-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1460.96 | (9+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1506.96 | XREF: F(1509.0). | ||
| 1562.27 | (10+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1651.05 | XREF: F(1648.7). | ||
| 1715.74 | XREF: F(1713.7). | ||
| 1761.07 | XREF: F(1762.8). | ||
| 1772.8 | XREF: F(1770.7). | ||
| 1873.61 | (12-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1918.6 | XREF: F(1916.5). | ||
| 1947.00 | XREF: F(1949.7). | ||
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 1964.97 | (11+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 1991.17 | (11+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2037.60 | XREF: F(2039.5). | ||
| 2067.18 | XREF: F(2065.5). | ||
| 2111.4 | (12-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2150.46 | XREF: F(2152.3). | ||
| 2166.59 | XREF: F(2165.7). | ||
| 2185.97 | (12+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2191.31 | XREF: F(2190.0). | ||
| 2302.97 | (12+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2341.32 | (13-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2380.3 | (13+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2437.88 | (13+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2480.5 | (12+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2520.9 | (12+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2575.7 | (13-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2661.7 | (13+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2665.0 | (14+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2691.8 | (13+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2714.3 | (13+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2789.2 | (14-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 2953.4 | (14+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3009.3 | (14+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3115.7 | (14-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3152.5 | (15+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 3158.0 | (15+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3158.8 | (15-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3309.3 | (15-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3555.9 | (16-) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3559.3 | (16+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 3621.5 | (16+) | E(level): From 128Te(p,nγ). Jπ(level): From ADO values and high-spin ordering in 124Sn(7Li,3nγ). | |
| 6826.076 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.087 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.137 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.140 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.144 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.150 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.154 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.167 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.169 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.175 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.183 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.194 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.195 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.208 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.215 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.220 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.230 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.247 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.263 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 6826.266 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.268 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.275 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.283 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.288 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.296 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.297 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.303 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.307 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.324 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.330 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.335 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.352 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.355 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.365 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.373 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.385 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.393 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.399 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.402 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.410 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.420 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.427 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.434 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.438 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 6826.442 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.452 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.453 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.456 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.474 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.479 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.481 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.490 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.502 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.509 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.513 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.519 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.520 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.540 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.547 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.549 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.554 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.558 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.562 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.567 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.575 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.581 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.585 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.595 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.602 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 6826.606 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.625 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.641 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.644 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.659 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.672 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.676 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.689 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.691 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.695 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.704 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.710 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.714 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.722 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.744 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.749 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.758 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.761 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.769 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.770 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.772 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.784 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.787 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.794 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.815 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 6826.827 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.833 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.833 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.838 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.851 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.855 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.859 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.869 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.882 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.887 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.891 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.896 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.901 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.904 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.914 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.920 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.929 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.937 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.942 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.952 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.958 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.963 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.986 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6826.991 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.014 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 6827.021 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.025 | (2+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.038 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.041 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.043 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.048 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.051 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.066 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.078 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.084 | (3+) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.089 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.092 | (3-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.095 | (2-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.110 | (1-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. | |
