ADOPTED LEVELS, GAMMAS for 45Sc
Author: T. W. Burrows | Citation: Nucl. Data Sheets 109, 171 (2008) | Cutoff date: 30-Oct-2007
Full ENSDF file | Adopted Levels (PDF version)
| Q(β-)=-2062.1 keV 5 | S(n)= 11326.5 keV 19 | S(p)= 6891.5 keV 8 | Q(α)= -7936.5 keV 8 | ||
| Reference: 2012WA38 |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 0.0 | ABCDEFGHIJKLMNOPQ TUV XYZ | 7/2- | STABLE | |||||
| 12.40 5 | ABC E GHIJKLMNOPQ T V YZ | 3/2+ | 325.8 ms 42 % IT = 100 | 12.40 5 | 100 | (M2) | 0.0 | 7/2- |
| 376.50 12 | AB DEFGH JKLMN P XY | 3/2- | 43.3 ps 23 | 364.19 14 377.1 4 | 100.00 20 9.11 20 | (E1(+M2)) E2(+M3) | 12.40 0.0 | 3/2+ 7/2- |
| 543.06 14 | ABC E G IJKLMN XY | 5/2+ | 5.5 ps 6 | 166.4 530.65 15 543.14 14 | 0.7 4 100.0 7 70.5 7 | (E1) M1+E2 E1(+M2) | 376.50 12.40 0.0 | 3/2- 3/2+ 7/2- |
| 720.12 14 | A EFGHIJKLMN P XY | 5/2- | 206 fs 16 | 708.2 720.22 17 | 3.6 6 100.0 6 | (E1(+M2)) M1+E2 | 12.40 0.0 | 3/2+ 7/2- |
| 939.24 15 | E GH JKLMNO XYZ | 1/2+ | 7.3 ps +6-3 | 562.7 926.8 4 | 20.9 8 100.0 8 | (E1) D,E2 | 376.50 12.40 | 3/2- 3/2+ |
| 974.38 15 | ABC E G IJ LM Y | 7/2+ | 2.54 ps 23 | 431.77 11 962.01 11 974.42 15 | 17.7 10 54.0 14 100.0 5 | M1+E2 E2 E1+M2 | 543.06 12.40 0.0 | 5/2+ 3/2+ 7/2- |
| 1067.6 4 | DEFGH JKLMN U XY | 3/2- | 0.28 ps 6 | 347.36 33 691.11 49 1067 | 31 4 100 10 4.1 8 | (M1(+E2)) M1+E2 (E2) | 720.12 376.50 0.0 | 5/2- 3/2- 7/2- |
| 1236.70 25 | ABC EFG IJKLMNO XYZ | 11/2- | 1.80 ps 10 | 1237.07 20 | 100 | E2 | 0.0 | 7/2- |
| 1303.18 15 | E G JKL N XY | 3/2+ | 2.3 ps +7-4 | 760.2 7 926.8 5 1289.6 8 | 100 14 45 74 14 | D+Q (E1) (E2) | 543.06 376.50 12.40 | 5/2+ 3/2- 3/2+ |
| 1354.2 9 ? | C | (11/2-) | 1354? | | 0.0 | 7/2- | ||
| 1408.87 20 | A EFGHIJKLMN XY | (7/2)- | 257 fs +23-18 | 688.9 5 1032.4 4 1408.6 5 | 7.4 12 4.9 5 100.0 5 | D,E2 (E2) M1+E2 | 720.12 376.50 0.0 | 5/2- 3/2- 7/2- |
| 1433.49 21 | BC E GH JKL Y | 9/2+ | 3.6 ps 18 | 197.53 29 ? 459.06 17 890.9 8 1435.4 16 | 4 27 8 100 13 17.0 19 | (E1) M1+E2 E2(+M3) (E1(+M2)) | 1236.70 974.38 543.06 0.0 | 11/2- 7/2+ 5/2+ 7/2- |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 1472.5 9 ? | J | (7/2+) | 752 1 ? 1474 2 ? | | 720.12 0.0 | 5/2- 7/2- | ||
| 1556.2 5 | EFGH JKL N | (3/2)- | 0.28 ps +12-8 | 488.5 10 616.3? 1013.8? 1179.02? | 100 11 8.9 16 <20 5.7 12 | (M1) (E1) D,E2 | 1067.6 939.24 543.06 376.50 | 3/2- 1/2+ 5/2+ 3/2- |
| 1662.0 4 | A EFG IJKLM V Y | 9/2- | 98 fs 10 | 253.8 5 ? 425.1 3 942.0 6 ? 1662.4 6 | 13 3 19 4 14 8 100 5 | M1 (M1(+E2)) (E2) M1+E2 | 1408.87 1236.70 720.12 0.0 | (7/2)- 11/2- 5/2- 7/2- |
| 1716 30 ? | K | |||||||
| 1800.0 5 | A E G IJKL N V X Z | 5/2+ | 65 fs 15 | 497.7? 733.3? 1080.9? 1257.2 5 1424.5? 1788.1 6 1800.1 6 | 31 8 8 62 3 23 100 3 22.1 22 | (M1) (E1) (E1) D+Q (E1) D+Q (E1) | 1303.18 1067.6 720.12 543.06 376.50 12.40 0.0 | 3/2+ 3/2- 5/2- 5/2+ 3/2- 3/2+ 7/2- |
| 1900.7 3 | GH | 833.45 | 100 | 1067.6 | 3/2- | |||
| 1930.6 3 | G X | 1/2,3/2,5/2+ | 991.49 | 100 | 939.24 | 1/2+ | ||
| 1935.5 10 | L X | 32 fs +16-11 | 1935.5 10 | 100 | D,E2 | 0.0 | 7/2- | |
| 1935.5? | L X | 61 fs +22-16 | 1559? | 100 | D,E2 | 376.50 | 3/2- | |
| 2031.2 7 | BC E G KL X | 11/2+ | 0.76 ps +12-8 | 597.4 5 794.2 5 1056.14 23 | 100 12 5 98 29 | M1+E2 (E1) E2(+M3) | 1433.49 1236.70 974.38 | 9/2+ 11/2- 7/2+ |
| 2090 | Z | 15/2- | ||||||
| 2093.0 5 | EFG IJKL X | 5/2 | 8.3 fs 21 | 788.8? 1023.7 1715.5 2094.0 10 | <30 12.0 24 8.4 24 100.0 24 | D(+Q) D,E2 D(+Q) | 1303.18 1067.6 376.50 0.0 | 3/2+ 3/2- 3/2- 7/2- |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 2106.2 5 | G | LE 7/2 | 1038.98 | 100 | 1067.6 | 3/2- | ||
| 2106.3 3 | BC E KL O | 15/2- | > 1.4 ps | 869.57 13 | 100 | E2 | 1236.70 | 11/2- |
| 2138.4 5 | G L X | 3/2-,5/2 | 0.31 ps +9-7 | 583.34 2138.29 | 40 12 1.0E2 3 | D D,E2 | 1556.2 0.0 | (3/2)- 7/2- |
| 2151.0 5 | G K X | (1/2,3/2,5/2) | 60 fs +17-12 | 847.4 2138.5 | 11.1 23 100 10 | D,E2 D,E2 | 1303.18 12.40 | 3/2+ 3/2+ |
| 2152.0? | KL X | 596.4? 1084.0? 1608.8? | 100 52 98 | 1556.2 1067.6 543.06 | (3/2)- 3/2- 5/2+ | |||
| 2221.8 5 | G X | (3/2-,5/2) | 2209.42 2220.6 18 ? | 100 16 47 16 | 12.40 0.0 | 3/2+ 7/2- | ||
| 2224.2 5 | JKL X | 5/2+,7/2+ | 790.7 920.8 1504.0 1681.2 2212? 2224? | 56 26 100 74 | 1433.49 1303.18 720.12 543.06 12.40 0.0 | 9/2+ 3/2+ 5/2- 5/2+ 3/2+ 7/2- | ||
| 2288.5 6 | HI KL Y | (7/2-,9/2) | 0.21 ps 7 | 1049.2 10 1316.0 5 ? 2289.7 7 | 82 58 11 100 13 | D,E2 D,E2 D,E2 | 1236.70 974.38 0.0 | 11/2- 7/2+ 7/2- |
| 2303.8 5 | FGHIJ L N Y | (5/2-) | 55 fs +35-17 | 641.1 5 ? 1235.8 1926.7 2290.7 | 25 8 100 21 92 19 71 13 | (E2) D,E2 D,Q (E1) | 1662.0 1067.6 376.50 12.40 | 9/2- 3/2- 3/2- 3/2+ |
| 2321.5 10 | H L N | 3/2-,5/2,7/2+ | 45 fs +11-7 | 2308.8 13 2321.7 14 | 100 12 45 12 | D,E2 D,E2 | 12.40 0.0 | 3/2+ 7/2- |
| 2341.0 4 | FGHIJKL Y | (7/2-) | 31 fs 7 | 931.34 32 ? 1622.5? 2341.6 10 | ≤100 42.95 1.0E2 3 | D D,E2 D,E2 | 1408.87 720.12 0.0 | (7/2)- 5/2- 7/2- |
| 2352.2 5 | FGH KL Y | 3/2-,5/2 | 797.3 1285.7 1632.4 2340.1 2350.4 10 | 47 9 20 4 100 20 56 12 5.4 11 | 1556.2 1067.6 720.12 12.40 0.0 | (3/2)- 3/2- 5/2- 3/2+ 7/2- | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 2385 7 ? | K | |||||||
| 2531.0 5 | G KL | (1/2+,3/2,5/2) | 1227.6 1988.1 2516.3 | 28 6 100 20 72 14 | 1303.18 543.06 12.40 | 3/2+ 5/2+ 3/2+ | ||
| 2563.2 4 | BC E K | 13/2+ | 1.0 ps 3 | 457.5 531.7 1129.8 3 1325.8 | 42 34 11 100 47 | (E1) D,E2 E2(+M3) (E1) | 2106.3 2031.2 1433.49 1236.70 | 15/2- 11/2+ 9/2+ 11/2- |
| 2590.0 6 | FG I KL | 3/2-,5/2,7/2- | 35 fs 8 | 1032.8 4 ? 1524.5 4 ? 1869.7 15 ? 2212.7 13 2590.0? | ≤35 61 18 17 13 100 20 67 14 | D,E2 D,E2 D,E2 | 1556.2 1067.6 720.12 376.50 0.0 | (3/2)- 3/2- 5/2- 3/2- 7/2- |
| 2601.4 5 | FG K | 1/2+,3/2,5/2 | 1045.4 1534.2 2059.28? 2224.30 2590.45? | 30 6 100 10 35 15 56 12 1.0E2 5 | 1556.2 1067.6 543.06 376.50 12.40 | (3/2)- 3/2- 5/2+ 3/2- 3/2+ | ||
| 2634 7 ? | K | |||||||
| 2700 7 ? | K | |||||||
| 2747.0 10 | FGH K U Z | 5/2-,7/2- | ||||||
| 2778.7 8 | G JKL | (1/2-,3/2,5/2) | 2058.6 2402 | 47 9 100 21 | 720.12 376.50 | 5/2- 3/2- | ||
| 2860.7? | G | (1/2-,3/2,5/2) | 1558? 2140? | | 1303.18 720.12 | 3/2+ 5/2- | ||
| 2895.2 5 | G | 1/2+,3/2,5/2 | 7 fs 4 | 2352.1 5 | 100 | D,E2 | 543.06 | 5/2+ |
| 2903.8 7 | FG N | 3/2+,5/2+ | 1836.4 2361 | 100 20 61 13 | 1067.6 543.06 | 3/2- 5/2+ | ||
| 2943 7 | F K Z | (5/2)+ | ||||||
| 2960 30 ? | O Y | (9/2+,11/2-) | ||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 2964.0 15 ? | G Y | (3/2+,5/2+) | 1990? 2027? | | 974.38 939.24 | 7/2+ 1/2+ | ||
| 2979.8 18 | D FGH K Y | 3/2- | 1425 2605.5 | 100 20 92 20 | 1556.2 376.50 | (3/2)- 3/2- | ||
| 3025.5 6 | FGH KL | 1/2-,3/2- | 803.5 6 ? 931.34 32 ? 2305.9 2648.73? | 18 7 5.2 10 19 4 100 | 2221.8 2093.0 720.12 376.50 | (3/2-,5/2) 5/2 5/2- 3/2- | ||
| 3059 7 ? | K | |||||||
| 3092.0 8 | GH | 1/2+,3/2,5/2 | 2024.4 2550.3 | 100 21 72 14 | 1067.6 543.06 | 3/2- 5/2+ | ||
| 3104 | GH K | (3/2,5/2) | 3104? | 100 | 0.0 | 7/2- | ||
