ADOPTED LEVELS, GAMMAS for 109In
Authors: S. Kumar, J. Chen and F.G. Kondev | Citation: Nucl. Data Sheets 137, 1 (2016) | Cutoff date: 31-May-2016
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=-3857 keV 9 | S(n)= 10439 keV 9 | S(p)= 4524 keV 5 | Q(α)= -1842 keV 6 | ||
Reference: 2012WA38 |
References: | |||
A | 109In IT decay (1.34 M) | B | 109In IT decay (210.0 MS) |
C | 109Sn ε decay | D | 108Cd(d,nγ) |
E | 108Cd(3He,d) | F | 112Sn(p,α) |
G | 108Cd(p,p),(p,p’) IAR | H | 107Ag(α,2nγ) |
I | 76Ge(37Cl,4nγ) | J | 92Mo(19F,2pγ) |
K | 96Zr(19F,6nγ) | L | 97Mo(16O,3npγ) |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
0 | ABCDEF HIJKL | 9/2+ | 4.159 h 10 % ε = 100 | |||||
649.79 10 | A CDEF H | 1/2- | 1.34 m 6 % IT = 100 | 649.8 2 | 100 | M4 | 0 | 9/2+ |
980.92 11 | CDEF H | 3/2- | 0.62 ps +30-15 | 331.2 2 | 100 | M1 | 649.79 | 1/2- |
1026.39 8 | BCD HIJKL | 11/2+ | 0.17 ps 7 | 1026.4 1 | 100 | M1+E2 | 0 | 9/2+ |
1099.31 8 | CDE HI L | 5/2+ | 0.45 ps 21 | 119.0 6 1099.2 2 | 0.2 1 100 5 | [E1] E2 | 980.92 0 | 3/2- 9/2+ |
1171.71 16 | CDE | 1/2+ | 521.9 2 | 100 | E1 | 649.79 | 1/2- | |
1321.25 11 | CDE | 5/2+ | 222.2 7 340.2 3 1321.3 2 | 0.51 25 2.0 5 100 6 | [M1] [E1] E2 | 1099.31 980.92 0 | 5/2+ 3/2- 9/2+ | |
1334.73 22 ? | C | (3/2,5/2,7/2-) | 353.9 2 | 100 | 980.92 | 3/2- | ||
1428.36 8 | BCD HIJKL | 13/2+ | 0.28 ps 14 | 401.97 6 1428.32 10 | 22.5 11 100 3 | M1+E2 E2 | 1026.39 0 | 11/2+ 9/2+ |
1440.70 21 | CD F | 5/2- | 459.8 4 791.0 3 | 8.7 23 100 4 | (M1) E2 | 980.92 649.79 | 3/2- 1/2- | |
1463.59 18 | CD H L | 9/2+ | 0.21 ps 7 | 437.2 3 1463.6 4 | 55 6 100 15 | M1 [E2] | 1026.39 0 | 11/2+ 9/2+ |
1482.22 22 ? | C | (5/2+,7/2-) | 383 501.2 3 1482.3 3 | 100 30 10 47 10 | 1099.31 980.92 0 | 5/2+ 3/2- 9/2+ | ||
1483.75 18 | CDE | 5/2+ | 312.0 3 384.5 4 501.0 6 | 25.0 25 100 9 16.0 23 | M1 | 1171.71 1099.31 980.92 | 1/2+ 5/2+ 3/2- | |
1574.30 13 | CD | (5/2+,7/2) | 1574.4 2 | 100 | 0 | 9/2+ | ||
1713.27 12 | CD HI | 9/2+ | 229.2 3 285.0 5 614.1 3 687 1 1713.5 2 | 7 3 20 5 100 6 55 7 | [E2] [E2] E2 | 1483.75 1428.36 1099.31 1026.39 0 | 5/2+ 13/2+ 5/2+ 11/2+ 9/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
1722.38 16 | CDE I | 7/2+ | 623.4 4 1722.2 2 | 100 28 49 4 | M1 | 1099.31 0 | 5/2+ 9/2+ | |
1759.32 12 | C | 3/2,5/2,7/2 | 437.4 3 660.1 1 | 75 27 100 13 | 1321.25 1099.31 | 5/2+ 5/2+ | ||
1816.65 13 | CD | (3/2,5/2)- | 376.1 5 482.7 6 495.8 4 835.7 1 1166.6 3 | 10 14 7 45 10 100 14 52 10 | M1,E2 | 1440.70 1334.73 1321.25 980.92 649.79 | 5/2- (3/2,5/2,7/2-) 5/2+ 3/2- 1/2- | |
1843.7 6 | C | (5/2+,7/2) | 1843.7 6 | 100 | 0 | 9/2+ | ||
1900.28 12 | HI KL | 13/2+ | 0.14 ps 7 | 873.95 10 | 100 | M1+E2 | 1026.39 | 11/2+ |
1923 19 | F | |||||||
1957.10 11 | C E | 5/2+ | 473.2 5 785.3 2 976.3 1 1956.9 2 | 17 6 25 6 100 8 36 6 | [M1] | 1483.75 1171.71 980.92 0 | 5/2+ 1/2+ 3/2- 9/2+ | |
2030 6 | E | (1/2+,3/2+,5/2+) | ||||||
2055.14 25 | C F | (5/2+,7/2) | 2055.2 3 | 100 | 0 | 9/2+ | ||
2064.2 5 | CD | (3/2-,5/2-,7/2-) | 1083.3 4 | 100 | (M1,E2) | 980.92 | 3/2- | |
2076 5 | E | (1/2+,3/2+,5/2+) | ||||||
2101.86 11 | B HI KL | 19/2+ | 210.0 ms 9 % IT = 100 | 673.52 8 | 100 | M3 | 1428.36 | 13/2+ |
2102.21 14 | JK | 17/2+ | 673.85 12 | 100 | E2 | 1428.36 | 13/2+ | |
2125.78 11 | C F | (5/2+,7/2) | 1026.4 1 2125.9 2 | 87 15 100 7 | 1099.31 0 | 5/2+ 9/2+ | ||
2138.43 12 | C E | (3/2+) | 181.8 6 816.2 4 1039.0 2 1488.7 1 | 1.3 7 12 3 100 4 90 7 | 1957.10 1321.25 1099.31 649.79 | 5/2+ 5/2+ 5/2+ 1/2- | ||
2151.4 3 | C | (3/2,5/2-) | 710.7 3 1170.2 1501.7 4 | 100 22 21 36 14 | 1440.70 980.92 649.79 | 5/2- 3/2- 1/2- | ||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2195.26 22 | HI L | 15/2+ | 0.35 ps 14 | 766.9 2 | 100 | M1+E2 | 1428.36 | 13/2+ |
2210 5 | E | (1/2-,3/2,5/2+) | ||||||
2218.56 15 | C | (5/2+,7/2) | 261.1 12 401.8 4 897.5 2 1119.2 3 2218.5 5 | 11 4 2.9 10 31 4 100 5 7.0 7 | 1957.10 1816.65 1321.25 1099.31 0 | 5/2+ (3/2,5/2)- 5/2+ 5/2+ 9/2+ | ||
2235.8 3 | C | (5/2+,7/2) | 522 2235.8 3 | 100 18.0 25 | 1713.27 0 | 9/2+ 9/2+ | ||
2271.4 5 | C E | (3/2+) | 1290.0 1621.7 5 | 33 100 20 | 980.92 649.79 | 3/2- 1/2- | ||
2272.2 3 | HI KL | 13/2- | 842 1 1245.8 3 | 100 | E1 | 1428.36 1026.39 | 13/2+ 11/2+ | |
2276.5 7 | C | (7/2+) | 1250.1 10 2276.5 8 | 100 38 100 38 | 1026.39 0 | 11/2+ 9/2+ | ||
2305.2 4 | C E | (3/2,5/2-) | 1205.6 5 1655.7 6 | 81 13 100 19 | 1099.31 649.79 | 5/2+ 1/2- | ||
2317.3 7 | I | (11/2+) | 595 1 604 1 | | 1722.38 1713.27 | 7/2+ 9/2+ | ||
2321.92 15 | HI | 15/2+ | 421.9 2 893.5 2 1295.0 5 | 80 5 100 6 | M1(+E2) M1 | 1900.28 1428.36 1026.39 | 13/2+ 13/2+ 11/2+ | |
2332 5 | E | (1/2+,3/2+,5/2+) | ||||||
2356.14 22 | CDE | (3/2,5/2,7/2-) | 597.2 12 1375.2 2 | 38 15 100 15 | 1759.32 980.92 | 3/2,5/2,7/2 3/2- | ||
2410.9 4 | C | (3/2,5/2+) | 454.4 20 ? 594.6 3 ? 1239.9 7 1429.7 4 | 46 15 23 15 100 23 77 15 | 1957.10 1816.65 1171.71 980.92 | 5/2+ (3/2,5/2)- 1/2+ 3/2- | ||
2469.04 24 | CDE | (3/2,5/2,7/2)+ | 250.1 6 985.3 2 | 31 15 100 15 | M1,E2 | 2218.56 1483.75 | (5/2+,7/2) 5/2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2508.33 13 | C F | (3/2,5/2-) | 1187.8 5 1408.9 2 1858.7 2 | 35 13 100 9 57 9 | 1321.25 1099.31 649.79 | 5/2+ 5/2+ 1/2- | ||
2532.44 11 | HIJKL | 15/2- | 0.24 ps 10 | 259.6 5 1104.04 10 | 6.6 7 100 4 | (M1) E1 | 2272.2 1428.36 | 13/2- 13/2+ |
2542.02 11 | C F | (5/2+,7/2) | 828.8 2 1078.5 1220.9 5 1442.7 1 2541.8 3 | 33 4 3.5 5.8 23 27.6 23 100 6 | 1713.27 1463.59 1321.25 1099.31 0 | 9/2+ 9/2+ 5/2+ 5/2+ 9/2+ | ||
2561.02 19 | C EF | 3/2+ | 1462.0 6 1580.7 5 1911.1 2 | 36 10 20 2 100 4 | 1099.31 980.92 649.79 | 5/2+ 3/2- 1/2- | ||
2564.2 7 | C EF | (5/2+) | 2564.2 7 | 100 | 0 | 9/2+ | ||
2574.8 3 | C | (5/2+,7/2) | 2574.8 3 | 100 | 0 | 9/2+ | ||
2591.85 17 | C E | 7/2+ | 373.7 3 452.8 5 ? 465.8 8 869.3 4 1107.2 8 1128.2 3 1492.4 8 1565.6 5 2591.6 4 | 17 4 11 4 11 4 49 6 34 6 100 4 96 13 17 4 43 4 | 2218.56 2138.43 2125.78 1722.38 1483.75 1463.59 1099.31 1026.39 0 | (5/2+,7/2) (3/2+) (5/2+,7/2) 7/2+ 5/2+ 9/2+ 5/2+ 11/2+ 9/2+ | ||
2602.3 4 | C | (5/2+,7/2) | 879.2 5 2602.7 4 | 100 25 13 2 | 1722.38 0 | 7/2+ 9/2+ | ||
2617.16 20 | C | (5/2,7/2)+ | 478.5 4 857.9 2 2617.0 10 | 22 11 100 22 11 6 | 2138.43 1759.32 0 | (3/2+) 3/2,5/2,7/2 9/2+ | ||
2674 6 | E | (1/2+,3/2+,5/2+) | ||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2709 6 | E | |||||||
2785.59 14 | C F | (5/2+,7/2) | 1072.7 3 1211.4 3 1464.2 2 1686.2 3 2785.4 3 | 6.7 17 28 3 100 33 20.8 25 48 3 | 1713.27 1574.30 1321.25 1099.31 0 | 9/2+ (5/2+,7/2) 5/2+ 5/2+ 9/2+ | ||
2808.8 3 | C | 3/2 | 1709.3 6 2158.9 4 | 13 4 100 13 | 1099.31 649.79 | 5/2+ 1/2- | ||
2812 7 | E | (1/2+) | ||||||
2813.47 20 | C | (5/2+,7/2) | 1054.2 2 2813.2 4 | 100 10 62 10 | 1759.32 0 | 3/2,5/2,7/2 9/2+ | ||
2845.77 12 | C E | 3/2 | 539.4 2 ? 888.7 1 1271.5 3 1524.9 3 2195.6 2 | 15 4 45 11 34 6 36 4 100 6 | 2305.2 1957.10 1574.30 1321.25 649.79 | (3/2,5/2-) 5/2+ (5/2+,7/2) 5/2+ 1/2- | ||
2851.70 23 | C | 7/2+ | 1092.2 5 1130.5 8 1388.2 5 1825.1 3 2852.2 10 | 86 24 14 10 38 10 100 10 10 5 | 1759.32 1722.38 1463.59 1026.39 0 | 3/2,5/2,7/2 7/2+ 9/2+ 11/2+ 9/2+ | ||
2858.58 18 | C F | (5/2+,7/2) | 732.5 5 1759.2 5 2858.6 2 | 57 8 100 6 92 8 | 2125.78 1099.31 0 | (5/2+,7/2) 5/2+ 9/2+ | ||
2868.77 12 | HIJKL | 17/2- | 0.40 ps 12 | 336.30 6 547.1 3 | 100 4 13.5 12 | M1(+E2) (E1) | 2532.44 2321.92 | 15/2- 15/2+ |
2871.19 14 | C | 5/2+ | 310.3 5 362.9 1 459.8 4 ? 745.3 9 816.2 4 1157.8 3 1700.7 13 1889.8 3 2871.2 9 | 9.8 16 4 14 6 22 6 35 8 33 6 7.8 20 100 10 5 1 | 2561.02 2508.33 2410.9 2125.78 2055.14 1713.27 1171.71 980.92 0 | 3/2+ (3/2,5/2-) (3/2,5/2+) (5/2+,7/2) (5/2+,7/2) 9/2+ 1/2+ 3/2- 9/2+ | ||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2888 7 | E | (1/2+,3/2+,5/2) | ||||||
2919.8 7 | C | (5/2+,7/2) | 2919.8 7 | 100 | 0 | 9/2+ | ||