| 6827.126 | (4-) | E(level): From 124Sn(7Li,3nγ). From 127I(n,X): resonances, if S(n)=6826.13 5 keV. Jπ(level): From 127I(n,X): resonances based on the statistical evaluation of the measured experimental widths using codes ESTIMA and CALENDF. |
| E(level) | E(gamma) | Comments |
| 27.3620 | 27.362 | E(γ): From 128Te(p,nγ). |
| 133.6107 | 106.2486 | I(γ): other: 7.4 5 in (p,nγ). |
| 180.377 | 94.901 | I(γ): other: 3.3 10 in (p,nγ). | 153.011 | M(γ): ΔJ=1 from γ(θ) in (p,nγ). |
| 220.9260 | 69.34 | E(γ): From 128Te(p,nγ). |
| 232.577 | 52.38 | E(γ): From 128Te(p,nγ). |
| 234.488 | 96.639 | I(γ): other: 12 3 in (p,nγ). |
| 269.712 | 102.344 | M(γ): also from α(exp) in 124Sn(7Li,3nγ) |
| 285.24 | 15.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 117.8 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 294.358 | 126.988 | I(γ): other: 16 7 in (p,nγ). |
| 295.667 | 115.240 | I(γ): other: 3.3 8 in (p,nγ). | 134.94 | I(γ): other: 10 4 in (p,nγ). | 144.024 | I(γ): other: 17 4 in (p,nγ). |
| 344.516 | 193.13 | E(γ): From 128Te(p,nγ). I(γ): From 128Te(p,nγ). | 317.50 | E(γ): From 128Te(p,nγ). I(γ): From 128Te(p,nγ). |
| 385.446 | 205.09 | E(γ): From 128Te(p,nγ). | 251.80 | E(γ): From 128Te(p,nγ). |
| 392.002 | 211.5 | E(γ): From 128Te(p,nγ). | 240.38 | E(γ): From 128Te(p,nγ). I(γ): From 128Te(p,nγ). |
| 416.281 | 388.909 | E(γ): not observed in (p,nγ). |
| 426.339 | 205.412 | I(γ): other: 100 8 in (p,nγ). | 265.610 | I(γ): other: 55 17 in (p,nγ). | 398.93 | E(γ): From 128Te(p,nγ). |
| 435.510 | 58.86 | E(γ): not observed in (p,nγ). | 90.43 | E(γ): From 128Te(p,nγ). |
| E(level) | E(gamma) | Comments |
| 481.7 | 255.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 314.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 485.422 | 325.20 | E(γ): From 128Te(p,nγ). |
| 554.430 | 169.00 | E(γ): From 128Te(p,nγ). |
| 582.21 | 312.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 679.06 | 124.5 | E(γ): From 128Te(p,nγ). | 334.90 | E(γ): From 128Te(p,nγ). | 383.20 | E(γ): From 128Te(p,nγ). | 457.9 | E(γ): From 128Te(p,nγ). | 518.2 | E(γ): From 128Te(p,nγ). |
| 696.27 | 411.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV |
| 704.92 | 484.4 | E(γ): From 128Te(p,nγ). | 677.40 | E(γ): From 128Te(p,nγ). |
| 715.2 | 571.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 715.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 735.46 | 502.88 | E(γ): From 128Te(p,nγ). |
| 750.39 | 590.20 | E(γ): From 128Te(p,nγ). | 723.2 | E(γ): From 128Te(p,nγ). |
| 768.36 | 634.75 | E(γ): From 128Te(p,nγ). |
| 778.62 | 248.65 | E(γ): From 128Te(p,nγ). |
| 795.14 | 643.0 | E(γ): From 128Te(p,nγ). |
| 828.30 | 596.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 647.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 834.61 | 701.00 | E(γ): From 128Te(p,nγ). |
| 840.00 | 543.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 695.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 838.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 843.45 | 662.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 707.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 844.63 | 290.20 | E(γ): From 128Te(p,nγ). |
| 849.20 | 432.55 | E(γ): From 128Te(p,nγ). | 715.40 | E(γ): From 128Te(p,nγ). |
| 866.56 | 705.8 | E(γ): From 128Te(p,nγ). |
| 910.88 | 429.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 641.2 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 743.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 916.79 | 783.4 | E(γ): From 128Te(p,nγ). |
| 934.10 | 498.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 788.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 942.31 | 508.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 564.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 708.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 795.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 812.7 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1013.1 | 834.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 868.7 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1024.8 | 789.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 881.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1032.04 | 596.6 | E(γ): From 128Te(p,nγ). | 798.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 888.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 898.3 | E(γ): other: 897.6 3 in (n,γ): secondary.. From 128Te(p,nγ). |
| E(level) | E(gamma) | Comments |
| 1041.69 | 345.4 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 756.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1048.64 | 613.5 | E(γ): From 128Te(p,nγ). | 1048.7 | E(γ): From 128Te(p,nγ). |
| 1062.15 | 976.5 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1084.552 | 698.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 940.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 950.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1100.082 | 803.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 867.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 955.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1128.0 | 982.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1102.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1150.0 | 239.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 567.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1163.49 | 868.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1165.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1171.3 | 784.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 826.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1211.45 | 777.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 866.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1218.6 | 986.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1088.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1189.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1226.5 | 930.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 992.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1094.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1140.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 1246.859 | 810.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1014.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1102.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1113.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1251.513 | 814.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 863.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1071.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1117.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1256.0 | 821.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1266.362 | 830.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 878.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 891.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 921.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1122.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1132.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1268.5 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1275.44 | 837.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1093.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1141.6 | E(γ): 1142.2 2 (p,nγ).. From 127I(n,γ) E=thermal:secondary. |
| 1287.0 | 704.8 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1291.4 | 709.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1291.47 | 595.2 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1301.70 | 863.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1069.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1157.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1168.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 1330.16 | 1196.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1343.176 | 907.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1048.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1108.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1204.2 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1347.1 | 764.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1360.11 | 927.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 975.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1067.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1127.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1221.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1225.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1370.1 | 933.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1027.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1441.59 | 1006.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1298.2 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1454.02 | 412.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 757.7 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1455.35 | 1427.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1455.2 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1460.96 | 550.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 764.7 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 1175.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1486.83 | 1051.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1342.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 1498.7 | 1112.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1203.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1471.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1506.96 | 1161.7 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1527.795 | 1092.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1140.