| 3111.2 8 | GH K | 7/2+ | 1082.6 | 100 | 2031.2 | 11/2+ | ||
| 3136.3 7 | FGH | 5/2-,7/2-,9/2- | ||||||
| 3159.1 6 | E H K | 1052.8 5 | 100 | 2106.3 | 15/2- | |||
| 3198 9 | H K | |||||||
| 3224 7 ? | K | |||||||
| 3283 7 | F K | (+) | ||||||
| 3294.9 8 | BC | 15/2+ | 0.46 ps 5 | 732 1263 | 100 13 62 25 | M1,E2 (E2) | 2563.2 2031.2 | 13/2+ 11/2+ |
| 3329 7 | F K | + | ||||||
| 3349 7 | F K | (+) | ||||||
| 3363.5 7 | C | (15/2-) | 1257 2009? 2127 | | 2106.3 1354.2 1236.70 | 15/2- (11/2-) 11/2- | ||
| 3366.4 8 | FGH | (5/2)- | 1957.9 | 100 | 1408.87 | (7/2)- | ||
| 3400 8 | H K | 1/2-,3/2- | ||||||
| 3443 7 | K | + | ||||||
| 3457 | D FG | (5/2)- | 2216? 2520? | | 1236.70 939.24 | 11/2- 1/2+ | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 3462.1 8 | FG | 5/2-,7/2- | 3085.5 | 100 | 376.50 | 3/2- | ||
| 3475 | G N | 3/2+,5/2+ | ||||||
| 3487.4 8 | GH K | 3/2- | 2766.8 3110.7 3488.3 | 89 19 74 16 100 21 | 720.12 376.50 0.0 | 5/2- 3/2- 7/2- | ||
| 3525.2 8 | G | 3/2-,5/2 | 1969.6 3525 | 43 9 100 20 | 1556.2 0.0 | (3/2)- 7/2- | ||
| 3548.5 8 | G | 1/2+,3/2,5/2,7/2+ | 3005.4 3536.4 | 100 20 75 16 | 543.06 12.40 | 5/2+ 3/2+ | ||
| 3569.6 7 | BC | 17/2- | < 0.07 ps | 1463.3 | 100 | M1,E2 | 2106.3 | 15/2- |
| 3581 15 | F H | 5/2-,7/2-,9/2- | ||||||
| 3584 1 | GH | 1/2,3/2,5/2+ | 2645 | 100 | 939.24 | 1/2+ | ||
| 3606 7 | F H K | + | ||||||
| 3692.9 4 | BC O Z | 19/2- | 1.39 ps 14 | 122.9 1586.56 20 | 21 7 100 | M1(+E2) E2 | 3569.6 2106.3 | 17/2- 15/2- |
| 3714.3 8 | D FGH K N Z | 1/2,3/2,5/2 | 13 fs +14-10 | 1621.8 2158.6 | 64 14 100 20 | D,E2 D,E2 | 2093.0 1556.2 | 5/2 (3/2)- |
| 3722.3 10 | D FGH K N | 3345.7 | 100 | 376.50 | 3/2- | |||
| 3776 13 | H K | (+) | ||||||
| 3864.0 15 ? | G | |||||||
| 3882 11 | D FGH | (1/2-) | 2580 3507 | 79 100 | 1303.18 376.50 | 3/2+ 3/2- | ||
| 3890 30 ? | K | + | ||||||
| 3916 7 | H K | 1/2-,3/2- | ||||||
| 3938 15 | F | 5/2-,7/2-,9/2- | ||||||
| 3982 7 | GH K N | 3/2+,5/2+ | ||||||
| 4031 7 | K | + | ||||||
| 4034 11 | F H | 5/2-,7/2-,9/2- | ||||||
| 4055.4 6 | C | 17/2+ | 0.28 ps 6 | 760 1492.5 1949 | 9 78 100 | D,E2 (E2) (E1(+M2)) | 3294.9 2563.2 2106.3 | 15/2+ 13/2+ 15/2- |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 4084.9 10 | FG K | (1/2-,3/2-) | 3146.5 10 | 100 | 939.24 | 1/2+ | ||
| 4129 7 | H K | |||||||
| 4178 11 | F H N | |||||||
| 4244 11 | F H | |||||||
| 4307 13 | H K | - | ||||||
| 4360 15 | H N | 3/2+,5/2+ | ||||||
| 4424 15 | H K | |||||||
| 4464 15 | F H K | |||||||
| 4505 15 | FGH | 1/2-,3/2- | 1398 3436 | 100 64 | 3104 1067.6 | (3/2,5/2) 3/2- | ||
| 4546 11 | F H | |||||||
| 4610 30 ? | O | (13/2-,15/2+) | ||||||
| 4610 11 | F H | |||||||
| 4662 11 | FGH | (1/2,3/2) | 4298 | 100 | 376.50 | 3/2- | ||
| 4690 30 ? | O | (13/2+,15/2-) | ||||||
| 4713 15 | F H | |||||||
| 4739 15 | D F H N | |||||||
| 4774 15 | D F H N | |||||||
| 4801 15 | F H | |||||||
| 4824 11 | F H | |||||||
| 4869 15 | H | |||||||
| 4895.4 11 | C | 19/2+ | 0.21 ps 4 | 840 1600.5 | 20 100 | D,E2 (E2) | 4055.4 3294.9 | 17/2+ 15/2+ |
| 4919 11 | F H | (1/2-,3/2-) | ||||||
| 4950 30 ? | O | (17/2+) | ||||||
| 4965 11 | F H | 5/2-,7/2-,9/2- | ||||||
| 5009 15 | H | |||||||
| 5049 15 | H | |||||||
| 5084 15 | H | |||||||
| 5125 15 | H | |||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 5169 15 | H O | |||||||
| 5219 15 | H O | |||||||
| 5261 11 | F H | |||||||
| 5299 11 | D F H N | |||||||
| 5374 15 | D H N | |||||||
| 5418.3 7 | BC O | 23/2- | 1.32 ps 14 | 1725.5 | 100 | (E2) | 3692.9 | 19/2- |
| 5419 15 ? | H | |||||||
| 5444 15 | H | |||||||
| 5504 15 | H | |||||||
| 5516.4 6 | C | (19/2-) | 1824 1946 2153 3410 | | 3692.9 3569.6 3363.5 2106.3 | 19/2- 17/2- (15/2-) 15/2- | ||
| 5574 15 | H | |||||||
| 5604 15 | H | |||||||
| 5669 12 | F H N | 3/2+,5/2+ | ||||||
| 5696.8 7 | C | 21/2+ | 0.28 ps 14 | 1641 2004 | 100 78 | (E2) (E1(+M2)) | 4055.4 3692.9 | 17/2+ 19/2- |
| 5710.6 7 | C | (21/2-) | 292.5 2016.3 2142 | | D+Q,Q | 5418.3 3692.9 3569.6 | 23/2- 19/2- 17/2- | |
| 5774 20 | F H | |||||||
| 5810 20 | F H | |||||||
| 5834 20 | F H | |||||||
| 5931 20 | H | |||||||
| 5964 20 | H | |||||||
| 5971 20 | H | |||||||
| 6004 20 | H | |||||||
| 6031 20 | H | |||||||
| 6119 17 | F H | |||||||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 6179 20 | H | |||||||
| 6202 20 | H | |||||||
| 6244 20 | H | |||||||
| 6332 13 | F H | |||||||
| 6369 15 | F N | 3/2+,5/2+ | ||||||
| 6438 12 | F H | |||||||
| 6476 15 | F | |||||||
| 6551 15 | F | 5/2-,7/2-,9/2- | ||||||
| 6609 15 | F | |||||||
| 6667 15 | F Z | (5/2-,7/2-,9/2-) | ||||||
| 6683.9 11 | C | 23/2+ | 0.17 ps 4 | 988 1789 | 16 100 | D,E2 (E2) | 5696.8 4895.4 | 21/2+ 19/2+ |
| 6699 15 | F Z | 7/2- | ||||||
| 6.75E+3 | N | 3/2+,5/2+ | ||||||
| 6751 15 | F | (5/2-,7/2-,9/2-) | ||||||
| 6820 15 | F | 5/2-,7/2-,9/2- | ||||||
| 7612.6 7 | C | (23/2-) | 1902 2096 2194 3920 | | 5710.6 5516.4 5418.3 3692.9 | (21/2-) (19/2-) 23/2- 19/2- | ||
| 7.65E+3? | N | |||||||
| 7696.3 15 ? | C | 1986? | | 5710.6 | (21/2-) | |||
| 7711.0 18 | G | 3991 4225 4577 4614 4731 4809 4818 4934 5111 5123 5182 5361 5410 5562? 5562? 5621 6410 6645 6774 6992 7170 7336 7700 | 17 4 3.3 7 6.7 14 3.3 7 17 4 3.3 7 6.7 14 23 5 3.3 7 10.0 20 10.0 20 3.3 7 6.7 14 3.3 7 3.3 7 6.7 14 3.3 7 10.0 20 100 20 33 7 20 4 17 4 23 5 | 3722.3 3487.4 3136.3 3104 2979.8 2903.8 2895.2 2778.7 2601.4 2590.0 2531.0 2352.2 2303.8 2152.0 2151.0 2093.0 1303.18 1067.6 939.24 720.12 543.06 376.50 12.40 | 3/2- 5/2-,7/2-,9/2- (3/2,5/2) 3/2- 3/2+,5/2+ 1/2+,3/2,5/2 (1/2-,3/2,5/2) 1/2+,3/2,5/2 3/2-,5/2,7/2- (1/2+,3/2,5/2) 3/2-,5/2 (5/2-) (1/2,3/2,5/2) 5/2 3/2+ 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ | |||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 7712.5 17 | G | 3991 4225 4577 4614 4731 4809 4818 4934 5111 5123 5182 5361 5410 5562? 5562? 5621 6410 6645 6774 6992 7170 7336 7700 | 17 4 3.3 7 6.7 14 3.3 7 17 4 3.3 7 6.7 14 23 5 3.3 7 10.0 20 10.0 20 3.3 7 6.7 14 3.3 7 3.3 7 6.7 14 3.3 7 10.0 20 100 20 33 7 20 4 17 4 23 5 | 3722.3 3487.4 3136.3 3104 2979.8 2903.8 2895.2 2778.7 2601.4 2590.0 2531.0 2352.2 2303.8 2152.0 2151.0 2093.0 1303.18 1067.6 939.24 720.12 543.06 376.50 12.40 | 3/2- 5/2-,7/2-,9/2- (3/2,5/2) 3/2- 3/2+,5/2+ 1/2+,3/2,5/2 (1/2-,3/2,5/2) 1/2+,3/2,5/2 3/2-,5/2,7/2- (1/2+,3/2,5/2) 3/2-,5/2 (5/2-) (1/2,3/2,5/2) 5/2 3/2+ 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ | |||