2924.42 13 | C | (3/2,5/2) | 967.2 4 1107.7 8 1350.1 1 1603.3 3 1825.1 3 1943.5 3 | 44 8 44 8 83 8 36 6 58 6 100 11 | 1957.10 1816.65 1574.30 1321.25 1099.31 980.92 | 5/2+ (3/2,5/2)- (5/2+,7/2) 5/2+ 5/2+ 3/2- | ||
2943.0 4 | C | (5/2+,7/2-) | 1962.2 5 2942.8 4 | 100 20 74 10 | 980.92 0 | 3/2- 9/2+ | ||
2958.04 13 | HIJKL | 19/2- | 89.24 8 856.2 2 | 100 5 42 2 | M1(+E2) E1 | 2868.77 2101.86 | 17/2- 19/2+ | |
2986.8 3 | C E | (3/2+,5/2+) | 848.6 8 1227.4 3 1546.6 8 | 45 18 100 27 36 9 | 2138.43 1759.32 1440.70 | (3/2+) 3/2,5/2,7/2 5/2- | ||
2995.9 9 | I | (17/2+) | 674 1 | | 2321.92 | 15/2+ | ||
3013.4 3 | C | (5/2+,7/2) | 3013.4 3 | 100 | 0 | 9/2+ | ||
3029.69 21 | C | (5/2+) | 158.6 6 ? 216.9 7 ? 220.5 6 560.3 7 1455.3 5 1930.5 3 2049.0 5 3029.5 6 | 14 5 9 5 18 9 14 5 100 14 77 9 45 9 7 3 | 2871.19 2813.47 2808.8 2469.04 1574.30 1099.31 980.92 0 | 5/2+ (5/2+,7/2) 3/2 (3/2,5/2,7/2)+ (5/2+,7/2) 5/2+ 3/2- 9/2+ | ||
3034.8 4 | C | (5/2+,7/2) | 3034.8 4 | 100 | 0 | 9/2+ | ||
3050.73 19 | C | (5/2+,7/2) | 1951.3 5 3050.7 2 | 25 100 17 | 1099.31 0 | 5/2+ 9/2+ | ||
3065.65 20 | C | (5/2+,7/2) | 3065.6 2 | 100 | 0 | 9/2+ | ||
3067.35 23 | HI L | 17/2- | 0.21 ps 9 | 534.9 2 | 100 | M1+E2 | 2532.44 | 15/2- |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
3092.10 13 | HIJKL | 19/2- | 0.44 ps 12 | 223.4 2 989.8 5 ? 990.25 12 | 20 2 37 4 100 6 | M1 E1 | 2868.77 2102.21 2101.86 | 17/2- 17/2+ 19/2+ |
3122.54 14 | HIJKL | 21/2- | 164.47 6 1021 1 | 100 | M1(+E2) | 2958.04 2101.86 | 19/2- 19/2+ | |
3140.3 5 | C | (5/2+,7/2) | 1819.0 4 3139.8 6 ? | 100 33 23 7 | 1321.25 0 | 5/2+ 9/2+ | ||
3155.2 6 | I | (15/2+) | 838 1 1053 1 1727 1 | | 2317.3 2101.86 1428.36 | (11/2+) 19/2+ 13/2+ | ||
3202.49 14 | HIJKL | 21/2- | 110.42 10 244.6 2 1100.8 5 | 56 3 100 5 47 2 | M1(+E2) M1(+E2) | 3092.10 2958.04 2101.86 | 19/2- 19/2- 19/2+ | |
3273.44 24 ? | J | 150.9 2 ? | 100 | 3122.54 | 21/2- | |||
3285.8 3 | HI L | 19/2- | > 1.0 ps | 218.48 11 | 100 | M1 | 3067.35 | 17/2- |
3316.8 3 | C | (5/2+,7/2) | 3316.7 3 | 100 | 0 | 9/2+ | ||
3361.0 6 | C | (5/2+,7/2) | 3360.9 6 | 100 | 0 | 9/2+ | ||
3374.74 24 | H L | (19/2-) | 0.21 ps 10 | 416.7 2 | 100 | (M1) | 2958.04 | 19/2- |
3395.68 20 | C | (5/2+,7/2) | 2074.8 9 3395.6 2 | 81 27 100 14 | 1321.25 0 | 5/2+ 9/2+ | ||
3410.37 15 | HIJKL | 23/2- | 0.69 ps 21 | 207.90 6 287.79 12 | 100 5 10.0 4 | M1 (M1) | 3202.49 3122.54 | 21/2- 21/2- |
3418.5 4 | C | 5/2+,7/2- | 2437.5 4 3418.5 5 | 100 11 8.5 | 980.92 0 | 3/2- 9/2+ | ||
3426.54 22 | C | (5/2+,7/2) | 1300.7 2 3427.3 8 | 100 24 3.5 12 | 2125.78 0 | (5/2+,7/2) 9/2+ | ||
3462.04 16 | HIJKL | 23/2- | 0.8 ps 3 | 339.47 8 | 100 | M1+E2 | 3122.54 | 21/2- |
3484.4 4 ? | JK | (23/2) | 211.0 2 361.9 2 ? | 57.3 7 100.0 4 | D D+Q | 3273.44 3122.54 | 21/2- | |
3517.1 4 | HI L | 21/2- | 0.43 ps 10 | 231.3 2 | 100 | (M1) | 3285.8 | 19/2- |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
3528.7 8 | I | (21/2+) | 1427 1 | | 2101.86 | 19/2+ | ||
3653.8 9 | I | (17/2+) | 1552 1 | | 2101.86 | 19/2+ | ||
3798.3 8 | I | (23/2+) | 1697 1 | | 2101.86 | 19/2+ | ||
3800.14 16 | HIJKL | 25/2- | 1.7 ps 6 | 338.4 5 389.80 8 | 12.5 6 100 1 | (M1) M1+E2 | 3462.04 3410.37 | 23/2- 23/2- |
3844.1 11 | I | (23/2-) | 327 1 | | 3517.1 | 21/2- | ||
4037.54 23 | HIJKL | 25/2- | 0.6 ps 3 | 575.3 2 | 100 | M1 | 3462.04 | 23/2- |
4097.4 10 | I | (19/2+) | 942 1 | | 3155.2 | (15/2+) | ||
4300.8 9 | I | (21/2+) | 647 1 1305 1 | | 3653.8 2995.9 | (17/2+) (17/2+) | ||
4354.6 7 | I | (23/2+) | 826 1 1232 1 | | 3528.7 3122.54 | (21/2+) 21/2- | ||
4436.0 5 | I K | 27/2(-) | 636.0 5 | 100 | (M1) | 3800.14 | 25/2- | |
4508.37 25 | IJK | 27/2- | 470.6 2 708.7 3 | 16.0 8 100 1 | (M1) (M1+E2) | 4037.54 3800.14 | 25/2- 25/2- | |
4508.37+X | I | (25/2-) | ||||||
4565.4 7 | I | (25/2+) | 211 1 768 1 1102 1 | | (M1) | 4354.6 3798.3 3462.04 | (23/2+) (23/2+) 23/2- | |
4572.6 9 | I | (25/2+) | 774 1 | | 3798.3 | (23/2+) | ||
4743.7 10 | I | (25/2+) | 443 1 | | 4300.8 | (21/2+) | ||
4756.6 11 | I | (23/2+) | 659 1 | | 4097.4 | (19/2+) | ||
4832.4 4 | IJK | 29/2(-) | 324.0 3 396.5 5 | 100 5 17 2 | (M1) | 4508.37 4436.0 | 27/2- 27/2(-) | |
4927.8 7 | I | (27/2+) | 355 1 362 1 891 1 | | (M1) (M1) | 4572.6 4565.4 4037.54 | (25/2+) (25/2+) 25/2- | |
5024.7 7 | I K | 29/2(-) | 588.7 5 | 100 | (M1) | 4436.0 | 27/2(-) | |
5219.8 10 | I | (27/2+) | 463 1 476 1 | | 4756.6 4743.7 | (23/2+) (25/2+) | ||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
5241.4 11 | IJK | 31/2(-) | 409 1 | 100 | (M1) | 4832.4 | 29/2(-) | |
5275.2+X 10 | I | (29/2-) | 767 1 | | 4508.37+X | (25/2-) | ||
5397.5 9 | I | (29/2+) | 470 1 654 1 | | 4927.8 4743.7 | (27/2+) (25/2+) | ||
5424.8 10 | IJ | (29/2+) | 497 1 | 100 | (M1) | 4927.8 | (27/2+) | |
5580.1 9 ? | K | 31/2(-) | 555.4 5 | 100 | (M1) | 5024.7 | 29/2(-) | |
5761.9 16 | I | (29/2+) | ||||||
5796.6 12 | IJK | 33/2(-) | 555.2 4 | 100 | (M1) | 5241.4 | 31/2(-) | |
5851.1 10 | I | (31/2+) | 426 1 454 1 631 1 | | 5424.8 5397.5 5219.8 | (29/2+) (29/2+) (27/2+) | ||
5918.0 10 | I | (31/2+) | 493 1 990 1 | 100 | (M1) | 5424.8 4927.8 | (29/2+) (27/2+) | |
6005.9 12 | I | (31/2+) | 244 1 581 1 | | (M1) | 5761.9 5424.8 | (29/2+) (29/2+) | |
6263.3 13 | I | (33/2+) | 866 1 | 100 | 5397.5 | (29/2+) | ||
6272.0 13 | I | (33/2+) | 266 1 354 1 | | 6005.9 5918.0 | (31/2+) (31/2+) | ||
6293.2+X 15 | I | (33/2-) | 1018 1 | | 5275.2+X | (29/2-) | ||
6428.6 16 | I | (35/2-) | 632 1 | | 5796.6 | 33/2(-) | ||
6433.4 12 | I | (33/2+) | 515 1 1009 1 | | 5918.0 5424.8 | (31/2+) (29/2+) | ||
6506.8 13 | I | (31/2+) | 1109 1 | | 5397.5 | (29/2+) | ||
6639.0 16 | I | (35/2+) | 367 1 | 100 | D | 6272.0 | (33/2+) | |
6668.1 14 | I | (35/2+) | 817 1 | | 5851.1 | (31/2+) | ||
6927.4 15 | I | (35/2+) | 494 1 | | 6433.4 | (33/2+) | ||
7120.0 19 | I | (37/2+) | 481 1 | | 6639.0 | (35/2+) | ||
7151.1 14 | I | (35/2+) | 644 1 888 1 | | 6506.8 6263.3 | (31/2+) (33/2+) | ||
7288.2 15 | I | (37/2+) | 1025 1 | | 6263.3 | (33/2+) | ||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
7384.2+X 18 | I | (37/2-) | 1091 1 | | 6293.2+X | (33/2-) | ||
7423.4 19 | I | (37/2+) | 496 1 | | 6927.4 | (35/2+) | ||
7642.1 17 | I | (39/2+) | 974 1 | | 6668.1 | (35/2+) | ||
7712.0 22 | I | (39/2+) | 592 1 | | 7120.0 | (37/2+) | ||
7981.1 15 | I | (39/2+) | 693 1 830 1 | | 7288.2 7151.1 | (37/2+) (35/2+) | ||
8005.4 21 | I | (39/2+) | 582 1 | | 7423.4 | (37/2+) | ||
8310.2+X 20 | I | (41/2-) | 926 1 | | 7384.2+X | (37/2-) | ||
8329.0 24 | I | (41/2+) | 617 1 | | 7712.0 | (39/2+) | ||
8463 6 | I | (41/2+) | 1175 5 | | 7288.2 | (37/2+) | ||
8632.4 23 | I | (41/2+) | 627 1 | | 8005.4 | (39/2+) | ||
8786.1 20 | I | (43/2+) | 1144 1 | | 7642.1 | (39/2+) | ||
8977 3 | I | (43/2+) | 648 1 | | 8329.0 | (41/2+) | ||
8981.1 18 | I | (43/2+) | 1000 1 | | 7981.1 | (39/2+) | ||
9292.2+X 23 | I | (45/2-) | 982 1 | | 8310.2+X | (41/2-) | ||
9317 3 | I | (43/2+) | 685 1 | | 8632.4 | (41/2+) | ||
9783 6 | I | (45/2+) | 1320 1 | | 8463 | (41/2+) | ||
10105.1 23 | I | (47/2+) | 1319 1 | | 8786.1 | (43/2+) | ||
10218.1 21 | I | (47/2+) | 1237 1 | | 8981.1 | (43/2+) | ||
10428.2+X 25 | I | (49/2-) | 1136 1 | | 9292.2+X | (45/2-) | ||
10746 5 | G | 1/2+ | ||||||
11055 5 | G | 3/2+ | ||||||
11189 6 ? | I | (49/2+) | 1406 1 ? | | 9783 | (45/2+) | ||
11598 5 | G | 1/2+ | ||||||
11634.1 25 | I | (51/2+) | 1529 1 | | 10105.1 | (47/2+) | ||
11642.1 12 | I | (51/2+) | 1424 1 ? | | 10218.1 | (47/2+) | ||
11730+X 3 | I | (53/2-) | 1302 1 | | 10428.2+X | (49/2-) | ||
13244+X 3 | I | (57/2-) | 1514 1 | | 11730+X | (53/2-) | ||
13338.0 14 | I | (55/2+) | 1704 1 ? | | 11634.1 | (51/2+) | ||
14821.1+X 15 | I | (61/2-) | 1577 1 ? | | 13244+X | (57/2-) |
E(level): From a least-squares fit to Eγ
T1/2(level): From 1987KuZV (and 1988Vi07) in 107Ag(α,2nγ) by DSAM, unless otherwise noted.