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1151.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1393.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1532.73 | 1299.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1398.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1538.11 | 1101.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1148.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1161.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1393.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1542.1 | 1107.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1407.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1553.8 | 1409.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1559.9 | 1123.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1418.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1562.27 | 101.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). M(γ): from α(exp) in 124Sn(7Li,3nγ) | 412.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 866.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1574.7 | 1138.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1619.3 | 1242.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1475.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 1628.084 | 1191.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1494.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1599.7 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1634.0 | 1199.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1257.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1287.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1702.24 | 1408.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1559.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1715.74 | 1343.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1368.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1571.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1724.2 | 1489.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1580.5 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1734.054 | 1297.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1360.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1437.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1589.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1646.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1739.68 | 1350.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1595.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1745.49 | 1359.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1807.40 | 1435.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1511.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1574.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1721.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 1825.615 | 1529.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1684.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1741.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1866.4 | 1494.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1573.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1731.7 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1873.6 | 1440.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1488.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1500.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1641.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1729.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1738.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1873.61 | 419.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 832.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1886.4 | 1450.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1651.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1748.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1887.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1905.2 | 1469.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1759.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1922.1 | 1533.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1895.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1943.06 | 1507.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 1964.97 | 402.7 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 1983.85 | 1983.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 1991.17 | 428.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2013.0 | 1832.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2069.95 | 1727.8 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1983.5 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2111.4 | 238.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 657.4 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 820.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV | 1069.7 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2143.74 | 2144.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2161.96 | 1726.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 1816.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2185.97 | 194.8 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 221.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2187.64 | 1842.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2005.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2204.67 | 2177.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2302.97 | 740.7 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2320.61 | 1948.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2186.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2341.32 | 229.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 887.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2380.3 | 415.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2425.4 | 2280.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2292.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2432.7 | 2055.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2288.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2407.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 2437.88 | 251.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 473.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2454.0 | 2067.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2226.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2311.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2480.5 | 515.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2520.9 | 555.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2567.0 | 2421.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2434.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2575.7 | 702.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2584.8 | 2351.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2450.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2500.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2640.8 | 2206.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2344.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2661.7 | 475.7 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2665.0 | 227.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 479.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2684.4 | 2451.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2656.9 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2691.8 | 388.8 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2714.3 | 528.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2721.0 | 2284.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2484.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2589.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 2737.2 | 2392.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2600.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2789.2 | 447.9 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 915.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 2847.89 | 2503.4 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2550.7 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2900.4 | 2523.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2758.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2898.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2950.78 | 2515.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2867.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 2953.4 | 261.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 650.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3001.0 | 2567.3 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2819.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3009.3 | 347.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3076.7 | 2733.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2893.5 | E(γ): From 127I(n,γ) E=thermal:secondary. | 2932.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3076.2 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3115.7 | 540.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 1242.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3152.5 | 199.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 487.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3158.0 | 493.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| E(level) | E(gamma) | Comments |
| 3158.8 | 369.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 817.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3182.7 | 3037.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3098.8 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3309.3 | 968.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3555.9 | 246.6 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 397.1 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3559.3 | 894.3 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3621.5 | 463.5 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). | 469.0 | E(γ): From 124Sn(7Li,3nγ).. From 127I(n,X): resonances, if S(n)=6826.13 5 keV I(γ): From 124Sn(7Li,3nγ). |