| 7714.9 17 | G | 3991 4225 4577 4614 4731 4809 4818 4934 5111 5123 5182 5361 5410 5562? 5562? 5621 6410 6645 6774 6992 7170 7336 7700 | 17 4 3.3 7 6.7 14 3.3 7 17 4 3.3 7 6.7 14 23 5 3.3 7 10.0 20 10.0 20 3.3 7 6.7 14 3.3 7 3.3 7 6.7 14 3.3 7 10.0 20 100 20 33 7 20 4 17 4 23 5 | 3722.3 3487.4 3136.3 3104 2979.8 2903.8 2895.2 2778.7 2601.4 2590.0 2531.0 2352.2 2303.8 2152.0 2151.0 2093.0 1303.18 1067.6 939.24 720.12 543.06 376.50 12.40 | 3/2- 5/2-,7/2-,9/2- (3/2,5/2) 3/2- 3/2+,5/2+ 1/2+,3/2,5/2 (1/2-,3/2,5/2) 1/2+,3/2,5/2 3/2-,5/2,7/2- (1/2+,3/2,5/2) 3/2-,5/2 (5/2-) (1/2,3/2,5/2) 5/2 3/2+ 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ | |||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 7725.0 17 | G | 3/2(-) | 3742? 4003 4359 4589 4633 4830 4947 5124 5135 5194 5422 5574? 5574? 5633 6170 6422 6658 6786 7005 7182 7348 7713 | 20 4 33 7 27 6 20 4 27 6 27 6 53 11 20 4 33 7 33 7 60 12 20 4 20 4 40 8 3.3 7 3.3 7 20 4 20 4 40 8 100 20 60 12 6.7 14 | D+Q D+Q D+Q | 3982 3722.3 3366.4 3136.3 3092.0 2895.2 2778.7 2601.4 2590.0 2531.0 2303.8 2152.0 2151.0 2093.0 1556.2 1303.18 1067.6 939.24 720.12 543.06 376.50 12.40 | 3/2+,5/2+ (5/2)- 5/2-,7/2-,9/2- 1/2+,3/2,5/2 1/2+,3/2,5/2 (1/2-,3/2,5/2) 1/2+,3/2,5/2 3/2-,5/2,7/2- (1/2+,3/2,5/2) (5/2-) (1/2,3/2,5/2) 5/2 (3/2)- 3/2+ 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ | |
| 7774.4 17 | G | 3/2(+) | 3690 3911? 4061 4191 4226 4250 4287 4313 4408 4664 4676? 4683 4749 4793 4811? 4873 4880 4996 5173 5244 5422 5472 5624? 5624? 5682 5975 6219 6471 6707 6836 7054 7231 7398 7762 | 7.1 15 21 5 36 7 14 3 14 3 14 3 21 5 14 3 7.1 15 14 3 21 5 7.1 15 43 9 14 3 7.1 15 36 7 7.1 15 7.1 15 29 6 14.3 15 57 12 21 5 29 6 29 6 14 3 7.1 15 21 5 7.1 15 21 5 100 22 29 6 29 6 29 6 29 6 | D+Q D+Q D+Q D+Q D+Q | 4084.9 3864.0 3714.3 3584 3548.5 3525.2 3487.4 3462.1 3366.4 3111.2 3104 3092.0 3025.5 2979.8 2964.0 2903.8 2895.2 2778.7 2601.4 2531.0 2352.2 2303.8 2152.0 2151.0 2093.0 1800.0 1556.2 1303.18 1067.6 939.24 720.12 543.06 376.50 12.40 | (1/2-,3/2-) 1/2,3/2,5/2 1/2,3/2,5/2+ 1/2+,3/2,5/2,7/2+ 3/2-,5/2 3/2- 5/2-,7/2- (5/2)- 7/2+ (3/2,5/2) 1/2+,3/2,5/2 1/2-,3/2- 3/2- (3/2+,5/2+) 3/2+,5/2+ 1/2+,3/2,5/2 (1/2-,3/2,5/2) 1/2+,3/2,5/2 (1/2+,3/2,5/2) 3/2-,5/2 (5/2-) (1/2,3/2,5/2) 5/2 5/2+ (3/2)- 3/2+ 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ | |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 7929.3 8 | C | 25/2+ | < 0.07 ps | 1245 2231.5 2511 | 32 100 | (E2) D+Q,E2 | 6683.9 5696.8 5418.3 | 23/2+ 21/2+ 23/2- |
| 8003.4 12 | C | 19/2- TO 27/2- | < 0.07 ps | 2585 | 100 | D,E2 | 5418.3 | 23/2- |
| 8111.6 9 | G | 3/2- | 37 eV 9 | 3439 3611 4230 6021 7174 7393 7739 8101 | 59 9 55 9 100 14 91 14 23 27 41 50 9 | D+Q (M1+E2) (M1+E2) D+Q [E1] (E1+M2) | 4662 4505 3882 2093.0 939.24 720.12 376.50 12.40 | (1/2,3/2) 1/2-,3/2- (1/2-) 5/2 1/2+ 5/2- 3/2- 3/2+ |
| 8118.3 | G | 20 eV +8-18 | ||||||
| 8127.7 9 | G | 3/2- | 23 eV 7 | 3456 3628 4247 6038 7410 7587 8118 | 77 12 92 16 100 16 69 12 8 23 15 | D+Q (M1+E2) (M1+E2) D+Q [E1] [E1] | 4662 4505 3882 2093.0 720.12 543.06 12.40 | (1/2,3/2) 1/2-,3/2- (1/2-) 5/2 5/2- 5/2+ 3/2+ |
| 8305.3 15 ? | C | 2595? | | 5710.6 | (21/2-) | |||
| 8364.4 9 | C | 25/2+ | < 0.07 ps | 1680.5 2946 | 100 | D+Q,E2 | 6683.9 5418.3 | 23/2+ 23/2- |
| 8436.1 | G | 3/2-,5/2 | 7895 8060 8424 8436 | 100 58 42 42 | 543.06 376.50 12.40 0.0 | 5/2+ 3/2- 3/2+ 7/2- | ||
| 8471.3 | G | 5/2+ | 7406 7498 7531 7930 8095 8459 8471 | 69 59 62 23 36 100 33 | 1067.6 974.38 939.24 543.06 376.50 12.40 0.0 | 3/2- 7/2+ 1/2+ 5/2+ 3/2- 3/2+ 7/2- | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8475.8 | G | (3/2)- | 12 eV 5 | 6135 7408 7536 7755 7933 8099 8463 | 18 82 73 34 100 37 95 | [E2] [E1] [E1] [E1] | 2341.0 1067.6 939.24 720.12 543.06 376.50 12.40 | (7/2-) 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ |
| 8484.4 | G | (3/2)- | 25 eV 7 | 7417 7941 8472 | 100 40 16 | [E1] [E1] | 1067.6 543.06 12.40 | 3/2- 5/2+ 3/2+ |
| 8491.9 | G | 3/2- | 7772 8115 8491 | 94 100 39 | [E2] | 720.12 376.50 0.0 | 5/2- 3/2- 7/2- | |
| 8497.7 | G | 3/2- | 80 eV 15 | 5042? 5473? 5535? 5590? 5637? 6147? 6157? 6343? 6943 7196 7430 7529 5 ? 7561? 7777 7954 8121 8485 | <11 <11 14 11 11 37 4 32 25 41 25 3 22 100 39 83 29 | (E2) D(+Q) (E1(+M2)) [M2] (E1(+M2)) [E1] D+Q | 3457 3025.5 2964.0 2903.8 2860.7 2352.2 2341.0 2152.0 1556.2 1303.18 1067.6 974.38 939.24 720.12 543.06 376.50 12.40 | (5/2)- 1/2-,3/2- (3/2+,5/2+) 3/2+,5/2+ (1/2-,3/2,5/2) 3/2-,5/2 (7/2-) (3/2)- 3/2+ 3/2- 7/2+ 1/2+ 5/2- 5/2+ 3/2- 3/2+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8503.3 | G | 3/2- | 400 eV 40 | 4783? 5027? 5477? 6152? 6163? 6946? 7436 7564 7783 7960 8126 8491 8504? | <3 <3 <3 18 14 <3 10 100 38 14 19 17 74 | (E2) (E1+M2) [E1] [E1] [E2] | 3722.3 3475 3025.5 2352.2 2341.0 1556.2 1067.6 939.24 720.12 543.06 376.50 12.40 0.0 | 3/2+,5/2+ 1/2-,3/2- 3/2-,5/2 (7/2-) (3/2)- 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ 7/2- |
| 8509.5 | G | 3/2- | 5534? 5765? 5910? 6170? 6208? 6711? 7102? 7208? 7444? 7537? 7572? 7792 7968? 8135 8499 8511 | 21 21 6 29 17 6 33 2 46 10 12 100 58 29 | 2979.8 2747.0 2601.4 2341.0 2303.8 1800.0 1408.87 1303.18 1067.6 974.38 939.24 720.12 543.06 376.50 12.40 0.0 | 3/2- 5/2-,7/2- 1/2+,3/2,5/2 (7/2-) (5/2-) 5/2+ (7/2)- 3/2+ 3/2- 7/2+ 1/2+ 5/2- 5/2+ 3/2- 3/2+ 7/2- | ||
| 8515.9 | G | 3/2- | 60 eV 10 | 6175 7577 7796 8139 8503 | 17 100 19 14 2 | [E2] (E1) [E1] | 2341.0 939.24 720.12 376.50 12.40 | (7/2-) 1/2+ 5/2- 3/2- 3/2+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8519.3 | G | 3/2- | 30 eV 7 | 6179 7799 8142 8507 | 20 100 43 60 | [E2] [E1] | 2341.0 720.12 376.50 12.40 | (7/2-) 5/2- 3/2- 3/2+ |
| 8528.4 | G | (3/2)- | 7 eV 5 | 7461 7808 7985 8152 8516 | 56 32 100 21 44 | [E1] [E1] | 1067.6 720.12 543.06 376.50 12.40 | 3/2- 5/2- 5/2+ 3/2- 3/2+ |
| 8529.2 | G | (3/2)- | 5 eV 3 | 6189 7590 8152 8516 | 100 28 33 17 | [E2] [E1] [E1] | 2341.0 939.24 376.50 12.40 | (7/2-) 1/2+ 3/2- 3/2+ |
| 8533.1 | G | 3/2- | 10 eV 5 | 7466 7594 7990 | 40 17 100 | [E1] [E1] | 1067.6 939.24 543.06 | 3/2- 1/2+ 5/2+ |
| 8543.2 | G | 3/2- | 10 eV 5 | 7476 7604 7823 8000 8166 8530 | 63 100 52 82 11 10 | [E1] [E1] [E1] | 1067.6 939.24 720.12 543.06 376.50 12.40 | 3/2- 1/2+ 5/2- 5/2+ 3/2- 3/2+ |
| 8552.7 | G | (1/2)- | 10 eV 5 | 7485 7613 8176 8540 | 100 35 19 45 | [E1] [E1] | 1067.6 939.24 376.50 12.40 | 3/2- 1/2+ 3/2- 3/2+ |
| 8580.1 | G | 1/2- | 50 eV 10 | 7513 7641 8567 | 100 26 23 | [E1] [E1] | 1067.6 939.24 12.40 | 3/2- 1/2+ 3/2+ |
| 8591.4 | G | (1/2)- | 15 eV 5 | 7524 7652 8215 8579 | 60 100 91 91 | [E1] [E1] | 1067.6 939.24 376.50 12.40 | 3/2- 1/2+ 3/2- 3/2+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8606.3 | G | 5/2 | 7633 8230 8594 8606 | 50 100 91 91 | 974.38 376.50 12.40 0.0 | 7/2+ 3/2- 3/2+ 7/2- | ||
| 8616.1 | G | 1/2- | 40 eV 10 | 7313 8239 8603 | 12 100 36 | [E1] [E1] | 1303.18 376.50 12.40 | 3/2+ 3/2- 3/2+ |
| 8622.4 11 | C | 27/2+ | 0.19 ps 6 | 258 693 1938.5 | 22 100 | M1(+E2) (E2) | 8364.4 7929.3 6683.9 | 25/2+ 25/2+ 23/2+ |
| 8658.2 | G | (1/2)- | 26 eV 7 | 7591 7719 | 38 100 | [E1] | 1067.6 939.24 | 3/2- 1/2+ |
| 8664.9 | G | (1/2)- | 5 eV 3 | 7725 8288 8652 | 10 22 100 | [E1] [E1] | 939.24 376.50 12.40 | 1/2+ 3/2- 3/2+ |
| 8674.5 | G | (1/2)- | 15 eV 5 | 7371 7607 7735 8298 8662 | 43 79 100 33 64 | [E1] [E1] [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| 8696.4 | G | 1/2- | 36 eV 7 | 7629 7757 8319 8684 | 100 13 31 61 | D,E2 [E1] [E1] | 1067.6 939.24 376.50 12.40 | 3/2- 1/2+ 3/2- 3/2+ |