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 1 - Band 1: ΔJ=2 band based on 5/2+ at 1099 keV | |||||||
1099.31 8 | 5/2+ | 0.45 ps 21 | |||||
1713.27 12 | 9/2+ | 229.2 3 285.0 5 614.1 3 687 1 1713.5 2 | 7 3 20 5 100 6 55 7 | [E2] [E2] E2 | 1483.75 1428.36 1099.31 1026.39 0 | 5/2+ 13/2+ 5/2+ 11/2+ 9/2+ | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 2 - Band 2: ΔJ=2 band based on 7/2+ at 1722 keV | |||||||
1722.38 16 | 7/2+ | ||||||
2317.3 7 | (11/2+) | 595 1 604 1 | | 1722.38 1713.27 | 7/2+ 9/2+ | ||
3155.2 6 | (15/2+) | 838 1 1053 1 1727 1 | | 2317.3 2101.86 1428.36 | (11/2+) 19/2+ 13/2+ | ||
4097.4 10 | (19/2+) | 942 1 | | 3155.2 | (15/2+) | ||
4756.6 11 | (23/2+) | 659 1 | | 4097.4 | (19/2+) | ||
5219.8 10 | (27/2+) | 463 1 476 1 | | 4756.6 4743.7 | (23/2+) (25/2+) | ||
5851.1 10 | (31/2+) | 426 1 454 1 631 1 | | 5424.8 5397.5 5219.8 | (29/2+) (29/2+) (27/2+) | ||
6668.1 14 | (35/2+) | 817 1 | | 5851.1 | (31/2+) | ||
7642.1 17 | (39/2+) | 974 1 | | 6668.1 | (35/2+) | ||
8786.1 20 | (43/2+) | 1144 1 | | 7642.1 | (39/2+) | ||
10105.1 23 | (47/2+) | 1319 1 | | 8786.1 | (43/2+) | ||
11634.1 25 | (51/2+) | 1529 1 | | 10105.1 | (47/2+) | ||
13338.0 14 | (55/2+) | 1704 1 ? | | 11634.1 | (51/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 3 - Band 3: ΔJ=2 band based on (31/2+) at 6507 keV | |||||||
6506.8 13 | (31/2+) | ||||||
7151.1 14 | (35/2+) | 644 1 888 1 | | 6506.8 6263.3 | (31/2+) (33/2+) | ||
7981.1 15 | (39/2+) | 693 1 830 1 | | 7288.2 7151.1 | (37/2+) (35/2+) | ||
8981.1 18 | (43/2+) | 1000 1 | | 7981.1 | (39/2+) | ||
10218.1 21 | (47/2+) | 1237 1 | | 8981.1 | (43/2+) | ||
11642.1 12 | (51/2+) | 1424 1 ? | | 10218.1 | (47/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 4 - Band 4: ΔJ=2 band based on (21/2+) at 4300 keV | |||||||
4300.8 9 | (21/2+) | ||||||
4743.7 10 | (25/2+) | 443 1 | | 4300.8 | (21/2+) | ||
5397.5 9 | (29/2+) | 470 1 654 1 | | 4927.8 4743.7 | (27/2+) (25/2+) | ||
6263.3 13 | (33/2+) | 866 1 | 100 | 5397.5 | (29/2+) | ||
7288.2 15 | (37/2+) | 1025 1 | | 6263.3 | (33/2+) | ||
8463 6 | (41/2+) | 1175 5 | | 7288.2 | (37/2+) | ||
9783 6 | (45/2+) | 1320 1 | | 8463 | (41/2+) | ||
11189 6 ? | (49/2+) | 1406 1 ? | | 9783 | (45/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 5 - Band 5: ΔJ=1 band based on (29/2+) at 5762 keV | |||||||
5761.9 16 | (29/2+) | ||||||
6005.9 12 | (31/2+) | 244 1 581 1 | | (M1) | 5761.9 5424.8 | (29/2+) (29/2+) | |
6272.0 13 | (33/2+) | 266 1 354 1 | | 6005.9 5918.0 | (31/2+) (31/2+) | ||
6639.0 16 | (35/2+) | 367 1 | 100 | D | 6272.0 | (33/2+) | |
7120.0 19 | (37/2+) | 481 1 | | 6639.0 | (35/2+) | ||
7712.0 22 | (39/2+) | 592 1 | | 7120.0 | (37/2+) | ||
8329.0 24 | (41/2+) | 617 1 | | 7712.0 | (39/2+) | ||
8977 3 | (43/2+) | 648 1 | | 8329.0 | (41/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 6 - Band 6: ground state band | |||||||
0 | 9/2+ | 4.159 h 10 % ε = 100 | |||||
1026.39 8 | 11/2+ | 0.17 ps 7 | 1026.4 1 | 100 | M1+E2 | 0 | 9/2+ |
1428.36 8 | 13/2+ | 0.28 ps 14 | 401.97 6 1428.32 10 | 22.5 11 100 3 | M1+E2 E2 | 1026.39 0 | 11/2+ 9/2+ |
2195.26 22 | 15/2+ | 0.35 ps 14 | 766.9 2 | 100 | M1+E2 | 1428.36 | 13/2+ |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 7 - Band 7: ΔJ=1 band based on 23/2+ at 4354 keV | |||||||
4354.6 7 | (23/2+) | ||||||
4565.4 7 | (25/2+) | 211 1 768 1 1102 1 | | (M1) | 4354.6 3798.3 3462.04 | (23/2+) (23/2+) 23/2- | |
4927.8 7 | (27/2+) | 355 1 362 1 891 1 | | (M1) (M1) | 4572.6 4565.4 4037.54 | (25/2+) (25/2+) 25/2- | |
5424.8 10 | (29/2+) | 497 1 | 100 | (M1) | 4927.8 | (27/2+) | |
5918.0 10 | (31/2+) | 493 1 990 1 | 100 | (M1) | 5424.8 4927.8 | (29/2+) (27/2+) | |
6433.4 12 | (33/2+) | 515 1 1009 1 | | 5918.0 5424.8 | (31/2+) (29/2+) | ||
6927.4 15 | (35/2+) | 494 1 | | 6433.4 | (33/2+) | ||
7423.4 19 | (37/2+) | 496 1 | | 6927.4 | (35/2+) | ||
8005.4 21 | (39/2+) | 582 1 | | 7423.4 | (37/2+) | ||
8632.4 23 | (41/2+) | 627 1 | | 8005.4 | (39/2+) | ||
9317 3 | (43/2+) | 685 1 | | 8632.4 | (41/2+) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 8 - Band 8: ΔJ=1 band based on 13/2- at 2272 keV | |||||||
2272.2 3 | 13/2- | ||||||
2532.44 11 | 15/2- | 0.24 ps 10 | 259.6 5 1104.04 10 | 6.6 7 100 4 | (M1) E1 | 2272.2 1428.36 | 13/2- 13/2+ |
2868.77 12 | 17/2- | 0.40 ps 12 | 336.30 6 547.1 3 | 100 4 13.5 12 | M1(+E2) (E1) | 2532.44 2321.92 | 15/2- 15/2+ |
2958.04 13 | 19/2- | 89.24 8 856.2 2 | 100 5 42 2 | M1(+E2) E1 | 2868.77 2101.86 | 17/2- 19/2+ | |
3122.54 14 | 21/2- | 164.47 6 1021 1 | 100 | M1(+E2) | 2958.04 2101.86 | 19/2- 19/2+ | |
3462.04 16 | 23/2- | 0.8 ps 3 | 339.47 8 | 100 | M1+E2 | 3122.54 | 21/2- |
4037.54 23 | 25/2- | 0.6 ps 3 | 575.3 2 | 100 | M1 | 3462.04 | 23/2- |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 9 - Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV | |||||||
4508.37+X | (25/2-) | ||||||
5275.2+X 10 | (29/2-) | 767 1 | | 4508.37+X | (25/2-) | ||
6293.2+X 15 | (33/2-) | 1018 1 | | 5275.2+X | (29/2-) | ||
7384.2+X 18 | (37/2-) | 1091 1 | | 6293.2+X | (33/2-) | ||
8310.2+X 20 | (41/2-) | 926 1 | | 7384.2+X | (37/2-) | ||
9292.2+X 23 | (45/2-) | 982 1 | | 8310.2+X | (41/2-) | ||
10428.2+X 25 | (49/2-) | 1136 1 | | 9292.2+X | (45/2-) | ||
11730+X 3 | (53/2-) | 1302 1 | | 10428.2+X | (49/2-) | ||
13244+X 3 | (57/2-) | 1514 1 | | 11730+X | (53/2-) | ||
14821.1+X 15 | (61/2-) | 1577 1 ? | | 13244+X | (57/2-) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 10 - Band 10: ΔJ=1 band based on 27/2- at 4508.37 keV | |||||||
4508.37 25 | 27/2- | ||||||
4832.4 4 | 29/2(-) | 324.0 3 396.5 5 | 100 5 17 2 | (M1) | 4508.37 4436.0 | 27/2- 27/2(-) | |
5241.4 11 | 31/2(-) | 409 1 | 100 | (M1) | 4832.4 | 29/2(-) | |
5796.6 12 | 33/2(-) | 555.2 4 | 100 | (M1) | 5241.4 | 31/2(-) | |
6428.6 16 | (35/2-) | 632 1 | | 5796.6 | 33/2(-) | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 11 - Band 11: ΔJ=1 band based on 19/2- at 3092 keV. | |||||||
3092.10 13 | 19/2- | 0.44 ps 12 | |||||
3202.49 14 | 21/2- | 110.42 10 244.6 2 1100.8 5 | 56 3 100 5 47 2 | M1(+E2) M1(+E2) | 3092.10 2958.04 2101.86 | 19/2- 19/2- 19/2+ | |
3410.37 15 | 23/2- | 0.69 ps 21 | 207.90 6 287.79 12 | 100 5 10.0 4 | M1 (M1) | 3202.49 3122.54 | 21/2- 21/2- |
3800.14 16 | 25/2- | 1.7 ps 6 | 338.4 5 389.80 8 | 12.5 6 100 1 | (M1) M1+E2 | 3462.04 3410.37 | 23/2- 23/2- |
4436.0 5 | 27/2(-) | 636.0 5 | 100 | (M1) | 3800.14 | 25/2- | |
5024.7 7 | 29/2(-) | 588.7 5 | 100 | (M1) | 4436.0 | 27/2(-) | |
5580.1 9 | 31/2(-) | 555.4 5 | 100 | (M1) | 5024.7 | 29/2(-) | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 12 - Band 12: ΔJ=1 band based on 17/2- at 3067 keV | |||||||
3067.35 23 | 17/2- | 0.21 ps 9 | |||||
3285.8 3 | 19/2- | > 1.0 ps | 218.48 11 | 100 | M1 | 3067.35 | 17/2- |
3517.1 4 | 21/2- | 0.43 ps 10 | 231.3 2 | 100 | (M1) | 3285.8 | 19/2- |
3844.1 11 | (23/2-) | 327 1 | | 3517.1 | 21/2- |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
649.79 | 1/2- | 1.34 m 6 % IT = 100 | 649.8 2 | M4 | 0.0695 | B(M4)(W.u.)=10.0 5, α=0.0695, α(K)=0.0582 9, α(L)=0.00914 13, α(M)=0.00182 3, α(N)=0.000331 5, α(O)=2.25×10-5 4 | |
980.92 | 3/2- | 0.62 ps +30-15 | 331.2 2 | M1 | 0.0203 | B(M1)(W.u.)=0.96 +30-31, α=0.0203, α(K)=0.01761 25, α(L)=0.00215 3, α(M)=0.000417 6, α(N)=7.65×10-5 11, α(O)=5.72E-6 8 | |
1026.39 | 11/2+ | 0.17 ps 7 | 1026.4 1 | M1+E2 | +0.41 13 | 0.00133 | B(E2)(W.u.)=14 10, B(M1)(W.u.)=0.10 5, α=0.00133 3, α(K)=0.001160 23, α(L)=0.000138 3, α(M)=2.66E-5 5, α(N)=4.88E-6 9, α(O)=3.67E-7 8 |