| 3794.3 | 3498.6 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3660.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3794.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3802.6 | 3366.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3623.4 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3834.4 | 3655.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3689.3 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3846.8 | 3411.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3502.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3700.6 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3862.8 | 3485.1 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3630.7 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3719.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 3991.6 | 3760.2 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3847.0 | E(γ): From 127I(n,γ) E=thermal:secondary. | 3853.1 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| E(level) | E(gamma) | Comments |
| 4150.8 | 3967.9 | E(γ): From 127I(n,γ) E=thermal:secondary. | 4017.0 | E(γ): From 127I(n,γ) E=thermal:secondary. |
| 6826.161 | 4505.46 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4619.41 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4621.40 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4634.76 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4638.42 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4659.48 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4664.09 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4675.61 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4682.34 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4695.65 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4710.58 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4743.73 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4756.12 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4758.89 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4775.21 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4788.46 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4813.1 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4838.40 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4842.16 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4854.25 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4879.06 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4882.98 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4892.98 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4903.6 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4907.5 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4920.6 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4950.10 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4962.6 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 4982.09 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5000.44 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5007.90 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5018.65 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5032.77 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5043.07 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5053.3 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5064.98 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5080.57 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5086.36 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5091.99 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5096.36 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5110.31 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5123.89 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5134.38 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5175.00 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5197.96 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5210.09 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5227.62 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5246.02 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5251.2 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5287.92 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5293.28 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5298.25 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5319.07 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5339.21 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5370.68 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5384.46 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5386.99 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5396.10 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5407.52 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5434.17 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5443.13 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5463.46 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5477.12 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5482.86 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5489.86 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5495.87 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5522.28 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5524.29 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5550.57 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5559.67 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5570.1 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5574.51 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5579.17 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5607.1 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5628.55 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5647.46 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5657.04 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5662.65 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5676.92 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5690.24 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5725.94 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5734.14 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5741.47 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5763.86 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5777.41 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5793.98 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5810.05 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5819.37 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5840.13 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5842.2 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5852.38 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5881.27 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5887.21 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5891.91 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5909.30 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5940.8 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5945.04 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5958.85 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5962.15 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5976.71 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5982.53 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5986.00 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 5997.70 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6004.60 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6030.42 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6034.1 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6038.05 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6055.3 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6076.03 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6121.14 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6139.01 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6149.31 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6164.64 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6169.6 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6212.06 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6217.49 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6271.59 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6276.32 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6289.64 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6307.53 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6340.70 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6390.51 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6399.1 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6410.04 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6434.05 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6440.72 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6449.29 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6453.66 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6479.8 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6481.76 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6530.44 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6593.8 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6605.4 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6645.61 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6665.24 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6674.53 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6681.98 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6688.05 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6692.36 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6697.73 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6740.46 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6798.68 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. | 6826.00 | E(γ): From 127I(n,γ) E=thermal:primary.. From 127I(n,γ) E=thermal:primary. |