| 8711.7 | G | (1/2)- | 15 eV 5 | 7408 7772 8335 8699 | 100 33 27 32 | (E1) [E1] [E1] | 1303.18 939.24 376.50 12.40 | 3/2+ 1/2+ 3/2- 3/2+ |
| 8716.1 | G | (1/2)- | 26 eV 7 | 7777 8339 8703 | 22 26 100 | (E1) (E1) | 939.24 376.50 12.40 | 1/2+ 3/2- 3/2+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8735.5 | G | 1/2- | 60 eV 10 | 7432 7668 7796 8359 8723 | 100 30 46 48 30 | [E1] [E1] [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| 8749.2 | G | (1/2)- | 11 eV 5 | 7446 7810 8736 | 5 8 100 | [E1] [E1] (E1) | 1303.18 939.24 12.40 | 3/2+ 1/2+ 3/2+ |
| 8754.5 | G | 1/2- | 100 eV 15 | 7687 7815 8377 8742 | 16 5 9 100 | [E1] (E1) | 1067.6 939.24 376.50 12.40 | 3/2- 1/2+ 3/2- 3/2+ |
| 8766.3 | G | 1/2- | 52 eV 10 | 7462 7699 7827 8389 8753 | 100 28 91 56 34 | (E1) (E1) D,E2 [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| 8794.8 | G | 1/2- | 76 eV 15 | 7491 7727 7855 8417 8781 | 100 11 4 3 2 | (E1) [E1] [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| 8807.5 | G | 1/2- | 35 eV 7 | 7503 7867 8794 | 100 22 42 | (E1) [E1] | 1303.18 939.24 12.40 | 3/2+ 1/2+ 3/2+ |
| 8813.9 | G | (1/2)- | 21 eV 5 | 8800 | 100 | (E1) | 12.40 | 3/2+ |
| 8824.7 | G | (1/2)- | 11 eV 5 | 7521 7757 7885 8447 8811 | 100 96 46 40 79 | [E1] [E1] [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8838.2 | G | 1/2- | 400 eV 40 | 7898 8825 | 100 18 | (E1) [E1] | 939.24 12.40 | 1/2+ 3/2+ |
| 8844.4 | G | 1/2- | 35 eV 7 | 8467 8832 | 46 100 | [E1] | 376.50 12.40 | 3/2- 3/2+ |
| 8862.8 | G | 1/2- | 175 eV 20 | 7559 7795 8486 8850 | 100 48 91 57 | (E1) [E1] | 1303.18 1067.6 376.50 12.40 | 3/2+ 3/2- 3/2- 3/2+ |
| 8870.5 | G | 1/2- | 241 eV 25 | 7567 7803 7932 8494 8858 | 100 30 65 64 16 | (E1) [E1] [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| 8885.7 | G | 1/2- | 54 eV 10 | 7582 8873 | 14 100 | [E1] [E1] | 1303.18 12.40 | 3/2+ 3/2+ |
| 8888.4 | G | 1/2- | 351 eV 35 | 7585 7949 8511 8875 | 100 94 92 10 | [E1] [E1] [E1] | 1303.18 939.24 376.50 12.40 | 3/2+ 1/2+ 3/2- 3/2+ |
| 8891.7 | G | 1/2- | 64 eV 10 | 7588 7824 7952 8515 8879 | 12 50 38 100 45 | [E1] [E1] [E1] | 1303.18 1067.6 939.24 376.50 12.40 | 3/2+ 3/2- 1/2+ 3/2- 3/2+ |
| 8908.2 | G | 1/2- | 243 eV 25 | 7841 8531 8895 | 12 100 14 | D,E2 [E1] | 1067.6 376.50 12.40 | 3/2- 3/2- 3/2+ |
| 8917.2 | G | 1/2- | 36 eV 7 | 7613 7978 8540 8904 | 17 11 7 100 | [E1] [E1] (E1) | 1303.18 939.24 376.50 12.40 | 3/2+ 1/2+ 3/2- 3/2+ |
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 8935.0 | G | 1/2- | 64 eV 10 | 7631 7995 8922 | 39 100 7 | [E1] [E1] [E1] | 1303.18 939.24 12.40 | 3/2+ 1/2+ 3/2+ |
| 8947.7 | G | (1/2)- | 20 eV 5 | 7644 8571 8935 | 100 3 13 | (E1) [E1] | 1303.18 376.50 12.40 | 3/2+ 3/2- 3/2+ |
| 8948.9 | G | (1/2)- | 16 eV 5 | 7645 7881 8572 8936 | 92 68 100 52 | [E1] [E1] | 1303.18 1067.6 376.50 12.40 | 3/2+ 3/2- 3/2- 3/2+ |
| 8961.2 | G | 1/2- | 60 eV 10 | 8584 8948 | 35 100 | [E1] | 376.50 12.40 | 3/2- 3/2+ |
| 8965.3 | G | 1/2- | 31 eV 7 | 8026 8588 8952 | 58 9 100 | [E1] [E1] | 939.24 376.50 12.40 | 1/2+ 3/2- 3/2+ |
| 8975.5 12 | C | (25/2-) | 3557 | | 5418.3 | 23/2- | ||
| 8983.5 | G | 1/2- | 49 eV 10 | 7679 7915 8043 8605 | 19 14 51 100 | [E1] [E1] D,E2 | 1303.18 1067.6 939.24 376.50 | 3/2+ 3/2- 1/2+ 3/2- |
| 8996.3 | G | 1/2- | 40 eV 10 | 7693 8057 8984 | 20 100 22 | [E1] [E1] [E1] | 1303.18 939.24 12.40 | 3/2+ 1/2+ 3/2+ |
| 9017.0 | G | (1/2)- | 12 eV 5 | 8077 9004 | 11 100 | [E1] [E1] | 939.24 12.40 | 1/2+ 3/2+ |
| 9164.0 15 ? | C | 3746? | | 5418.3 | 23/2- | |||
| 9481.1 15 ? | C | 4063? | | 5418.3 | 23/2- | |||
| 10001.1 16 ? | C | 1379? | | 8622.4 | 27/2+ | |||
| 10007.6 9 | C | (27/2-) | 2395 4589 | | 7612.6 5418.3 | (23/2-) 23/2- | ||
| E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
| 10169.4 10 | C | (29/2+) | 1547 2239.5 | | 8622.4 7929.3 | 27/2+ 25/2+ | ||
| 10299.2 15 ? | C | 4881? | | 5418.3 | 23/2- | |||
| 10936.2 15 ? | C | 5518? | | 5418.3 | 23/2- | |||
| 11021.9 13 | C | (31/2+) | 852 2400 | | D+Q,Q | 10169.4 8622.4 | (29/2+) 27/2+ | |
| 11201.2 11 | C | (29/2+) | 2578.5 2837 | | 8622.4 8364.4 | 27/2+ 25/2+ | ||
| 12142.2 16 ? | C | 3520? | | 8622.4 | 27/2+ | |||
| 12592.7 14 | C | (31/2-) | 2585 | | 10007.6 | (27/2-) | ||
| 13372.5 14 | C | (31/2+) | 3203 | | 10169.4 | (29/2+) | ||
| 13674.6 15 ? | C | 2473? | | 11201.2 | (29/2+) | |||
| 14516.8 13 | C | (33/2+) | 3495 4347 | | 11021.9 10169.4 | (31/2+) (29/2+) | ||
| 15313.3 16 ? | C | 5144? | | 10169.4 | (29/2+) | |||
| 15702.8 17 | C | (35/2-) | 3110 | | 12592.7 | (31/2-) | ||
| 16462.2 17 | C | (35/2+) | 2786? 5440 | | 13674.6 11021.9 | (31/2+) | ||
E(level): Bound state excitation energies were derived by a least-squares adjustment to the Eγ’s (ΔE(γ)=1 keV assumed when not given), except as noted in the footnotes, comments, or XREF column (these energies were held fixed in the adjustment). Excitation energies of the resonances are from (p,γ) and were not included in the adjustment
Jπ(level): From angular momentum transfer in (3He,d) or (d,3He) for ex<7 MeV and from line shape analysis in p resonances for ex>7 MeV, except as noted
T1/2(level): T1/2’s are from DSAM in (p,p’γ), except as noted, and resonant Γ’s are from p resonance studies
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 1 - πf7/25, α=-1/2. | |||||||
| 0.0 | 7/2- | STABLE | |||||
| 1236.70 25 | 11/2- | 1.80 ps 10 | 1237.07 20 | 100 | E2 | 0.0 | 7/2- |
| 2106.3 3 | 15/2- | > 1.4 ps | 869.57 13 | 100 | E2 | 1236.70 | 11/2- |
| 3692.9 4 | 19/2- | 1.39 ps 14 | 122.9 1586.56 20 | 21 7 100 | M1(+E2) E2 | 3569.6 2106.3 | 17/2- 15/2- |
| 5418.3 7 | 23/2- | 1.32 ps 14 | 1725.5 | 100 | (E2) | 3692.9 | 19/2- |
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 2 - πd3/2-1f7/26, α=-1/2. | |||||||
| 12.40 5 | 3/2+ | 325.8 ms 42 % IT = 100 | |||||
| 974.38 15 | 7/2+ | 2.54 ps 23 | 431.77 11 962.01 11 974.42 15 | 17.7 10 54.0 14 100.0 5 | M1+E2 E2 E1+M2 | 543.06 12.40 0.0 | 5/2+ 3/2+ 7/2- |
| 2031.2 7 | 11/2+ | 0.76 ps +12-8 | 597.4 5 794.2 5 1056.14 23 | 100 12 5 98 29 | M1+E2 (E1) E2(+M3) | 1433.49 1236.70 974.38 | 9/2+ 11/2- 7/2+ |
| 3294.9 8 | 15/2+ | 0.46 ps 5 | 732 1263 | 100 13 62 25 | M1,E2 (E2) | 2563.2 2031.2 | 13/2+ 11/2+ |
| 4895.4 11 | 19/2+ | 0.21 ps 4 | 840 1600.5 | 20 100 | D,E2 (E2) | 4055.4 3294.9 | 17/2+ 15/2+ |
| 6683.9 11 | 23/2+ | 0.17 ps 4 | 988 1789 | 16 100 | D,E2 (E2) | 5696.8 4895.4 | 21/2+ 19/2+ |
| 8622.4 11 | 27/2+ | 0.19 ps 6 | 258 693 1938.5 | 22 100 | M1(+E2) (E2) | 8364.4 7929.3 6683.9 | 25/2+ 25/2+ 23/2+ |
| 11021.9 13 | (31/2+) | 852 2400 | | D+Q,Q | 10169.4 8622.4 | (29/2+) 27/2+ | |
| 16462.2 17 | (35/2+) | 2786? 5440 | | 13674.6 11021.9 | (31/2+) | ||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 3 - Kπ=3/2- band. | |||||||
| 376.50 12 | 3/2- | 43.3 ps 23 | |||||
| 720.12 14 | 5/2- | 206 fs 16 | 708.2 720.22 17 | 3.6 6 100.0 6 | (E1(+M2)) M1+E2 | 12.40 0.0 | 3/2+ 7/2- |