1099.31 | 5/2+ | 0.45 ps 21 | 119.0 6 | [E1] | 0.1062 | B(E1)(W.u.)=0.0008 6, α=0.1062 22, α(K)=0.0922 19, α(L)=0.01142 24, α(M)=0.00220 5, α(N)=0.000396 8, α(O)=2.61E-5 6 | |
5/2+ | 0.45 ps 21 | 1099.2 2 | E2 | 9.85×10-4 | B(E2)(W.u.)=25 12, α=9.85E-4, α(K)=0.000858 12, α(L)=0.0001035 15, α(M)=2.00E-5 3, α(N)=3.66E-6 6, α(O)=2.68E-7 4 | ||
1171.71 | 1/2+ | 521.9 2 | E1 | 0.00204 | α=0.00204, α(K)=0.001780 25, α(L)=0.000211 3, α(M)=4.07×10-5 6, α(N)=7.43E-6 11, α(O)=5.41E-7 8 | ||
1321.25 | 5/2+ | 222.2 7 | [M1] | 0.0571 | α=0.0571 10, α(K)=0.0496 8, α(L)=0.00614 10, α(M)=0.001192 20, α(N)=0.000218 4, α(O)=1.62×10-5 3 | ||
5/2+ | 340.2 3 | [E1] | 0.00586 | α=0.00586, α(K)=0.00511 8, α(L)=0.000611 9, α(M)=0.0001179 17, α(N)=2.15×10-5 3, α(O)=1.534E-6 22 | |||
5/2+ | 1321.3 2 | E2 | 6.98×10-4 | α=6.98×10-4, α(K)=0.000584 9, α(L)=6.95E-5 10, α(M)=1.343E-5 19, α(N)=2.46E-6 4, α(O)=1.82E-7 3 | |||
1428.36 | 13/2+ | 0.28 ps 14 | 401.97 6 | M1+E2 | +0.07 +5-4 | 0.01244 | B(E2)(W.u.)=6 +9-6, B(M1)(W.u.)=0.22 12, α=0.01244, α(K)=0.01082 16, α(L)=0.001317 19, α(M)=0.000255 4, α(N)=4.68E-5 7, α(O)=3.50E-6 5 |
13/2+ | 0.28 ps 14 | 1428.32 10 | E2 | 6.30×10-4 | B(E2)(W.u.)=9 5, α=6.30E-4, α(K)=0.000500 7, α(L)=5.92E-5 9, α(M)=1.143E-5 16, α(N)=2.09E-6 3, α(O)=1.557E-7 22 | ||
1440.70 | 5/2- | 459.8 4 | (M1) | 0.00892 | α=0.00892, α(K)=0.00776 11, α(L)=0.000940 14, α(M)=0.000182 3, α(N)=3.34×10-5 5, α(O)=2.50E-6 4 | ||
5/2- | 791.0 3 | E2 | 0.00209 | α=0.00209, α(K)=0.00181 3, α(L)=0.000226 4, α(M)=4.37×10-5 7, α(N)=7.97E-6 12, α(O)=5.70E-7 8 | |||
1463.59 | 9/2+ | 0.21 ps 7 | 437.2 3 | M1 | 0.01010 | B(M1)(W.u.)=0.44 17, α=0.01010, α(K)=0.00879 13, α(L)=0.001065 15, α(M)=0.000206 3, α(N)=3.78×10-5 6, α(O)=2.84E-6 4 | |
9/2+ | 0.21 ps 7 | 1463.6 4 | [E2] | 6.14×10-4 | B(E2)(W.u.)=8 4, α=6.14E-4, α(K)=0.000476 7, α(L)=5.63E-5 8, α(M)=1.088E-5 16, α(N)=1.99E-6 3, α(O)=1.483E-7 21 | ||
1483.75 | 5/2+ | 384.5 4 | M1 | 0.01390 | α=0.01390, α(K)=0.01209 18, α(L)=0.001472 21, α(M)=0.000285 4, α(N)=5.23×10-5 8, α(O)=3.91E-6 6 | ||
1713.27 | 9/2+ | 229.2 3 | [E2] | 0.0837 | α=0.0837, α(K)=0.0696 11, α(L)=0.01146 17, α(M)=0.00226 4, α(N)=0.000400 6, α(O)=2.23×10-5 4 | ||
9/2+ | 285.0 5 | [E2] | 0.0402 | α=0.0402, α(K)=0.0338 6, α(L)=0.00516 8, α(M)=0.001012 16, α(N)=0.000180 3, α(O)=1.076×10-5 17 | |||
9/2+ | 614.1 3 | E2 | 0.00397 | α=0.00397, α(K)=0.00343 5, α(L)=0.000442 7, α(M)=8.58×10-5 12, α(N)=1.558E-5 22, α(O)=1.084E-6 16 | |||
1722.38 | 7/2+ | 623.4 4 | M1 | 0.00428 | α=0.00428, α(K)=0.00373 6, α(L)=0.000447 7, α(M)=8.65×10-5 13, α(N)=1.588E-5 23, α(O)=1.194E-6 17 | ||
1816.65 | (3/2,5/2)- | 835.7 1 | M1,E2 | 0.00216 | α=0.00216, α(K)=0.00189 3, α(L)=0.000224 4, α(M)=4.34×10-5 6, α(N)=7.96E-6 12, α(O)=6.00E-7 9 | ||
1900.28 | 13/2+ | 0.14 ps 7 | 873.95 10 | M1+E2 | +0.34 +18-17 | 0.00192 | α=0.00192 5, α(K)=0.00168 4, α(L)=0.000200 4, α(M)=3.86×10-5 8, α(N)=7.08E-6 15, α(O)=5.32E-7 13 |
1957.10 | 5/2+ | 473.2 5 | [M1] | 0.00831 | α=0.00831, α(K)=0.00724 11, α(L)=0.000875 13, α(M)=0.0001694 25, α(N)=3.11×10-5 5, α(O)=2.33E-6 4 | ||
2064.2 | (3/2-,5/2-,7/2-) | 1083.3 4 | (M1,E2) | 1.21×10-3 | α=1.21×10-3, α(K)=0.001053 15, α(L)=0.0001244 18, α(M)=2.40E-5 4, α(N)=4.41E-6 7, α(O)=3.34E-7 5 | ||
2101.86 | 19/2+ | 210.0 ms 9 % IT = 100 | 673.52 8 | M3 | 0.0251 | B(M3)(W.u.)=0.00945 5, α=0.0251, α(K)=0.0214 3, α(L)=0.00298 5, α(M)=0.000586 9, α(N)=0.0001071 15, α(O)=7.70×10-6 11 | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
2102.21 | 17/2+ | 673.85 12 | E2 | 0.00312 | α=0.00312, α(K)=0.00270 4, α(L)=0.000342 5, α(M)=6.65×10-5 10, α(N)=1.209E-5 17, α(O)=8.51E-7 12 | ||
2195.26 | 15/2+ | 0.35 ps 14 | 766.9 2 | M1+E2 | +0.190 10 | 0.00262 | B(E2)(W.u.)=7 3, B(M1)(W.u.)=0.13 6, α=0.00262, α(K)=0.00229 4, α(L)=0.000273 4, α(M)=5.27E-5 8, α(N)=9.68E-6 14, α(O)=7.29E-7 11 |
2272.2 | 13/2- | 1245.8 3 | E1 | 4.04×10-4 | α=4.04×10-4, α(K)=0.000301 5, α(L)=3.49E-5 5, α(M)=6.72E-6 10, α(N)=1.232E-6 18, α(O)=9.19E-8 13 | ||
2321.92 | 15/2+ | 421.9 2 | M1(+E2) | 0.01103 | α=0.01103, α(K)=0.00959 14, α(L)=0.001165 17, α(M)=0.000226 4, α(N)=4.14×10-5 6, α(O)=3.10E-6 5 | ||
15/2+ | 893.5 2 | M1 | 0.00186 | α=0.00186, α(K)=0.001620 23, α(L)=0.000192 3, α(M)=3.72×10-5 6, α(N)=6.82E-6 10, α(O)=5.15E-7 8 | |||
2469.04 | (3/2,5/2,7/2)+ | 985.3 2 | M1,E2 | 1.49×10-3 | α=1.49×10-3, α(K)=0.001300 19, α(L)=0.0001539 22, α(M)=2.97E-5 5, α(N)=5.46E-6 8, α(O)=4.13E-7 6 | ||
2532.44 | 15/2- | 0.24 ps 10 | 259.6 5 | (M1) | 0.0380 | B(M1)(W.u.)=0.32 14, α=0.0380, α(K)=0.0330 5, α(L)=0.00406 6, α(M)=0.000788 12, α(N)=0.0001445 22, α(O)=1.076×10-5 16 | |
15/2- | 0.24 ps 10 | 1104.04 10 | E1 | 4.33×10-4 | B(E1)(W.u.)=0.0009 4, α=4.33E-4, α(K)=0.000375 6, α(L)=4.35E-5 6, α(M)=8.38E-6 12, α(N)=1.536E-6 22, α(O)=1.143E-7 16 | ||
2868.77 | 17/2- | 0.40 ps 12 | 336.30 6 | M1(+E2) | +0.03 3 | 0.0195 | α=0.0195, α(K)=0.01694 24, α(L)=0.00207 3, α(M)=0.000402 6, α(N)=7.36×10-5 11, α(O)=5.50E-6 8 |
17/2- | 0.40 ps 12 | 547.1 3 | (E1) | 0.00183 | B(E1)(W.u.)=0.00053 17, α=0.00183, α(K)=0.001596 23, α(L)=0.000189 3, α(M)=3.64E-5 6, α(N)=6.66E-6 10, α(O)=4.85E-7 7 | ||
2958.04 | 19/2- | 89.24 8 | M1(+E2) | +0.05 LE | 0.707 | α=0.707 11, α(K)=0.611 9, α(L)=0.0779 13, α(M)=0.01514 25, α(N)=0.00277 5, α(O)=0.000203 3 | |
19/2- | 856.2 2 | E1 | 6.98×10-4 | α=6.98×10-4, α(K)=0.000610 9, α(L)=7.13E-5 10, α(M)=1.374E-5 20, α(N)=2.52E-6 4, α(O)=1.86E-7 3 | |||
3067.35 | 17/2- | 0.21 ps 9 | 534.9 2 | M1+E2 | +0.14 7 | 0.00616 | α=0.00616, α(K)=0.00537 8, α(L)=0.000648 9, α(M)=0.0001254 18, α(N)=2.30×10-5 4, α(O)=1.724E-6 25 |
3092.10 | 19/2- | 0.44 ps 12 | 223.4 2 | M1 | 0.0563 | B(M1)(W.u.)=0.57 17, α=0.0563, α(K)=0.0489 7, α(L)=0.00606 9, α(M)=0.001175 17, α(N)=0.000215 3, α(O)=1.602×10-5 23 | |
19/2- | 0.44 ps 12 | 990.25 12 | E1 | 5.25×10-4 | B(E1)(W.u.)=0.00044 13, α=5.25E-4, α(K)=0.000459 7, α(L)=5.35E-5 8, α(M)=1.031E-5 15, α(N)=1.89E-6 3, α(O)=1.402E-7 20 | ||
3122.54 | 21/2- | 164.47 6 | M1(+E2) | +0.05 LE | 0.1284 | α=0.1284 19, α(K)=0.1113 16, α(L)=0.01393 20, α(M)=0.00270 4, α(N)=0.000495 7, α(O)=3.67×10-5 6 | |
3202.49 | 21/2- | 110.42 10 | M1(+E2) | -0.12 LE | 0.391 | α=0.391 8, α(K)=0.338 6, α(L)=0.0434 14, α(M)=0.0084 3, α(N)=0.00154 5, α(O)=0.0001121 21 | |
21/2- | 244.6 2 | M1(+E2) | 0.04 LE | 0.0444 | α=0.0444, α(K)=0.0385 6, α(L)=0.00476 7, α(M)=0.000923 14, α(N)=0.0001692 24, α(O)=1.260×10-5 18 | ||
3285.8 | 19/2- | > 1.0 ps | 218.48 11 | M1 | 0.0598 | B(M1)(W.u.)<2.0, α=0.0598, α(K)=0.0518 8, α(L)=0.00643 9, α(M)=0.001247 18, α(N)=0.000229 4, α(O)=1.700×10-5 24 | |
3374.74 | (19/2-) | 0.21 ps 10 | 416.7 2 | (M1) | 0.01137 | B(M1)(W.u.)=1.4 7, α=0.01137, α(K)=0.00989 14, α(L)=0.001201 17, α(M)=0.000233 4, α(N)=4.27×10-5 6, α(O)=3.20E-6 5 | |
3410.37 | 23/2- | 0.69 ps 21 | 207.90 6 | M1 | 0.0682 | B(M1)(W.u.)=3.0 10, α=0.0682, α(K)=0.0592 9, α(L)=0.00735 11, α(M)=0.001426 20, α(N)=0.000261 4, α(O)=1.94×10-5 3 | |
23/2- | 0.69 ps 21 | 287.79 12 | (M1) | 0.0290 | B(M1)(W.u.)=0.11 4, α=0.0290, α(K)=0.0252 4, α(L)=0.00310 5, α(M)=0.000601 9, α(N)=0.0001102 16, α(O)=8.22×10-6 12 | ||
3462.04 | 23/2- | 0.8 ps 3 | 339.47 8 | M1+E2 | +0.05 3 | 0.0190 | B(E2)(W.u.)=12 +16-12, B(M1)(W.u.)=0.7 3, α=0.0190, α(K)=0.01654 24, α(L)=0.00202 3, α(M)=0.000392 6, α(N)=7.19E-5 11, α(O)=5.37E-6 8 |
3517.1 | 21/2- | 0.43 ps 10 | 231.3 2 | (M1) | 0.0514 | B(M1)(W.u.)=3.9 10, α=0.0514, α(K)=0.0446 7, α(L)=0.00552 8, α(M)=0.001071 16, α(N)=0.000196 3, α(O)=1.460×10-5 21 | |