| 1408.87 20 | (7/2)- | 257 fs +23-18 | 688.9 5 1032.4 4 1408.6 5 | 7.4 12 4.9 5 100.0 5 | D,E2 (E2) M1+E2 | 720.12 376.50 0.0 | 5/2- 3/2- 7/2- |
| 1662.0 4 | 9/2- | 98 fs 10 | 253.8 5 ? 425.1 3 942.0 6 ? 1662.4 6 | 13 3 19 4 14 8 100 5 | M1 (M1(+E2)) (E2) M1+E2 | 1408.87 1236.70 720.12 0.0 | (7/2)- 11/2- 5/2- 7/2- |
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 4 - πd3/2-1f7/26, α=+1/2. | |||||||
| 543.06 14 | 5/2+ | 5.5 ps 6 | |||||
| 1433.49 21 | 9/2+ | 3.6 ps 18 | 197.53 29 ? 459.06 17 890.9 8 1435.4 16 | 4 27 8 100 13 17.0 19 | (E1) M1+E2 E2(+M3) (E1(+M2)) | 1236.70 974.38 543.06 0.0 | 11/2- 7/2+ 5/2+ 7/2- |
| 2563.2 4 | 13/2+ | 1.0 ps 3 | 457.5 531.7 1129.8 3 1325.8 | 42 34 11 100 47 | (E1) D,E2 E2(+M3) (E1) | 2106.3 2031.2 1433.49 1236.70 | 15/2- 11/2+ 9/2+ 11/2- |
| 4055.4 6 | 17/2+ | 0.28 ps 6 | 760 1492.5 1949 | 9 78 100 | D,E2 (E2) (E1(+M2)) | 3294.9 2563.2 2106.3 | 15/2+ 13/2+ 15/2- |
| 5696.8 7 | 21/2+ | 0.28 ps 14 | 1641 2004 | 100 78 | (E2) (E1(+M2)) | 4055.4 3692.9 | 17/2+ 19/2- |
| 7929.3 8 | 25/2+ | < 0.07 ps | 1245 2231.5 2511 | 32 100 | (E2) D+Q,E2 | 6683.9 5696.8 5418.3 | 23/2+ 21/2+ 23/2- |
| 10169.4 10 | (29/2+) | 1547 2239.5 | | 8622.4 7929.3 | 27/2+ 25/2+ | ||
| 14516.8 13 | (33/2+) | 3495 4347 | | 11021.9 10169.4 | (31/2+) (29/2+) | ||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 5 - 1/2(200) band | |||||||
| 939.24 15 | 1/2+ | 7.3 ps +6-3 | |||||
| 1303.18 15 | 3/2+ | 2.3 ps +7-4 | 760.2 7 926.8 5 1289.6 8 | 100 14 45 74 14 | D+Q (E1) (E2) | 543.06 376.50 12.40 | 5/2+ 3/2- 3/2+ |
| 1800.0 5 | 5/2+ | 65 fs 15 | 497.7? 733.3? 1080.9? 1257.2 5 1424.5? 1788.1 6 1800.1 6 | 31 8 8 62 3 23 100 3 22.1 22 | (M1) (E1) (E1) D+Q (E1) D+Q (E1) | 1303.18 1067.6 720.12 543.06 376.50 12.40 0.0 | 3/2+ 3/2- 5/2- 5/2+ 3/2- 3/2+ 7/2- |
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 6 - Band based on (11/2-). | |||||||
| 1354.2 9 | (11/2-) | ||||||
| 3363.5 7 | (15/2-) | 1257 2009? 2127 | | 2106.3 1354.2 1236.70 | 15/2- (11/2-) 11/2- | ||
| 5516.4 6 | (19/2-) | 1824 1946 2153 3410 | | 3692.9 3569.6 3363.5 2106.3 | 19/2- 17/2- (15/2-) 15/2- | ||
| 7612.6 7 | (23/2-) | 1902 2096 2194 3920 | | 5710.6 5516.4 5418.3 3692.9 | (21/2-) (19/2-) 23/2- 19/2- | ||
| 10007.6 9 | (27/2-) | 2395 4589 | | 7612.6 5418.3 | (23/2-) 23/2- | ||
| 12592.7 14 | (31/2-) | 2585 | | 10007.6 | (27/2-) | ||
| 15702.8 17 | (35/2-) | 3110 | | 12592.7 | (31/2-) | ||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
| Band 7 - πf7/25, α=+1/2. | |||||||
| 3569.6 7 | 17/2- | < 0.07 ps | |||||
| 5710.6 7 | (21/2-) | 292.5 2016.3 2142 | | D+Q,Q | 5418.3 3692.9 3569.6 | 23/2- 19/2- 17/2- | |
| 8975.5 12 | (25/2-) | 3557 | | 5418.3 | 23/2- | ||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 12.40 | 3/2+ | 325.8 ms 42 % IT = 100 | 12.40 5 | (M2) | 423 | B(M2)(W.u.)=0.0606 15, α=423 9, α(K)=362 8, α(L)=53.5 12, α(M)=6.63 15, α(N)=0.298 7 | |
| 376.50 | 3/2- | 43.3 ps 23 | 364.19 14 | (E1(+M2)) | -0.01 8 | 5.09×10-4 | B(E1)(W.u.)=0.000234 13, B(M2)(W.u.)=0.8 +130-8, α=5.09E-4 18, α(K)=0.000463 17, α(L)=4.07E-5 15, α(M)=5.04E-6 19, α(N)=2.81E-7 10, α(N+)=2.81E-7 10 |
| 3/2- | 43.3 ps 23 | 377.1 4 | E2(+M3) | -0.01 2 | 0.00198 | B(E2)(W.u.)=15.0 9, B(M3)(W.u.)=7.×104 +30-7, α=0.00198 3, α(K)=0.00180 3, α(L)=0.0001595 24, α(M)=1.97E-5 3, α(N)=1.086E-6 16, α(N+)=1.086E-6 16 | |
| 543.06 | 5/2+ | 5.5 ps 6 | 166.4 | (E1) | 0.00518 | B(E1)(W.u.)=9.E-5 5, α=0.00518 8, α(K)=0.00472 7, α(L)=0.000414 6, α(M)=5.11E-5 8, α(N)=2.82E-6 4, α(N+)=2.82E-6 4 | |
| 5/2+ | 5.5 ps 6 | 530.65 15 | M1+E2 | -0.55 +11-18 | 0.00037 | B(E2)(W.u.)=35 12, B(M1)(W.u.)=0.0120 18, α=0.00037 4, α(K)=0.00034 4, α(L)=3.0E-5 4, α(M)=3.7E-6 4, α(N)=2.05E-7 22, α(N+)=2.05E-7 22 | |
| 5/2+ | 5.5 ps 6 | 543.14 14 | E1(+M2) | 0.014 LT | 0.0001770 | B(E1)(W.u.)=0.00025 3, α=0.0001770 25, α(K)=0.0001614 23, α(L)=1.416E-5 20, α(M)=1.754E-6 25, α(N)=9.81E-8 14, α(N+)=9.81E-8 14 | |
| 720.12 | 5/2- | 206 fs 16 | 708.2 | (E1(+M2)) | 0.024 LT | 9.48×10-5 | B(E1)(W.u.)=0.00025 5, α=9.48E-5 14, α(K)=8.63E-5 13, α(L)=7.56E-6 11, α(M)=9.37E-7 14, α(N)=5.25E-8 8, α(N+)=5.25E-8 8 |
| 5/2- | 206 fs 16 | 720.22 17 | M1+E2 | +0.14 5 | 1.54×10-4 | B(E2)(W.u.)=28 20, B(M1)(W.u.)=0.271 22, α=1.54E-4 3, α(K)=0.0001404 25, α(L)=1.234E-5 22, α(M)=1.53E-6 3, α(N)=8.59E-8 15, α(N+)=8.59E-8 15 | |
| 939.24 | 1/2+ | 7.3 ps +6-3 | 562.7 | (E1) | 0.0001630 | B(E1)(W.u.)=7.1E-5 +4-7, α=0.0001630 23, α(K)=0.0001479 21, α(L)=1.297E-5 19, α(M)=1.607E-6 23, α(N)=8.99E-8 13, α(N+)=8.99E-8 13 | |
| 974.38 | 7/2+ | 2.54 ps 23 | 431.77 11 | M1+E2 | -0.24 +12-16 | 0.00050 | B(E2)(W.u.)=9 9, B(M1)(W.u.)=0.0105 13, α=0.00050 7, α(K)=0.00045 6, α(L)=4.0E-5 6, α(M)=5.0E-6 7, α(N)=2.8E-7 4, α(N+)=2.8E-7 4 |
| 7/2+ | 2.54 ps 23 | 962.01 11 | E2 | 0.0001170 | B(E2)(W.u.)=8.9 9, α=0.0001170 17, α(K)=0.0001060 15, α(L)=9.31E-6 13, α(M)=1.154E-6 17, α(N)=6.46E-8 9, α(N+)=6.46E-8 9 | ||
| 7/2+ | 2.54 ps 23 | 974.42 15 | E1+M2 | 0.042 LT | 4.86×10-5 | B(E1)(W.u.)=0.000133 12, α=4.86E-5 7, α(K)=4.43E-5 7, α(L)=3.87E-6 6, α(M)=4.80E-7 7, α(N)=2.70E-8 4, α(N+)=2.70E-8 4 | |
| 1067.6 | 3/2- | 0.28 ps 6 | 347.36 33 | (M1(+E2)) | +0.04 13 | 0.00075 | B(E2)(W.u.)=15 +100-15, B(M1)(W.u.)=0.43 12, α=0.00075 6, α(K)=0.00068 5, α(L)=6.0E-5 5, α(M)=7.5E-6 6, α(N)=4.2E-7 3, α(N+)=4.2E-7 3 |
| 3/2- | 0.28 ps 6 | 691.11 49 | M1+E2 | -0.11 5 | 1.67×10-4 | B(E2)(W.u.)=12 12, B(M1)(W.u.)=0.17 5, α=1.67E-4 3, α(K)=0.000152 3, α(L)=1.338E-5 23, α(M)=1.66E-6 3, α(N)=9.31E-8 16, α(N+)=9.31E-8 16 | |
| 3/2- | 0.28 ps 6 | 1067 | (E2) | 9.06×10-5 | B(E2)(W.u.)=4.7 14, α=9.06E-5 13, α(K)=8.24E-5 12, α(L)=7.23E-6 11, α(M)=8.96E-7 13, α(N)=5.02E-8 7, α(N+)=5.02E-8 7 | ||
| 1236.70 | 11/2- | 1.80 ps 10 | 1237.07 20 | E2 | 8.00×10-5 | B(E2)(W.u.)=11.4 7, α=8.00E-5 12, α(K)=5.86E-5 9, α(L)=5.14E-6 8, α(M)=6.37E-7 9, α(N)=3.58E-8 5, α(N+)=1.558E-5 23 | |
| 1303.18 | 3/2+ | 2.3 ps +7-4 | 926.8 5 | (E1) | 5.36×10-5 | B(E1)(W.u.)=6.0E-5 +12-19, α=5.36E-5 8, α(K)=4.88E-5 7, α(L)=4.27E-6 6, α(M)=5.29E-7 8, α(N)=2.97E-8 5, α(N+)=2.97E-8 5 | |
| 3/2+ | 2.3 ps +7-4 | 1289.6 8 | (E2) | 8.54×10-5 | B(E2)(W.u.)=2.5 +7-9, α=8.54E-5 12, α(K)=5.35E-5 8, α(L)=4.69E-6 7, α(M)=5.81E-7 9, α(N)=3.26E-8 5, α(N+)=2.66E-5 5 | ||
| 1408.87 | (7/2)- | 257 fs +23-18 | 1032.4 4 | (E2) | 9.80×10-5 | B(E2)(W.u.)=8.6 +11-12, α=9.80E-5 14, α(K)=8.92E-5 13, α(L)=7.83E-6 11, α(M)=9.70E-7 14, α(N)=5.43E-8 8, α(N+)=5.43E-8 8 | |
| (7/2)- | 257 fs +23-18 | 1408.6 5 | M1+E2 | -2.62 62 | 1.03×10-4 | B(E2)(W.u.)=32 +3-4, B(M1)(W.u.)=0.0035 15, α=1.03E-4 2, α(K)=4.35E-5 8, α(L)=3.81E-6 7, α(M)=4.72E-7 9, α(N)=2.65E-8 5, α(N+)=5.51E-5 14 | |
| 1433.49 | 9/2+ | 3.6 ps 18 | 197.53 29 | (E1) | 0.00306 | B(E1)(W.u.)=0.0005 3, α=0.00306 5, α(K)=0.00279 4, α(L)=0.000245 4, α(M)=3.02E-5 5, α(N)=1.674E-6 25, α(N+)=1.674E-6 25 | |
| 9/2+ | 3.6 ps 18 | 459.06 17 | M1+E2 | -0.24 6 | 4.32×10-4 | B(E2)(W.u.)=8 6, B(M1)(W.u.)=0.011 7, α=4.32E-4 19, α(K)=0.000393 17, α(L)=3.46E-5 15, α(M)=4.29E-6 19, α(N)=2.40E-7 10, α(N+)=2.40E-7 10 | |