3800.14 | 25/2- | 1.7 ps 6 | 338.4 5 | (M1) | 0.0192 | B(M1)(W.u.)=0.037 13, α=0.0192, α(K)=0.01667 25, α(L)=0.00204 3, α(M)=0.000395 6, α(N)=7.24×10-5 11, α(O)=5.41E-6 8 | |
25/2- | 1.7 ps 6 | 389.80 8 | M1+E2 | +0.04 3 | 0.01343 | B(E2)(W.u.)=1.7 +26-17, B(M1)(W.u.)=0.19 7, α=0.01343, α(K)=0.01168 17, α(L)=0.001422 20, α(M)=0.000275 4, α(N)=5.05E-5 7, α(O)=3.78E-6 6 | |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
4037.54 | 25/2- | 0.6 ps 3 | 575.3 2 | M1 | 0.00518 | B(M1)(W.u.)=0.19 10, α=0.00518, α(K)=0.00451 7, α(L)=0.000542 8, α(M)=0.0001050 15, α(N)=1.93×10-5 3, α(O)=1.448E-6 21 | |
4436.0 | 27/2(-) | 636.0 5 | (M1) | 0.00408 | α=0.00408, α(K)=0.00356 5, α(L)=0.000426 6, α(M)=8.24×10-5 12, α(N)=1.513E-5 22, α(O)=1.139E-6 16 | ||
4508.37 | 27/2- | 470.6 2 | (M1) | 0.00843 | α=0.00843, α(K)=0.00733 11, α(L)=0.000887 13, α(M)=0.0001717 25, α(N)=3.15×10-5 5, α(O)=2.36E-6 4 | ||
27/2- | 708.7 3 | (M1+E2) | 0.00316 | α=0.00316, α(K)=0.00276 4, α(L)=0.000330 5, α(M)=6.37×10-5 9, α(N)=1.170E-5 17, α(O)=8.81E-7 13 | |||
4565.4 | (25/2+) | 211 1 | (M1) | 0.0656 | α=0.0656 13, α(K)=0.0569 11, α(L)=0.00706 14, α(M)=0.00137 3, α(N)=0.000251 5, α(O)=1.87×10-5 4 | ||
4832.4 | 29/2(-) | 324.0 3 | (M1) | 0.0214 | α=0.0214, α(K)=0.0186 3, α(L)=0.00228 4, α(M)=0.000442 7, α(N)=8.10×10-5 12, α(O)=6.05E-6 9 | ||
4927.8 | (27/2+) | 355 1 | (M1) | 0.0170 | α=0.0170 3, α(K)=0.01477 24, α(L)=0.00180 3, α(M)=0.000349 6, α(N)=6.41×10-5 10, α(O)=4.79E-6 8 | ||
(27/2+) | 362 1 | (M1) | 0.0162 | α=0.0162 3, α(K)=0.01406 22, α(L)=0.00172 3, α(M)=0.000332 6, α(N)=6.09×10-5 10, α(O)=4.56E-6 8 | |||
5024.7 | 29/2(-) | 588.7 5 | (M1) | 0.00490 | α=0.00490, α(K)=0.00427 6, α(L)=0.000513 8, α(M)=9.93×10-5 14, α(N)=1.82E-5 3, α(O)=1.370E-6 20 | ||
5241.4 | 31/2(-) | 409 1 | (M1) | 0.01191 | α=0.01191, α(K)=0.01036 16, α(L)=0.001259 20, α(M)=0.000244 4, α(N)=4.47×10-5 7, α(O)=3.35E-6 6 | ||
5424.8 | (29/2+) | 497 1 | (M1) | 0.00737 | α=0.00737, α(K)=0.00642 10, α(L)=0.000775 12, α(M)=0.0001501 23, α(N)=2.75×10-5 4, α(O)=2.07E-6 3 | ||
5580.1 | 31/2(-) | 555.4 5 | (M1) | 0.00564 | α=0.00564, α(K)=0.00491 7, α(L)=0.000591 9, α(M)=0.0001143 17, α(N)=2.10×10-5 3, α(O)=1.576E-6 23 | ||
5796.6 | 33/2(-) | 555.2 4 | (M1) | 0.00564 | α=0.00564, α(K)=0.00491 7, α(L)=0.000591 9, α(M)=0.0001144 17, α(N)=2.10×10-5 3, α(O)=1.578E-6 23 | ||
5918.0 | (31/2+) | 493 1 | (M1) | 0.00752 | α=0.00752, α(K)=0.00655 10, α(L)=0.000791 12, α(M)=0.0001531 23, α(N)=2.81×10-5 5, α(O)=2.11E-6 4 | ||
6005.9 | (31/2+) | 581 1 | (M1) | 0.00506 | α=0.00506, α(K)=0.00441 7, α(L)=0.000530 8, α(M)=0.0001025 15, α(N)=1.88×10-5 3, α(O)=1.414E-6 21 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
0 | 9/2+ | 4.159 h 10 % ε = 100 | μ=+5.538 4, Q=+0.841 13 δ<r2>(115,109)=-0.410 7 (1985Ul03). E(level): δ<r2>(115,109)=-0.410 7 (1985Ul03). Band 6: ground state band. |
1026.39 | 11/2+ | 0.17 ps 7 | E(level): Band 6: ground state band. |
1099.31 | 5/2+ | 0.45 ps 21 | E(level): Band 1: ΔJ=2 band based on 5/2+ at 1099 keV. |
1428.36 | 13/2+ | 0.28 ps 14 | E(level): Band 6: ground state band. |
1713.27 | 9/2+ | E(level): Band 1: ΔJ=2 band based on 5/2+ at 1099 keV. | |
1722.38 | 7/2+ | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
2125.78 | (5/2+,7/2) | XREF: F(2128). | |
2138.43 | (3/2+) | XREF: E(2140). | |
2195.26 | 15/2+ | 0.35 ps 14 | E(level): Band 6: ground state band. |
2271.4 | (3/2+) | XREF: E(2266). | |
2272.2 | 13/2- | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. | |
2317.3 | (11/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
2356.14 | (3/2,5/2,7/2-) | XREF: E(2360). | |
2469.04 | (3/2,5/2,7/2)+ | XREF: E(2474). | |
2532.44 | 15/2- | 0.24 ps 10 | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. |
2591.85 | 7/2+ | XREF: E(2585). | |
2785.59 | (5/2+,7/2) | XREF: F(2775). | |
2845.77 | 3/2 | XREF: E(2839). | |
2858.58 | (5/2+,7/2) | XREF: F(2857). | |
2868.77 | 17/2- | 0.40 ps 12 | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. |
2958.04 | 19/2- | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. | |
2986.8 | (3/2+,5/2+) | XREF: E(2993). | |
3067.35 | 17/2- | 0.21 ps 9 | E(level): Band 12: ΔJ=1 band based on 17/2- at 3067 keV. |
3092.10 | 19/2- | 0.44 ps 12 | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. |
3122.54 | 21/2- | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. | |
E(level) | Jπ(level) | T1/2(level) | Comments |
3155.2 | (15/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
3202.49 | 21/2- | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. | |
3285.8 | 19/2- | > 1.0 ps | E(level): Band 12: ΔJ=1 band based on 17/2- at 3067 keV. |
3410.37 | 23/2- | 0.69 ps 21 | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. |
3462.04 | 23/2- | 0.8 ps 3 | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. |
3517.1 | 21/2- | 0.43 ps 10 | E(level): Band 12: ΔJ=1 band based on 17/2- at 3067 keV. |
3800.14 | 25/2- | 1.7 ps 6 | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. |
3844.1 | (23/2-) | E(level): Band 12: ΔJ=1 band based on 17/2- at 3067 keV. | |
4037.54 | 25/2- | 0.6 ps 3 | E(level): Band 8: ΔJ=1 band based on 13/2- at 2272 keV. |
4097.4 | (19/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
4300.8 | (21/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
4354.6 | (23/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
4436.0 | 27/2(-) | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. | |
4508.37 | 27/2- | E(level): Band 10: ΔJ=1 band based on 27/2- at 4508.37 keV. | |
4508.37+X | (25/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
4565.4 | (25/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
4743.7 | (25/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
4756.6 | (23/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
4832.4 | 29/2(-) | E(level): Band 10: ΔJ=1 band based on 27/2- at 4508.37 keV. | |
4927.8 | (27/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
5024.7 | 29/2(-) | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. | |
5219.8 | (27/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
5241.4 | 31/2(-) | E(level): Band 10: ΔJ=1 band based on 27/2- at 4508.37 keV. | |
5275.2+X | (29/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
5397.5 | (29/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
E(level) | Jπ(level) | T1/2(level) | Comments |
5424.8 | (29/2+) | XREF: J(?). E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
5580.1 | 31/2(-) | E(level): Band 11: ΔJ=1 band based on 19/2- at 3092 keV. | |
5761.9 | (29/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
5796.6 | 33/2(-) | E(level): Band 10: ΔJ=1 band based on 27/2- at 4508.37 keV. | |
5851.1 | (31/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
5918.0 | (31/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
6005.9 | (31/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
6263.3 | (33/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
6272.0 | (33/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
6293.2+X | (33/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
6428.6 | (35/2-) | E(level): Band 10: ΔJ=1 band based on 27/2- at 4508.37 keV. | |
6433.4 | (33/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
6506.8 | (31/2+) | E(level): Band 3: ΔJ=2 band based on (31/2+) at 6507 keV. | |
6639.0 | (35/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
6668.1 | (35/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
6927.4 | (35/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
7120.0 | (37/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
7151.1 | (35/2+) | E(level): Band 3: ΔJ=2 band based on (31/2+) at 6507 keV. | |
7288.2 | (37/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
7384.2+X | (37/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
7423.4 | (37/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
7642.1 | (39/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
7712.0 | (39/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
7981.1 | (39/2+) | E(level): Band 3: ΔJ=2 band based on (31/2+) at 6507 keV. | |
8005.4 | (39/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
E(level) | Jπ(level) | T1/2(level) | Comments |
8310.2+X | (41/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
8329.0 | (41/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
8463 | (41/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
8632.4 | (41/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
8786.1 | (43/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
8977 | (43/2+) | E(level): Band 5: ΔJ=1 band based on (29/2+) at 5762 keV. | |
8981.1 | (43/2+) | E(level): Band 3: ΔJ=2 band based on (31/2+) at 6507 keV. | |
9292.2+X | (45/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
9317 | (43/2+) | E(level): Band 7: ΔJ=1 band based on 23/2+ at 4354 keV. | |
9783 | (45/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
10105.1 | (47/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
10218.1 | (47/2+) | E(level): Band 3: ΔJ=2 band based on (31/2+) at 6507 keV. | |
10428.2+X | (49/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
11189 | (49/2+) | E(level): Band 4: ΔJ=2 band based on (21/2+) at 4300 keV. | |
11634.1 | (51/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
11642.1 | (51/2+) | E(level): Band 3: ΔJ=2 band based on (31/2+) at 6507 keV. | |
11730+X | (53/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
13244+X | (57/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. | |
13338.0 | (55/2+) | E(level): Band 2: ΔJ=2 band based on 7/2+ at 1722 keV. | |
14821.1+X | (61/2-) | E(level): Band 9: ΔJ=2 band based on (25/2-) at 4508.37+X keV. |
E(level) | E(gamma) | Comments |
649.79 | 649.8 | E(γ): Other: 650.1 3 from 108Cd(d,nγ), and 649.8 3 from 107Ag(α,2nγ). M(γ): α(exp)=0.07 2(1956Pe56), α(exp)=0.08 3, K/L=6.2 9 (1965Kh04) from 109Sn ε decay |
980.92 | 331.2 | E(γ): Other: 331.2 3 from 108Cd(d,nγ) and 331.0 4 from 107Ag(α,2nγ). M(γ): a2/a0=-0.14 4, a4/a0=+0.08 5(1979Va13) in 107Ag(α,2nγ); α(K)exp=12×10-3 (1965Kh04),α(K)exp=28×10-3 (1970Sh05) in 109Sn ε decay; a2/a0=-0.08 4 (1975Di12) in 108Cd(d,nγ) |
1026.39 | 1026.4 | E(γ): Other: 1026.0 5 from 108Cd(d,nγ), 1026.35 8 from 107Ag(α,2nγ), 1026.2 5 from 96Zr(19F,6nγ), 1025.3 6 (1994ByZZ) in 109In IT decay (0.210 s), 1027.6 1 (1997Ko51) in 92Mo(19F,2pγ). M(γ): α(K)exp=1.1×10-3 3, pol=-0.47 5, δ=+0.40 +9-4, a2/a0=+0.25 1, a4/a0=-0.04 2 (1979Va13) in 107Ag(α,2nγ); R=0.65 3 (1997Ko51) in 92Mo(19F,2pγ); α(K)exp=1.08×10-3 10, a2/a0=+0.15 3 (1975Di12) in 108Cd(d,nγ); α(K)exp=0.0046 (1970Sh05) in 109Sn ε decay |
1099.31 | 1099.2 | E(γ): Other: 1099.2 5 from 108Cd(d,nγ), and 1099.5 3 from 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=0.79×10-3 14, a2/a0=+0.01 3 (1975Di12) in 108Cd(d,nγ); α(K)exp=0.89×10-3 20, pol=0.11 13, a2/a0=+0.01 2, a4/a0=-0.033 (1979Va13) in 107Ag(α,2nγ); α(K)exp=0.0013 (1970Sh05) in 109Sn ε decay |
1171.71 | 521.9 | E(γ): Other: 522.2 3 in 108Cd(d,nγ). M(γ): α(K)exp=1.5×10-3 3, a2/a0=+0.004 30 (1975Di12) in 108Cd(d,nγ); α(K)exp=0.012 (1970Sh05) in 109Sn ε decay |
1321.25 | 1321.3 | E(γ): Other: 1320.8 5 in 108Cd(d,nγ). M(γ): α(K)exp=0.59×10-3 20, a2/a0=+0.04 3 (1975Di12) in 108Cd(d,nγ) |
1428.36 | 401.97 | E(γ): from 107Ag(α,2nγ). Others: 402.2 5 from 109In IT decay (0.210 s), 401.6 4 from 108Cd(d,nγ), 402 1 from 76Ge(37Cl,4nγ), 402.0 2 from 92Mo(19F,2pγ), and 402.2 5 from 96Zr(19F,6nγ). I(γ): weighted average of 26 7 from 109In IT decay (0.210 s), 23.1 23 from 108Cd(d,nγ), 23.8 10 from 107Ag(α,2nγ), and 19.5 14 from 96Zr(19F,6nγ). Other: 19.0 5 from 92Mo(19F,2pγ) M(γ): α(K)exp=10×10-3 4, pol=-0.25 3, δ=+0.07 03, a2/a0=-0.11 2, a4/a0=-0.03 3(1979Va13) in 107Ag(α,2nγ); α(K)exp=15×10-3 5 (1975Di12) in 108Cd(d,nγ), R=1.10 3 (1997Ko51) in 92Mo(19F,2pγ) | 1428.32 | E(γ): from 107Ag(α,2nγ). Others: 1427.5 5 from 109In IT decay (0.210 s), 1428.4 6 from 108Cd(d,nγ), 1428 1 from 76Ge(37Cl,4nγ), 1429.4 1 from 92Mo(19F,2pγ), and 1428.4 5 from 96Zr(19F,6nγ). I(γ): weighted average of 100 20 from 109In IT decay (0.210 s), 100 19 from 108Cd(d,nγ), 100.0 3 from 92Mo(19F,2pγ), and 100 6 from 96Zr(19F,6nγ). M(γ): α(K)exp=0.53×10-3 8, pol=+0.33 6, a2/a0=+0.32 1, a4/a0=-0.16 2 (1979Va13) in 107Ag(α,2nγ); R=1.56 2 (1997Ko51) in 92Mo(19F,2pγ); a2/a0=+0.32 12 (1975Di12) in 108Cd(d,nγ) |
1440.70 | 459.8 | E(γ): Other: 460.1 5 in 108Cd(d,nγ). I(γ): weighted average of 13 6 from 109Sn ε decay and 7.9 26 from 108Cd(d,nγ). M(γ): α(K)exp=8×10-3 4 (1975Di12) in 108Cd(d,nγ) | 791.0 | E(γ): weighted average of 790.9 3 from 109Sn ε decay and 791.2 5 from 108Cd(d,nγ). I(γ): weighted average of 100 4 from 109Sn ε decay and 100 13 from 108Cd(d,nγ). M(γ): α(K)exp=1.4×10-3 4, a2/a0=+0.09 8 (1975Di12) in 108Cd(d,nγ) |
1463.59 | 437.2 | E(γ): Others: 437.6 5 in 108Cd(d,nγ) and 437.0 2 in 107Ag(α,2nγ). I(γ): weighted average of 50 13 from 109Sn ε decay, 55 7 from 108Cd(d,nγ) M(γ): α(K)exp=10×10-3 4, a2/a0=-0.25 7 (1975Di12) in 108Cd(d,nγ | 1463.6 | E(γ): Other: 1463.4 5 from 108Cd(d,nγ). I(γ): weighted average of 100 30 from 109Sn ε decay and 100 17 from 108Cd(d,nγ). |
1482.22 | 501.2 | E(γ): could correspond to the 501.0γ from the 1483.9 level observed in 108Cd(d,nγ) |
1483.75 | 312.0 | E(γ): Other: 311.6 5 from 108Cd(d,nγ). I(γ): Other: 9 3 in 108Cd(d,nγ). Other: 25 3 from 109Sn ε decay. | 384.5 | E(γ): Other: 384.2 3 from 108Cd(d,nγ). I(γ): from 108Cd(d,nγ) M(γ): α(K)exp=12.4×10-3 13, a2/a0=-0.07 4 (1975Di12) in 108Cd(d,nγ) | 501.0 | M(γ): α(K)exp≈3.6×10-3, 1975Di12 in 108Cd(d,nγ) suggest (M1,E2), but not compatible with parity |
1574.30 | 1574.4 | E(γ): Other: 1573.9 5 from 108Cd(d,nγ). |
1713.27 | 614.1 | E(γ): Others: 614.2 4 from 108Cd(d,nγ), and 614.2 3 from 107Ag(α,2nγ). M(γ): M1 or E2 from α(K)exp=2.5×10-3 9 (1975Di12) in 108Cd(d,nγ), ΔJ=2 based on Jπ(1713)=9/2+ deduced from γ transitions to 5/2+ and 13/2+ rules out M1. A2/a0=-0.12 6, a4/a0=+0.024 (1979Va13) in 107Ag(α,2nγ) is for an unresolved doublet with transition in 109Cd produced in 109In decay and in the (α, pnγ) reaction. | 687 | E(γ): From 76Ge(37Cl,4nγ) only | 1713.5 | E(γ): Other: 1712.5 8 from 108Cd(d,nγ). I(γ): Other: 50 10 from 108Cd(d,nγ). |
1722.38 | 623.4 | E(γ): Other: 623.6 4 from 108Cd(d,nγ). M(γ): α(K)exp=3.5×10-3 13 (1975Di12) in 108Cd(d,nγ) | 1722.2 | E(γ): Other:1721.5 8 from 108Cd(d,nγ). I(γ): Other: 40 8 from 108Cd(d,nγ). |
1816.65 | 835.7 | E(γ): Other: 833.0 5 from 108Cd(d,nγ) M(γ): α(K)exp=1.7×10-3 7 (1975Di12) in 108Cd(d,nγ) |
1900.28 | 873.95 | E(γ): Other: 874.0 5 from 96Zr(19F,6nγ). From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=1.3×10-3 3, pol=-0.48 6, a2/a0=0.19 2, a4/a0=0.003, δ=+0.32 +17-7 (1979Va13) in 107Ag(α,2nγ); |
2064.2 | 1083.3 | E(γ): Other: 1083.9 5 from 108Cd(d,nγ). M(γ): α(K)exp≈1×10-3 (1975Di12) in 108Cd(d,nγ) |
E(level) | E(gamma) | Comments |