| 9/2+ | 3.6 ps 18 | 890.9 8 | E2(+M3) | +0.03 6 | 1.42×10-4 | B(E2)(W.u.)=20 11, α=1.42E-4 4, α(K)=0.000129 3, α(L)=1.13E-5 3, α(M)=1.41E-6 4, α(N)=7.86E-8 19, α(N+)=7.86E-8 19 | |
| 9/2+ | 3.6 ps 18 | 1435.4 16 | (E1(+M2)) | -0.11 +20-24 | 2.37×10-4 | B(E1)(W.u.)=6.E-6 3, BM2=0.15 +56-15, α=2.37E-4 15, α(K)=2.3E-5 5, α(L)=2.0E-6 4, α(M)=2.4E-7 5, α(N)=1.4E-8 3, α(N+)=0.000212 20 | |
| 1556.2 | (3/2)- | 0.28 ps +12-8 | 488.5 10 | (M1) | 0.000348 | B(M1)(W.u.)=0.54 +18-25, α=0.000348 5, α(K)=0.000316 5, α(L)=2.78×10-5 4, α(M)=3.45E-6 5, α(N)=1.93E-7 3, α(N+)=1.93E-7 3 | |
| (3/2)- | 0.28 ps +12-8 | 616.3 | (E1) | 0.0001310 | B(E1)(W.u.)=0.00058 +21-28, α=0.0001310 19, α(K)=0.0001188 17, α(L)=1.041E-5 15, α(M)=1.290E-6 18, α(N)=7.22E-8 11, α(N+)=7.22E-8 11 | ||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 1662.0 | 9/2- | 98 fs 10 | 253.8 5 | M1 | 0.001550 | B(M1)(W.u.)=1.2 4, α=0.001550 22, α(K)=0.001411 21, α(L)=0.0001253 19, α(M)=1.553×10-5 23, α(N)=8.65E-7 13, α(N+)=8.65E-7 13 | |
| 9/2- | 98 fs 10 | 425.1 3 | (M1(+E2)) | -0.03 13 | 4.73×10-4 | B(E2)(W.u.)=5 +45-5, B(M1)(W.u.)=0.38 10, α=4.73E-4 22, α(K)=0.000430 20, α(L)=3.80E-5 17, α(M)=4.71E-6 21, α(N)=2.63E-7 12, α(N+)=2.63E-7 12 | |
| 9/2- | 98 fs 10 | 942.0 6 | (E2) | 0.0001230 | B(E2)(W.u.)=8.×101 5, α=0.0001230 18, α(K)=0.0001117 16, α(L)=9.82E-6 14, α(M)=1.217E-6 18, α(N)=6.81E-8 10, α(N+)=6.81E-8 10 | ||
| 9/2- | 98 fs 10 | 1662.4 6 | M1+E2 | -0.47 5 | 1.57×10-4 | B(E2)(W.u.)=5.9 13, B(M1)(W.u.)=0.027 4, α=1.57E-4 3, α(K)=2.88E-5 5, α(L)=2.52E-6 4, α(M)=3.13E-7 5, α(N)=1.76E-8 3, α(N+)=0.0001249 22 | |
| 1800.0 | 5/2+ | 65 fs 15 | 497.7 | (M1) | 0.000334 | B(M1)(W.u.)=0.34 8, α=0.000334 5, α(K)=0.000303 5, α(L)=2.67×10-5 4, α(M)=3.31E-6 5, α(N)=1.86E-7 3, α(N+)=1.86E-7 3 | |
| 5/2+ | 65 fs 15 | 733.3 | (E1) | 8.77×10-5 | B(E1)(W.u.)=0.00066 16, α=8.77E-5 13, α(K)=7.98E-5 12, α(L)=6.99E-6 10, α(M)=8.66E-7 13, α(N)=4.85E-8 7, α(N+)=4.85E-8 7 | ||
| 5/2+ | 65 fs 15 | 1080.9 | (E1) | 3.98×10-5 | B(E1)(W.u.)=0.00021 5, α=3.98E-5 6, α(K)=3.62E-5 5, α(L)=3.17E-6 5, α(M)=3.93E-7 6, α(N)=2.21E-8 3, α(N+)=2.21E-8 3 | ||
| 5/2+ | 65 fs 15 | 1424.5 | (E1) | 0.000231 | B(E1)(W.u.)=0.00026 6, α=0.000231 4, α(K)=2.23E-5 4, α(L)=1.95E-6 3, α(M)=2.42E-7 4, α(N)=1.358E-8 19, α(N+)=0.000207 3 | ||
| 5/2+ | 65 fs 15 | 1800.1 6 | (E1) | 0.000512 | B(E1)(W.u.)=0.00012 3, α=0.000512 8, α(K)=1.539E-5 22, α(L)=1.344E-6 19, α(M)=1.666E-7 24, α(N)=9.38E-9 14, α(N+)=0.000495 7 | ||
| 2031.2 | 11/2+ | 0.76 ps +12-8 | 597.4 5 | M1+E2 | -0.19 7 | 2.33×10-4 | B(E2)(W.u.)=17 13, B(M1)(W.u.)=0.062 +11-14, α=2.33E-4 7, α(K)=0.000212 7, α(L)=1.86E-5 6, α(M)=2.31E-6 7, α(N)=1.29E-7 4, α(N+)=1.29E-7 4 |
| 11/2+ | 0.76 ps +12-8 | 794.2 5 | (E1) | 7.37×10-5 | B(E1)(W.u.)=8.E-5 4, α=7.37E-5 11, α(K)=6.71E-5 10, α(L)=5.88E-6 9, α(M)=7.28E-7 11, α(N)=4.08E-8 6, α(N+)=4.08E-8 6 | ||
| 11/2+ | 0.76 ps +12-8 | 1056.14 23 | E2(+M3) | 0.0017 LT | 9.28×10-5 | B(E2)(W.u.)=30 14, α=9.28E-5 13, α(K)=8.44E-5 12, α(L)=7.41E-6 11, α(M)=9.18E-7 13, α(N)=5.15E-8 8, α(N+)=5.15E-8 8 | |
| 2093.0 | 5/2 | 8.3 fs 21 | 1023.7 | D(+Q) | -0.05 20 | ||
| 5/2 | 8.3 fs 21 | 2094.0 10 | D(+Q) | -0.05 6 | |||
| 2106.3 | 15/2- | > 1.4 ps | 869.57 13 | E2 | 0.0001510 | B(E2)(W.u.)<86, α=0.0001510 22, α(K)=0.0001371 20, α(L)=1.206E-5 17, α(M)=1.494E-6 21, α(N)=8.35E-8 12, α(N+)=8.35E-8 12 | |
| 2303.8 | (5/2-) | 55 fs +35-17 | 641.1 5 | (E2) | 0.000353 | B(E2)(W.u.)=9.×102 +4-7, α=0.000353 5, α(K)=0.000321 5, α(L)=2.83E-5 4, α(M)=3.50E-6 5, α(N)=1.95E-7 3, α(N+)=1.95E-7 3 | |
| (5/2-) | 55 fs +35-17 | 2290.7 | (E1) | 0.000849 | B(E1)(W.u.)=0.00020 +8-14, α=0.000849 12, α(K)=1.084E-5 16, α(L)=9.46E-7 14, α(M)=1.173E-7 17, α(N)=6.60E-9 10, α(N+)=0.000837 12 | ||
| 2563.2 | 13/2+ | 1.0 ps 3 | 457.5 | (E1) | 0.000275 | B(E1)(W.u.)=0.0011 4, α=0.000275 4, α(K)=0.000250 4, α(L)=2.19E-5 3, α(M)=2.72E-6 4, α(N)=1.517E-7 22, α(N+)=1.517E-7 22 | |
| 13/2+ | 1.0 ps 3 | 1129.8 3 | E2(+M3) | 0.00 4 | 8.14×10-5 | B(E2)(W.u.)=14 5, α=8.14E-5 12, α(K)=7.20E-5 11, α(L)=6.32E-6 10, α(M)=7.83E-7 12, α(N)=4.39E-8 7, α(N+)=2.22E-6 4 | |
| 13/2+ | 1.0 ps 3 | 1325.8 | (E1) | 1.68×10-4 | B(E1)(W.u.)=4.8E-5 15, α=1.68E-4 3, α(K)=2.52E-5 4, α(L)=2.20E-6 3, α(M)=2.73E-7 4, α(N)=1.533E-8 22, α(N+)=0.0001399 20 | ||
| 3294.9 | 15/2+ | 0.46 ps 5 | 732 | M1,E2 | 0.00019 | α=0.00019 5, α(K)=0.00018 5, α(L)=1.6×10-5 4, α(M)=1.9E-6 5, α(N)=1.1E-7 3, α(N+)=1.1E-7 3 | |
| 15/2+ | 0.46 ps 5 | 1263 | (E2) | 8.23×10-5 | B(E2)(W.u.)=15 7, α=8.23E-5 12, α(K)=5.60E-5 8, α(L)=4.91E-6 7, α(M)=6.09E-7 9, α(N)=3.42E-8 5, α(N+)=2.08E-5 3 | ||
| 3569.6 | 17/2- | < 0.07 ps | 1463.3 | M1,E2 | 1.07×10-4 | α=1.07×10-4 14, α(K)=3.8E-5 3, α(L)=3.34E-6 25, α(M)=4.1E-7 3, α(N)=2.33E-8 17, α(N+)=6.5E-5 11 | |
| 3692.9 | 19/2- | 1.39 ps 14 | 122.9 | M1(+E2) | 0.003 LT | 0.00932 | B(M1)(W.u.)=1.5 6, α=0.00932 14, α(K)=0.00846 12, α(L)=0.000761 11, α(M)=9.42×10-5 14, α(N)=5.20E-6 8, α(N+)=5.20E-6 8 |
| 19/2- | 1.39 ps 14 | 1586.56 20 | E2 | 0.0001610 | B(E2)(W.u.)=3.5 4, α=0.0001610 23, α(K)=3.47E-5 5, α(L)=3.04E-6 5, α(M)=3.77E-7 6, α(N)=2.12E-8 3, α(N+)=0.0001232 18 | ||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 4055.4 | 17/2+ | 0.28 ps 6 | 1492.5 | (E2) | 0.0001280 | B(E2)(W.u.)=12 3, α=0.0001280 18, α(K)=3.93E-5 6, α(L)=3.44E-6 5, α(M)=4.26E-7 6, α(N)=2.40E-8 4, α(N+)=8.53E-5 12 | |
| 17/2+ | 0.28 ps 6 | 1949 | (E1(+M2)) | 0.086 LE | 0.000618 | B(E1)(W.u.)=0.00014 3, α=0.000618 9, α(K)=1.375E-5 21, α(L)=1.200E-6 19, α(M)=1.488E-7 23, α(N)=8.38E-9 13, α(N+)=0.000602 9 | |
| 4895.4 | 19/2+ | 0.21 ps 4 | 1600.5 | (E2) | 0.0001670 | B(E2)(W.u.)=22 5, α=0.0001670 24, α(K)=3.41E-5 5, α(L)=2.99E-6 5, α(M)=3.70E-7 6, α(N)=2.08E-8 3, α(N+)=0.0001291 18 | |
| 5418.3 | 23/2- | 1.32 ps 14 | 1725.5 | (E2) | 0.000216 | B(E2)(W.u.)=2.9 4, α=0.000216 4, α(K)=2.94E-5 5, α(L)=2.58E-6 4, α(M)=3.19E-7 5, α(N)=1.80E-8 3, α(N+)=0.000184 3 | |
| 5696.8 | 21/2+ | 0.28 ps 14 | 1641 | (E2) | 0.000182 | B(E2)(W.u.)=10 5, α=0.000182 3, α(K)=3.25E-5 5, α(L)=2.84E-6 4, α(M)=3.52E-7 5, α(N)=1.98E-8 3, α(N+)=0.0001467 21 | |
| 21/2+ | 0.28 ps 14 | 2004 | (E1(+M2)) | 0.094 LE | 0.000656 | B(E1)(W.u.)=0.00010 6, α=0.000656 10, α(K)=1.322E-5 21, α(L)=1.153E-6 18, α(M)=1.430E-7 23, α(N)=8.05E-9 13, α(N+)=0.000641 10 | |
| 6683.9 | 23/2+ | 0.17 ps 4 | 1789 | (E2) | 0.000243 | B(E2)(W.u.)=16 4, α=0.000243 4, α(K)=2.75E-5 4, α(L)=2.40E-6 4, α(M)=2.98E-7 5, α(N)=1.676E-8 24, α(N+)=0.000213 3 | |
| 7929.3 | 25/2+ | < 0.07 ps | 2231.5 | (E2) | 0.000447 | B(E2)(W.u.)>3.0, α=0.000447 7, α(K)=1.83E-5 3, α(L)=1.603E-6 23, α(M)=1.99E-7 3, α(N)=1.119E-8 16, α(N+)=0.000427 6 | |
| 8111.6 | 3/2- | 37 eV 9 | 3439 | D+Q | +0.07 3 | ||
| 3/2- | 37 eV 9 | 3611 | (M1+E2) | -0.06 3 | 0.000913 | B(E2)(W.u.)=0.12 +13-12, B(M1)(W.u.)=0.16 6, α=0.000913 13, α(K)=8.11E-6 12, α(L)=7.07E-7 10, α(M)=8.77E-8 13, α(N)=4.95E-9 7, α(N+)=0.000904 13 | |
| 3/2- | 37 eV 9 | 4230 | (M1+E2) | +0.09 2 | 0.001120 | B(E2)(W.u.)=0.23 10, B(M1)(W.u.)=0.18 7, α=0.001120 16, α(K)=6.45E-6 9, α(L)=5.62E-7 8, α(M)=6.97E-8 10, α(N)=3.93E-9 6, α(N+)=0.001113 16 | |
| 3/2- | 37 eV 9 | 6021 | D+Q | -0.09 4 | |||
| 3/2- | 37 eV 9 | 7174 | [E1] | B(E1)(W.u.)=0.00021 7 | |||
| 3/2- | 37 eV 9 | 8101 | (E1+M2) | -0.03 3 | B(E1)(W.u.)=0.00032 12, B(M2)(W.u.)=0.020 +41-20 | ||
| 8127.7 | 3/2- | 23 eV 7 | 3456 | D+Q | +0.03 3 | ||
| 3/2- | 23 eV 7 | 3628 | (M1+E2) | 0.00 3 | 0.000918 | B(M1)(W.u.)=0.21 7, α=0.000918 13, α(K)=8.05×10-6 12, α(L)=7.02E-7 10, α(M)=8.71E-8 13, α(N)=4.91E-9 7, α(N+)=0.000909 13 | |
| 3/2- | 23 eV 7 | 4247 | (M1+E2) | +0.05 2 | 0.001130 | B(E2)(W.u.)=0.05 5, B(M1)(W.u.)=0.14 5, α=0.001130 16, α(K)=6.41E-6 9, α(L)=5.59E-7 8, α(M)=6.93E-8 10, α(N)=3.91E-9 6, α(N+)=0.001118 16 | |
| 3/2- | 23 eV 7 | 6038 | D+Q | +0.06 5 | |||
| 3/2- | 23 eV 7 | 7587 | [E1] | B(E1)(W.u.)=0.00014 4 | |||
| 3/2- | 23 eV 7 | 8118 | [E1] | B(E1)(W.u.)=7.4E-5 22 | |||
| 8475.8 | (3/2)- | 12 eV 5 | 6135 | [E2] | B(E2)(W.u.)=0.165 | ||
| (3/2)- | 12 eV 5 | 7536 | [E1] | B(E1)(W.u.)=0.000123 | |||
| (3/2)- | 12 eV 5 | 7933 | [E1] | B(E1)(W.u.)=0.000146 | |||
| (3/2)- | 12 eV 5 | 8463 | [E1] | B(E1)(W.u.)=0.000114 | |||
| 8484.4 | (3/2)- | 25 eV 7 | 7941 | [E1] | B(E1)(W.u.)=2.34E-5 | ||
| (3/2)- | 25 eV 7 | 8472 | [E1] | B(E1)(W.u.)=7.7E-6 | |||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 8491.9 | 3/2- | 8491 | [E2] | B(E2)(W.u.)=0.18 6 | |||
| 8497.7 | 3/2- | 80 eV 15 | 6157 | (E2) | B(E2)(W.u.)=0.58 | ||
| 3/2- | 80 eV 15 | 7196 | (E1(+M2)) | -0.5 +5-2 | B(E1)(W.u.)=5.8E-5 24, B(M2)(W.u.)=1.3 +21-13 | ||
| 3/2- | 80 eV 15 | 7529 5 | [M2] | B(M2)(W.u.)=5.2 | |||
| 3/2- | 80 eV 15 | 7561 | (E1(+M2)) | +0.10 +17-8 | B(E1)(W.u.)=5.5E-5, B(M2)(W.u.)=0.04 +15-4 | ||
| 3/2- | 80 eV 15 | 7954 | [E1] | B(E1)(W.u.)=9.5E-5 | |||
| 8503.3 | 3/2- | 400 eV 40 | 6163 | (E2) | B(E2)(W.u.)=0.572 | ||
| 3/2- | 400 eV 40 | 7960 | [E1] | B(E1)(W.u.)=9.5E-5 | |||
| 3/2- | 400 eV 40 | 8491 | [E1] | B(E1)(W.u.)=5.7E-5 | |||
| 3/2- | 400 eV 40 | 8504 | [E2] | B(E2)(W.u.)=0.287 | |||
| 8515.9 | 3/2- | 60 eV 10 | 6175 | [E2] | B(E2)(W.u.)=0.363 | ||
| 3/2- | 60 eV 10 | 7577 | (E1) | B(E1)(W.u.)=0.000407 | |||
| 3/2- | 60 eV 10 | 8503 | [E1] | B(E1)(W.u.)=5.7E-6 | |||
| 8519.3 | 3/2- | 30 eV 7 | 6179 | [E2] | B(E2)(W.u.)=0.275 | ||
| 3/2- | 30 eV 7 | 8507 | [E1] | B(E1)(W.u.)=0.000110 | |||
| 8528.4 | (3/2)- | 7 eV 5 | 7985 | [E1] | B(E1)(W.u.)=7.8E-5 | ||
| (3/2)- | 7 eV 5 | 8516 | [E1] | B(E1)(W.u.)=2.85E-5 | |||
| 8529.2 | (3/2)- | 5 eV 3 | 6189 | [E2] | B(E2)(W.u.)=0.259 | ||
| (3/2)- | 5 eV 3 | 7590 | [E1] | B(E1)(W.u.)=1.34E-5 | |||
| (3/2)- | 5 eV 3 | 8516 | [E1] | B(E1)(W.u.)=5.7E-6 | |||
| 8533.1 | 3/2- | 10 eV 5 | 7594 | [E1] | B(E1)(W.u.)=2.41E-5 | ||
| 3/2- | 10 eV 5 | 7990 | [E1] | B(E1)(W.u.)=0.000119 | |||
| 8543.2 | 3/2- | 10 eV 5 | 7604 | [E1] | B(E1)(W.u.)=0.000165 | ||
| 3/2- | 10 eV 5 | 8000 | [E1] | B(E1)(W.u.)=0.000117 | |||
| 3/2- | 10 eV 5 | 8530 | [E1] | B(E1)(W.u.)=1.13E-5 | |||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 8552.7 | (1/2)- | 10 eV 5 | 7613 | [E1] | B(E1)(W.u.)=2.92E-5 | ||
| (1/2)- | 10 eV 5 | 8540 | [E1] | B(E1)(W.u.)=2.63E-5 | |||
| 8580.1 | 1/2- | 50 eV 10 | 7641 | [E1] | B(E1)(W.u.)=3.68E-5 | ||
| 1/2- | 50 eV 10 | 8567 | [E1] | B(E1)(W.u.)=2.24E-5 | |||
| 8591.4 | (1/2)- | 15 eV 5 | 7652 | [E1] | B(E1)(W.u.)=7.8E-5 | ||
| (1/2)- | 15 eV 5 | 8579 | [E1] | B(E1)(W.u.)=2.23E-5 | |||
| 8616.1 | 1/2- | 40 eV 10 | 7313 | [E1] | B(E1)(W.u.)=4.49E-5 | ||
| 1/2- | 40 eV 10 | 8603 | [E1] | B(E1)(W.u.)=8.3E-5 | |||
| 8622.4 | 27/2+ | 0.19 ps 6 | 258 | M1(+E2) | 0.006 LT | 0.001490 | B(M1)(W.u.)=1.2 4, α=0.001490 21, α(K)=0.001358 19, α(L)=0.0001205 17, α(M)=1.493×10-5 21, α(N)=8.32E-7 12, α(N+)=8.32E-7 12 |
| 27/2+ | 0.19 ps 6 | 1938.5 | (E2) | 0.000310 | B(E2)(W.u.)=9 3, α=0.000310 5, α(K)=2.36E-5 4, α(L)=2.07E-6 3, α(M)=2.56E-7 4, α(N)=1.441E-8 21, α(N+)=0.000284 4 | ||
| 8658.2 | (1/2)- | 26 eV 7 | 7719 | [E1] | B(E1)(W.u.)=0.000148 | ||
| 8664.9 | (1/2)- | 5 eV 3 | 7725 | [E1] | B(E1)(W.u.)=1.53E-5 | ||
| (1/2)- | 5 eV 3 | 8652 | [E1] | B(E1)(W.u.)=0.000107 | |||
| 8674.5 | (1/2)- | 15 eV 5 | 7371 | [E1] | B(E1)(W.u.)=5.3E-5 | ||
| (1/2)- | 15 eV 5 | 7735 | [E1] | B(E1)(W.u.)=0.000106 | |||
| (1/2)- | 15 eV 5 | 8662 | [E1] | B(E1)(W.u.)=4.87E-5 | |||
| 8696.4 | 1/2- | 36 eV 7 | 7757 | [E1] | B(E1)(W.u.)=4.52E-5 | ||
| 1/2- | 36 eV 7 | 8684 | [E1] | B(E1)(W.u.)=0.000150 | |||
| 8711.7 | (1/2)- | 15 eV 5 | 7408 | (E1) | B(E1)(W.u.)=0.000285 | ||
| (1/2)- | 15 eV 5 | 7772 | [E1] | B(E1)(W.u.)=8.2E-5 | |||
| (1/2)- | 15 eV 5 | 8699 | [E1] | B(E1)(W.u.)=5.70E-5 | |||
| 8716.1 | (1/2)- | 26 eV 7 | 7777 | (E1) | B(E1)(W.u.)=0.000127 | ||
| (1/2)- | 26 eV 7 | 8703 | (E1) | B(E1)(W.u.)=0.000421 | |||
| 8735.5 | 1/2- | 60 eV 10 | 7432 | [E1] | B(E1)(W.u.)=0.000160 | ||
| 1/2- | 60 eV 10 | 7796 | [E1] | B(E1)(W.u.)=6.4E-5 | |||
| 1/2- | 60 eV 10 | 8723 | [E1] | B(E1)(W.u.)=3.00E-5 | |||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 8749.2 | (1/2)- | 11 eV 5 | 7446 | [E1] | B(E1)(W.u.)=9.7E-5 | ||
| (1/2)- | 11 eV 5 | 7810 | [E1] | B(E1)(W.u.)=0.000143 | |||
| (1/2)- | 11 eV 5 | 8736 | (E1) | B(E1)(W.u.)=0.00124 | |||
| 8754.5 | 1/2- | 100 eV 15 | 7815 | [E1] | B(E1)(W.u.)=1.96E-5 | ||
| 1/2- | 100 eV 15 | 8742 | (E1) | B(E1)(W.u.)=0.000288 | |||
| 8766.3 | 1/2- | 52 eV 10 | 7462 | (E1) | B(E1)(W.u.)=0.000900 | ||
| 1/2- | 52 eV 10 | 7827 | (E1) | B(E1)(W.u.)=0.00071 | |||
| 1/2- | 52 eV 10 | 8753 | [E1] | B(E1)(W.u.)=0.000189 | |||
| 8794.8 | 1/2- | 76 eV 15 | 7491 | (E1) | B(E1)(W.u.)=0.00096 | ||
| 1/2- | 76 eV 15 | 7855 | [E1] | B(E1)(W.u.)=3.14E-5 | |||
| 1/2- | 76 eV 15 | 8781 | [E1] | B(E1)(W.u.)=1.21E-5 | |||
| 8807.5 | 1/2- | 35 eV 7 | 7503 | (E1) | B(E1)(W.u.)=0.000333 | ||
| 1/2- | 35 eV 7 | 8794 | [E1] | B(E1)(W.u.)=8.8E-5 | |||
| 8813.9 | (1/2)- | 21 eV 5 | 8800 | (E1) | B(E1)(W.u.)=0.00138 | ||
| 8824.7 | (1/2)- | 11 eV 5 | 7521 | [E1] | B(E1)(W.u.)=0.000185 | ||
| (1/2)- | 11 eV 5 | 7885 | [E1] | B(E1)(W.u.)=7.4E-5 | |||
| (1/2)- | 11 eV 5 | 8811 | [E1] | B(E1)(W.u.)=9.1E-5 | |||
| 8838.2 | 1/2- | 400 eV 40 | 7898 | (E1) | B(E1)(W.u.)=0.000497 | ||
| 1/2- | 400 eV 40 | 8825 | [E1] | B(E1)(W.u.)=6.3E-5 | |||
| 8844.4 | 1/2- | 35 eV 7 | 8832 | [E1] | B(E1)(W.u.)=2.21E-5 | ||
| 8862.8 | 1/2- | 175 eV 20 | 7559 | (E1) | B(E1)(W.u.)=0.000176 | ||
| 1/2- | 175 eV 20 | 8850 | [E1] | B(E1)(W.u.)=6.3E-5 | |||
| 8870.5 | 1/2- | 241 eV 25 | 7567 | (E1) | B(E1)(W.u.)=0.000311 | ||
| 1/2- | 241 eV 25 | 7932 | [E1] | B(E1)(W.u.)=0.000176 | |||
| 1/2- | 241 eV 25 | 8858 | [E1] | B(E1)(W.u.)=3.04E-5 | |||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 8885.7 | 1/2- | 54 eV 10 | 7582 | [E1] | B(E1)(W.u.)=6.5E-5 | ||
| 1/2- | 54 eV 10 | 8873 | [E1] | B(E1)(W.u.)=0.000280 | |||
| 8888.4 | 1/2- | 351 eV 35 | 7585 | [E1] | B(E1)(W.u.)=0.000236 | ||