2101.86 | 673.52 | E(γ): from 1979Va13 in 107Ag(α,2nγ). Others: 673.5 1 from 109In IT decay (0.210 s), 673.2 from 96Zr(19F,6nγ) (2012Ne03), 674 1 from 76Ge(37Cl,4nγ) (1997VaZS). 1979Va13 also report a unplaced prompt γ ray at Eγ=673.85 with mult=E2. This prompt γ ray is also reported by 2012Ne03 in 96Zr(19F,6nγ) and by 1997Ko51 in 92Mo(19F,2pγ), and is placed from a Jπ=17/2+ level, slightly above the E=2101.8 level. M(γ): α(K)exp=19.9×10-3 20, K/L=7.5 7 (1979Va13) in 107Ag(α,2nγ) |
2102.21 | 673.85 | E(γ): placement as suggested in by 1997Ko51 and 2012Ne03. Unplaced in 1979Va13. Others: 673.9 3 (1997Ko51) in 92Mo(19F,2pγ), 673.8 5 (2012Ne03) in 96Zr(19F,6nγ). 1997VaZS in 76Ge(37Cl,4nγ) has placed an unresolved doublet of Eγ=674 1 from the isomer at E=2101.8 (Jπ=19/2+) and from a level at E=2995.4 (Jπ=17/2+). The evaluators have adopted the placement here for the latter M(γ): α(K)exp=2.4×10-3 5, a2/a0=+0.26 2, a4/a0=-0.18 3 (1979Va13) in 107Ag(α,2nγ), DCO(Q)=1.13 14 (2012Ne03) in 96Zr(19F,6nγ) |
2125.78 | 1026.4 | E(γ): not resolved with 1026.4γ from the E=1026 level. |
2138.43 | 816.2 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
2195.26 | 766.9 | E(γ): From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=2.1×10-3 4, pol=-0.85 9, δ=+0.19 +1-3, a2/a0=+0.05 2, a4/a0=-0.043 (1979Va13) in 107Ag(α,2nγ) |
2272.2 | 842 | E(γ): From 76Ge(37Cl,4nγ) only | 1245.8 | E(γ): from 107Ag(α,2nγ). Other: 1245.7 5 from 96Zr(19F,6nγ), 1246 1 from 76Ge(37Cl,4nγ) M(γ): α(K)exp<0.34×10-3, pol=+0.14 5, a2/a0=-0.26 3, a4/a0=-0.09 6 (1979Va13) in 107Ag(α,2nγ) |
2317.3 | 595 | E(γ): From 76Ge(37Cl,4nγ) only | 604 | E(γ): From 76Ge(37Cl,4nγ) only |
2321.92 | 421.9 | E(γ): From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): a2/a0=-0.19 2, a4/a0=-0.054 (1979Va13) in 107Ag(α,2nγ) | 893.5 | E(γ): others: 893 1 from 1997VaZS in 76Ge(37Cl,4nγ). 2012Ne03 in 96Zr(19F,6nγ) have tentatively placed a γ-ray of Eγ=893.7 5 from a level at E=2996. The evaluators has adopted the placement here.. From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=1.7×10-3 4, pol=-0.51 8, a2/a0=+0.10 2, a4/a0=-0.063 (1979Va13) in 107Ag(α,2nγ) | 1295.0 | E(γ): From 76Ge(37Cl,4nγ) only |
2469.04 | 985.3 | M(γ): α(K)exp=1.08×10-3 10 (1975Di12) in 108Cd(d,nγ) |
2532.44 | 259.6 | E(γ): weighted average of 259.0 4 from 107Ag(α,2nγ), 260 1 from 76Ge(37Cl,4nγ), and 260.4 5 from 96Zr(19F,6nγ). I(γ): from 96Zr(19F,6nγ). Other: 7 4 from 107Ag(α,2nγ) M(γ): a2/a0=-0.14 7, a4/a0=-0.16 14 (1979Va13) in 107Ag(α,2nγ) | 1104.04 | E(γ): others: 1104.0 10 from 92Mo(19F,2pγ), and 1103.8 5 from 96Zr(19F,6nγ), 1104 1 from 76Ge(37Cl,4nγ). From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=0.38×10-3 9, pol=+0.35 5, a2/a0=-0.266 10, a4/a0=-0.022 17 (1979Va13) in 107Ag(α,2nγ); R=0.77 2 (1997Ko51) in 92Mo(19F,2pγ); DCO(Q)=0.50 5 (2012Ne03) in 96Zr(19F,6nγ) |
2851.70 | 1825.1 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
2868.77 | 336.30 | E(γ): others: 336 1 from 76Ge(37Cl,4nγ), 335.9 1 from 92Mo(19F,2pγ), and 336.6 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) | 547.1 | E(γ): From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): a2/a0=-0.30 5, a4/a0=-0.02 8 (1979Va13) in 107Ag(α,2nγ) |
2871.19 | 816.2 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
2924.42 | 1825.1 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
2958.04 | 89.24 | E(γ): other: 88.9 5 from 96Zr(19F,6nγ), 89 1 from 76Ge(37Cl,4nγ). From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) | 856.2 | E(γ): others: 856.2 5 from 96Zr(19F,6nγ), 856 1 from 76Ge(37Cl,4nγ). From 1979Va13 in 107Ag(α,2nγ) I(γ): other: 19.8 13 from 96Zr(19F,6nγ). From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp|<1.0×10-3, pol=-0.48 6, a2/a0=+0.38 3, a4/a0=-0.04 5 (1979Va13) in 107Ag(α,2nγ) |
2995.9 | 674 | E(γ): From 76Ge(37Cl,4nγ) only |
3067.35 | 534.9 | E(γ): From 1979Va13 in 107Ag(α,2nγ) |
3092.10 | 223.4 | E(γ): weighted average of 223.4 3 from 107Ag(α,2nγ), 223 1 from 76Ge(37Cl,4nγ), 223.5 2 from 92Mo(19F,2pγ), and 223.1 5 from 96Zr(19F,6nγ). I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=24×10-3 12, a2/a0=-0.18 3, a4/a0=+0.09 5 (1979Va13) in 107Ag(α,2nγ) | 990.25 | E(γ): others: 990 1 from 76Ge(37Cl,4nγ), 989.4 10 from 92Mo(19F,2pγ), and 990.4 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) I(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=0.45×10-3 15, pol=-0.62 14, a2/a0=+0.32 3, a4/a0=-0.01 5 (1979Va13) in 107Ag(α,2nγ); R=0.85 7 (1997Ko51) in 92Mo(19F,2pγ) |
E(level) | E(gamma) | Comments |
3122.54 | 164.47 | E(γ): others: 164 1 from 76Ge(37Cl,4nγ), 164.7 2 from 92Mo(19F,2pγ), and 164.6 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=159×10-3 50, δ=0.01 5, a2/a0=-0.197 9, a4/a0=-0.017 15 (1979Va13) in 107Ag(α,2nγ); R=0.82 2 (1997Ko51) in 92Mo(19F,2pγ); DCO(Q)=0.78 8 (2012Ne03) in 96Zr(19F,6nγ) | 1021 | E(γ): From 76Ge(37Cl,4nγ) only |
3155.2 | 838 | E(γ): From 76Ge(37Cl,4nγ) only | 1053 | E(γ): From 76Ge(37Cl,4nγ) only | 1727 | E(γ): From 76Ge(37Cl,4nγ) only |
3202.49 | 110.42 | E(γ): others: 110 1 from 76Ge(37Cl,4nγ), 110.1 3 from 92Mo(19F,2pγ), and 110.4 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) I(γ): others: 23.5 6 from 92Mo(19F,2pγ), 89 5 from 96Zr(19F,6nγ). From 1979Va13 in 107Ag(α,2nγ) | 244.6 | E(γ): weighted average of 244.5 3 from 107Ag(α,2nγ), 244 1 from 76Ge(37Cl,4nγ), 244.7 2 from 92Mo(19F,2pγ), and 244.6 5 from 96Zr(19F,6nγ). I(γ): others: 100 1 from 92Mo(19F,2pγ), and 100 5 from 96Zr(19F,6nγ). From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=34×10-3 12, pol=-0.27 13, δ=0.00 4, a2/a0=-0.21 2, a4/a0=0.01 2 (1979Va13) 107Ag(α,2nγ); R=0.76 1 (1997Ko51) in 92Mo(19F,2pγ; DCO(Q)=0.70 10 (2012Ne03) in 96Zr(19F,6nγ) | 1100.8 | E(γ): From 2012Ne03 in 96Zr(19F,6nγ) I(γ): From 2012Ne03 in 96Zr(19F,6nγ) |
3273.44 | 150.9 | E(γ): seen only in 92Mo(19F,2pγ) (1997Ko51) |
3285.8 | 218.48 | E(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=36×10-3 18, a2/a0=-0.18 3, a4/a0=+0.13 4 (1979Va13) in 107Ag(α,2nγ) |
3374.74 | 416.7 | E(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): a2/a0=-0.27 2, a4/a0=-0.09 4 (1979Va13) in 107Ag(α,2nγ) |
3410.37 | 207.90 | E(γ): others: 208 1 from 76Ge(37Cl,4nγ), 207.9 1 from 92Mo(19F,2pγ), and 208.0 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) I(γ): others: 100.0 2 from 92Mo(19F,2pγ), and 100 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) | 287.79 | E(γ): others: 288 1 from 76Ge(37Cl,4nγ), 287.9 3 from 92Mo(19F,2pγ), and 288.0 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) I(γ): from 92Mo(19F,2pγ). Other: 17 3 in 107Ag(α,2nγ) and 10.8 13 in 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) M(γ): a2/a0=-0.13 5, a4/a0=-0.02 8 (1979Va13) in 107Ag(α,2nγ); DCO(d)=1.0 3 (2012Ne03) 96Zr(19F,6nγ) |
3462.04 | 339.47 | E(γ): others: 339 1 from 76Ge(37Cl,4nγ), 339.4 2 from 92Mo(19F,2pγ), and 339.7 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) |
3484.4 | 211.0 | M(γ): DCO(Q)=0.56 17, DCO(d)=1.15 20 (2012Ne03) in 96Zr(19F,6nγ) | 361.9 | M(γ): DCO(Q)=0.63 10 (2012Ne03) in 96Zr(19F,6nγ) |
3517.1 | 231.3 | E(γ): From 1979Va13 in 107Ag(α,2nγ) M(γ): a2/a0=-0.25 5, a4/a0=+0.12 3(1979Va13) (1979Va13) in 107Ag(α,2nγ) |
3528.7 | 1427 | E(γ): From 76Ge(37Cl,4nγ) only |
3653.8 | 1552 | E(γ): From 76Ge(37Cl,4nγ) only |
3798.3 | 1697 | E(γ): From 76Ge(37Cl,4nγ) only |
3800.14 | 338.4 | M(γ): DCO(Q)=0.56 5 for 339.7+338.4 (2012Ne03) in 96Zr(19F,6nγ) | 389.80 | E(γ): others: 390 1 from 76Ge(37Cl,4nγ), 389.8 2 from 92Mo(19F,2pγ), and 390.1 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) I(γ): weighted average of 100 4 from 107Ag(α,2nγ), 100 1 from 92Mo(19F,2pγ), and 100 6 from 96Zr(19F,6nγ). |
3844.1 | 327 | E(γ): From 76Ge(37Cl,4nγ) only |
4037.54 | 575.3 | E(γ): others: 576 1 from 76Ge(37Cl,4nγ), 575.4 4 from 92Mo(19F,2pγ), and 575.6 5 from 96Zr(19F,6nγ).. From 1979Va13 in 107Ag(α,2nγ) M(γ): α(K)exp=3.0×10-3 15, a2/a0=-0.29 4, a4/a0=-0.09 6 (1979Va13) in 107Ag(α,2nγ); DCO(d)=1.04 17 (2012Ne03) in 96Zr(19F,6nγ) |
4097.4 | 942 | E(γ): From 76Ge(37Cl,4nγ) only |
E(level) | E(gamma) | Comments |
4300.8 | 647 | E(γ): From 76Ge(37Cl,4nγ) only | 1305 | E(γ): From 76Ge(37Cl,4nγ) only |
4354.6 | 826 | E(γ): From 76Ge(37Cl,4nγ) only | 1232 | E(γ): From 76Ge(37Cl,4nγ) only |
4436.0 | 636.0 | E(γ): From 2012Ne03 in 96Zr(19F,6nγ) M(γ): DCO(d)=0.97 21 (2012Ne03) in 96Zr(19F,6nγ) |
4508.37 | 470.6 | M(γ): DCO(d)=0.93 14 (2012Ne03) in 96Zr(19F,6nγ) | 708.7 | M(γ): R=0.95 6 (1997Ko51) in 92Mo(19F,2pγ), DCO(d)=1.28 19 (2012Ne03) in 96Zr(19F,6nγ) |
4565.4 | 211 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) tentatively place a γ ray of 211.4 keV 5 from a level at E=4686; 1997Ko51 in 92Mo(19F,2pγ) tentatively place a γ ray of 211.0 keV 2 from a level at E=3485 keV. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ).. From 76Ge(37Cl,4nγ) only M(γ): DCO(Q)=0.56 17, DCO(d)=1.15 20 (2012Ne03) in 96Zr(19F,6nγ) | 768 | E(γ): From 76Ge(37Cl,4nγ) only | 1102 | E(γ): From 76Ge(37Cl,4nγ) only |
4572.6 | 774 | E(γ): From 76Ge(37Cl,4nγ) only |
4743.7 | 443 | E(γ): From 76Ge(37Cl,4nγ) only |
4756.6 | 659 | E(γ): From 76Ge(37Cl,4nγ) only |
4832.4 | 324.0 | E(γ): from 92Mo(19F,2pγ). Others: 324.4 5 from 96Zr(19F,6nγ), 324 1 from 76Ge(37Cl,4nγ) I(γ): from 96Zr(19F,6nγ) M(γ): R=0.90 4 (1997Ko51) in 92Mo(19F,2pγ); DCO(Q)=0.73 18 (2012Ne03) in 96Zr(19F,6nγ) | 396.5 | E(γ): other: 396 1 from 76Ge(37Cl,4nγ). From 2012Ne03 in 96Zr(19F,6nγ) I(γ): From 2012Ne03 in 96Zr(19F,6nγ) |
4927.8 | 355 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) tentatively place a γ ray of 354.8 keV 5 from a level at E=5408; 1997Ko51 in 92Mo(19F,2pγ) tentatively place a γ ray of 353.9.9 keV 2 from a level at E=(6259) keV. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ). 1997VaZS also place a γ ray of Eγ=354 1 from the level at E=6272.. From 76Ge(37Cl,4nγ) only M(γ): DCO(d)=1.2 4 (2012Ne03) in 96Zr(19F,6nγ) | 362 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) tentatively place a γ ray of 362.5 keV 5 from a level at E=3485; 1997Ko51 in 92Mo(19F,2pγ) tentatively place a γ ray of 361.9 keV 2 from a level at E=3485 keV. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ).. From 76Ge(37Cl,4nγ) only M(γ): DCO(Q)=0.63 10 (2012Ne03) in 96Zr(19F,6nγ) | 891 | E(γ): From 76Ge(37Cl,4nγ) only |
5024.7 | 588.7 | E(γ): from 96Zr(19F,6nγ). Other: 589 1 from 76Ge(37Cl,4nγ) M(γ): DCO(d)=1.0 5 (2012Ne03) in 96Zr(19F,6nγ) |
5219.8 | 463 | E(γ): From 76Ge(37Cl,4nγ) only | 476 | E(γ): From 76Ge(37Cl,4nγ) only |
5241.4 | 409 | E(γ): From 76Ge(37Cl,4nγ) only M(γ): R=0.96 4 (1997Ko51) in 92Mo(19F,2pγ); DCO(d)=1.19 23 (2012Ne03) in 96Zr(19F,6nγ) |
5275.2+X | 767 | E(γ): From 76Ge(37Cl,4nγ) only |
5397.5 | 470 | E(γ): From 76Ge(37Cl,4nγ) only | 654 | E(γ): From 76Ge(37Cl,4nγ) only |
E(level) | E(gamma) | Comments |
5424.8 | 497 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) have tentatively placed a γ-ray of Eγ=497.2 5 from a level at E=3982 and 1997Ko51 in 92Mo(19F,2pγ) have tentatively placed a γ-ray of Eγ=497.0 3 from a level at E=4474. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ).. From 76Ge(37Cl,4nγ) only M(γ): DCO(d)=1.03 16 (2012Ne03) in 96Zr(19F,6nγ) |
5580.1 | 555.4 | E(γ): From 2012Ne03 in 96Zr(19F,6nγ) M(γ): DCO(d)=0.9 3 for 555.4+554.7 (2012Ne03) in 96Zr(19F,6nγ) |
5796.6 | 555.2 | E(γ): from 92Mo(19F,2pγ) (1997Ko51). Other: 555 1 from 76Ge(37Cl,4nγ) (1997VaZS) and 554.7 5 in 96Zr(19F,6nγ) (2012Ne03). 2012Ne03 also report a γ ray of Eγ=555.4 5 from a level at E=5581. M(γ): DCO(d)=0.9 3 for 555.4+554.7 (2012Ne03) in 96Zr(19F,6nγ) |
5851.1 | 426 | E(γ): From 76Ge(37Cl,4nγ) only | 454 | E(γ): From 76Ge(37Cl,4nγ) only | 631 | E(γ): From 76Ge(37Cl,4nγ) only |
5918.0 | 493 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) have tentatively placed a γ-ray of Eγ=492.9 5 from a level at E=4475 and 1997Ko51 in 92Mo(19F,2pγ) have tentatively placed a γ-ray of Eγ=492.0 2 from a level at E=3977. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ).. From 2012Ne03 in 96Zr(19F,6nγ) M(γ): DCO(d)=1.20 22 (2012Ne03) in 96Zr(19F,6nγ) |
6005.9 | 244 | E(γ): From 76Ge(37Cl,4nγ) only | 581 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) have tentatively placed a γ-ray of Eγ=581.3 5 from a level at E=5990 and 1997Ko51 in 92Mo(19F,2pγ) have tentatively placed a γ-ray of Eγ=581.8 3 from a level at E=5905. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ). 1997VaZS also place a γ ray of Eγ=582 1 from the level at E=8005.. From 76Ge(37Cl,4nγ) only M(γ): DCO(d)=1.1 4 (2012Ne03) in 96Zr(19F,6nγ) |
6263.3 | 866 | E(γ): From 76Ge(37Cl,4nγ) only |
6272.0 | 266 | E(γ): From 76Ge(37Cl,4nγ) only | 354 | E(γ): From 76Ge(37Cl,4nγ) only |
6293.2+X | 1018 | E(γ): From 76Ge(37Cl,4nγ) only |
6428.6 | 632 | E(γ): From 76Ge(37Cl,4nγ) only |
6433.4 | 515 | E(γ): From 76Ge(37Cl,4nγ) only | 1009 | E(γ): From 76Ge(37Cl,4nγ) only |
6506.8 | 1109 | E(γ): From 76Ge(37Cl,4nγ) only |
6639.0 | 367 | E(γ): 2012Ne03 in 96Zr(19F,6nγ) have tentatively placed a γ-ray of Eγ=367.1 5 from a level at E=5054 and 1997Ko51 in 92Mo(19F,2pγ) have tentatively placed a γ-ray of Eγ=367.6 2 from a level at E=5423. The evaluators have adopted the placement here by 1997VaZS in 76Ge(37Cl,4nγ).. From 76Ge(37Cl,4nγ) only M(γ): DCO(d)=1.0 3 (2012Ne03) in 96Zr(19F,6nγ) |
6668.1 | 817 | E(γ): From 76Ge(37Cl,4nγ) only |
6927.4 | 494 | E(γ): From 76Ge(37Cl,4nγ) only |
7120.0 | 481 | E(γ): 1997Ko51 (92Mo(19F,2pγ)) tentatively placed Eγ=481.8 keV 3 from a level at E=5905 keV. From 76Ge(37Cl,4nγ) only |
7151.1 | 644 | E(γ): From 76Ge(37Cl,4nγ) only | 888 | E(γ): From 76Ge(37Cl,4nγ) only |
7288.2 | 1025 | E(γ): From 76Ge(37Cl,4nγ) only |
7384.2+X | 1091 | E(γ): From 76Ge(37Cl,4nγ) only |
E(level) | E(gamma) | Comments |
7423.4 | 496 | E(γ): From 76Ge(37Cl,4nγ) only |
7642.1 | 974 | E(γ): From 76Ge(37Cl,4nγ) only |
7712.0 | 592 | E(γ): From 76Ge(37Cl,4nγ) only |
7981.1 | 693 | E(γ): From 76Ge(37Cl,4nγ) only | 830 | E(γ): From 76Ge(37Cl,4nγ) only |
8005.4 | 582 | E(γ): From 76Ge(37Cl,4nγ) only |
8310.2+X | 926 | E(γ): From 76Ge(37Cl,4nγ) only |
8329.0 | 617 | E(γ): From 76Ge(37Cl,4nγ) only |
8463 | 1175 | E(γ): From 76Ge(37Cl,4nγ) only |
8632.4 | 627 | E(γ): From 76Ge(37Cl,4nγ) only |
8786.1 | 1144 | E(γ): From 76Ge(37Cl,4nγ) only |
8977 | 648 | E(γ): From 76Ge(37Cl,4nγ) only |
8981.1 | 1000 | E(γ): From 76Ge(37Cl,4nγ) only |
9292.2+X | 982 | E(γ): From 76Ge(37Cl,4nγ) only |
9317 | 685 | E(γ): From 76Ge(37Cl,4nγ) only |
9783 | 1320 | E(γ): From 76Ge(37Cl,4nγ) only |
10105.1 | 1319 | E(γ): From 76Ge(37Cl,4nγ) only |
10218.1 | 1237 | E(γ): From 76Ge(37Cl,4nγ) only |
10428.2+X | 1136 | E(γ): From 76Ge(37Cl,4nγ) only |
11189 | 1406 | E(γ): From 76Ge(37Cl,4nγ) only |
11634.1 | 1529 | E(γ): From 76Ge(37Cl,4nγ) only |
11642.1 | 1424 | E(γ): From 76Ge(37Cl,4nγ) only |
11730+X | 1302 | E(γ): From 76Ge(37Cl,4nγ) only |
13244+X | 1514 | E(γ): From 76Ge(37Cl,4nγ) only |
13338.0 | 1704 | E(γ): From 76Ge(37Cl,4nγ) only |
E(level) | E(gamma) | Comments |
14821.1+X | 1577 | E(γ): From 76Ge(37Cl,4nγ) only |