| 1/2- | 351 eV 35 | 7949 | [E1] | B(E1)(W.u.)=0.000194 | |||
| 1/2- | 351 eV 35 | 8875 | [E1] | B(E1)(W.u.)=1.51E-5 | |||
| 8891.7 | 1/2- | 64 eV 10 | 7588 | [E1] | B(E1)(W.u.)=4.29E-5 | ||
| 1/2- | 64 eV 10 | 7952 | [E1] | B(E1)(W.u.)=0.000124 | |||
| 1/2- | 64 eV 10 | 8879 | [E1] | B(E1)(W.u.)=0.000104 | |||
| 8908.2 | 1/2- | 243 eV 25 | 8895 | [E1] | B(E1)(W.u.)=7.0E-5 | ||
| 8917.2 | 1/2- | 36 eV 7 | 7613 | [E1] | B(E1)(W.u.)=0.000210 | ||
| 1/2- | 36 eV 7 | 7978 | [E1] | B(E1)(W.u.)=0.000113 | |||
| 1/2- | 36 eV 7 | 8904 | (E1) | B(E1)(W.u.)=0.00075 | |||
| 8935.0 | 1/2- | 64 eV 10 | 7631 | [E1] | B(E1)(W.u.)=7.4E-5 | ||
| 1/2- | 64 eV 10 | 7995 | [E1] | B(E1)(W.u.)=0.000165 | |||
| 1/2- | 64 eV 10 | 8922 | [E1] | B(E1)(W.u.)=8.3E-6 | |||
| 8947.7 | (1/2)- | 20 eV 5 | 7644 | (E1) | B(E1)(W.u.)=0.00081 | ||
| (1/2)- | 20 eV 5 | 8935 | [E1] | B(E1)(W.u.)=6.6E-5 | |||
| 8948.9 | (1/2)- | 16 eV 5 | 7645 | [E1] | B(E1)(W.u.)=6.0E-5 | ||
| (1/2)- | 16 eV 5 | 8936 | [E1] | B(E1)(W.u.)=2.14E-5 | |||
| 8961.2 | 1/2- | 60 eV 10 | 8948 | [E1] | B(E1)(W.u.)=0.000299 | ||
| 8965.3 | 1/2- | 31 eV 7 | 8026 | [E1] | B(E1)(W.u.)=0.000240 | ||
| 1/2- | 31 eV 7 | 8952 | [E1] | B(E1)(W.u.)=0.000299 | |||
| 8983.5 | 1/2- | 49 eV 10 | 7679 | [E1] | B(E1)(W.u.)=0.000111 | ||
| 1/2- | 49 eV 10 | 8043 | [E1] | B(E1)(W.u.)=0.000264 | |||
| 8996.3 | 1/2- | 40 eV 10 | 7693 | [E1] | B(E1)(W.u.)=6.4E-5 | ||
| 1/2- | 40 eV 10 | 8057 | [E1] | B(E1)(W.u.)=0.000276 | |||
| 1/2- | 40 eV 10 | 8984 | [E1] | B(E1)(W.u.)=4.36E-5 | |||
| E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
| 9017.0 | (1/2)- | 12 eV 5 | 8077 | [E1] | B(E1)(W.u.)=2.89E-5 | ||
| (1/2)- | 12 eV 5 | 9004 | [E1] | B(E1)(W.u.)=0.000193 |
Additional Level Data and Comments:
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 0.0 | 7/2- | STABLE | μ=+4.756487 2 (2005St24,1969Lu01,1951Pr02), Q=-0.22 1 (2005St24,1976Er01) E(level): πf7/25, α=-1/2. E(level): πf7/25, α=-1/2. |
| 12.40 | 3/2+ | 325.8 ms 42 % IT = 100 | Q=+0.318 22 (2006Ga47), μ=+0.368 5 (2006Ga47) E(level): πd3/2-1f7/26, α=-1/2. Excitation energy is from (p,γ). |
| 376.50 | 3/2- | 43.3 ps 23 | E(level): Kπ=3/2- band. |
| 543.06 | 5/2+ | 5.5 ps 6 | E(level): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’). From (p,p’γ). πd3/2-1f7/26, α=+1/2. |
| 720.12 | 5/2- | 206 fs 16 | E(level): Kπ=3/2- band. |
| 939.24 | 1/2+ | 7.3 ps +6-3 | E(level): 1/2(200) band. |
| 974.38 | 7/2+ | 2.54 ps 23 | E(level): πd3/2-1f7/26, α=-1/2. Excitation energy is from (p,p’γ) or (p,p’). |
| 1067.6 | 3/2- | 0.28 ps 6 | E(level): From (α,pγ). T1/2(level): T1/2 from B(E2)|^ in Coulomb excitation not included in the evaluated value since 1986Ta14 noted that the compound nuclear contribution was ≈50%. |
| 1236.70 | 11/2- | 1.80 ps 10 | E(level): πf7/25, α=-1/2. T1/2(level): T1/2 from B(E2)|^ in Coulomb excitation not included in the evaluated value since 1986Ta14 noted that the compound nuclear contribution was ≈50%. |
| 1303.18 | 3/2+ | 2.3 ps +7-4 | E(level): 1/2(200) band. |
| 1354.2 | (11/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). Jπ(level): See footnote on Band based on (11/2-). | |
| 1408.87 | (7/2)- | 257 fs +23-18 | E(level): Kπ=3/2- band. T1/2(level): T1/2 from B(E2)|^ in Coulomb excitation not included in the evaluated value since 1986Ta14 noted that the compound nuclear contribution was ≈50%. |
| 1433.49 | 9/2+ | 3.6 ps 18 | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. |
| 1662.0 | 9/2- | 98 fs 10 | E(level): Kπ=3/2- band. T1/2(level): T1/2 from B(E2)|^ in Coulomb excitation not included in the evaluated value since 1986Ta14 noted that the compound nuclear contribution was ≈50%. |
| 1800.0 | 5/2+ | 65 fs 15 | E(level): 1/2(200) band. |
| 1900.7 | E(level): Excitation energy is from (p,γ). | ||
| 1930.6 | 1/2,3/2,5/2+ | E(level): Excitation energy is from (p,γ). | |
| 2031.2 | 11/2+ | 0.76 ps +12-8 | E(level): πd3/2-1f7/26, α=-1/2. |
| 2093.0 | 5/2 | 8.3 fs 21 | T1/2(level): From DSAM in (p,γ). |
| 2106.2 | LE 7/2 | E(level): Excitation energy is from (p,γ). | |
| 2106.3 | 15/2- | > 1.4 ps | E(level): πf7/25, α=-1/2. |
| 2138.4 | 3/2-,5/2 | 0.31 ps +9-7 | E(level): Excitation energy is from (p,γ). |
| 2151.0 | (1/2,3/2,5/2) | 60 fs +17-12 | E(level): Excitation energy is from (p,γ). Jπ(level): (1/2-),1/2+ from Hauser-Feshbach analysis in (p,p’). |
| 2152.0 | Jπ(level): (1/2-),1/2+ from Hauser-Feshbach analysis in (p,p’). | ||
| 2221.8 | (3/2-,5/2) | E(level): Excitation energy is from (p,γ). | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 2303.8 | (5/2-) | 55 fs +35-17 | E(level): Excitation energy is from (p,γ). Jπ(level): L(d,3He)=1 for 2.3-MeV multiplet and 2 for 3.7-MeV multiplet. L(3He,p)=2 for the multiplet. T1/2(level): From DSAM in (p,γ). |
| 2321.5 | 3/2-,5/2,7/2+ | 45 fs +11-7 | Jπ(level): L(d,3He)=1 for 2.3-MeV multiplet and 2 for 3.7-MeV multiplet. L(3He,p)=2 for the multiplet. |
| 2341.0 | (7/2-) | 31 fs 7 | E(level): See discussion in 1992Bu01 on the 2341 and 2352 states. Jπ(level): L(3He,p)=2 for the multiplet. See discussion in 1992Bu01 on what may Be considerable discrepancies in the experimental data as to the existence and γ deexcitation patterns and resultant T1/2’s of these two states. T1/2(level): See discussion in 1992Bu01 on what may Be considerable discrepancies in the experimental data as to the existence and γ deexcitation patterns and resultant T1/2’s of these two states. |
| 2352.2 | 3/2-,5/2 | T1/2|>42 fs +28-17, T1/2|<194 fs 56. E(level): Excitation energy is from (p,γ). See discussion in 1992Bu01 on the 2341 and 2352 states. Jπ(level): L(3He,p)=2 for the multiplet. See discussion in 1992Bu01 on what may Be considerable discrepancies in the experimental data as to the existence and γ deexcitation patterns and resultant T1/2’s of these two states. | |
| 2531.0 | (1/2+,3/2,5/2) | E(level): Excitation energy is from (p,γ). | |
| 2563.2 | 13/2+ | 1.0 ps 3 | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. From (19F,2pγ). T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 2590.0 | 3/2-,5/2,7/2- | 35 fs 8 | E(level): Excitation energy is from (p,γ). Jπ(level): L(3He,p)=2 for the multiplet. T1/2(level): From DSAM in (p,γ). |
| 2601.4 | 1/2+,3/2,5/2 | E(level): Excitation energy is from (p,γ). Jπ(level): L(3He,p)=2 for the multiplet. | |
| 2747.0 | 5/2-,7/2- | E(level): Excitation energy is from (p,γ). | |
| 2778.7 | (1/2-,3/2,5/2) | E(level): Excitation energy is from (p,γ). | |
| 2860.7 | (1/2-,3/2,5/2) | E(level): Excitation energy is from (p,γ). | |
| 2895.2 | 1/2+,3/2,5/2 | 7 fs 4 | E(level): Excitation energy is from (p,γ). T1/2(level): From DSAM in (p,γ). |
| 2903.8 | 3/2+,5/2+ | E(level): Excitation energy is from (p,γ). | |
| 2943 | (5/2)+ | E(level): Excitation energy is from (p,p’γ) or (p,p’). | |
| 2964.0 | (3/2+,5/2+) | E(level): Excitation energy is from (p,γ). | |
| 2979.8 | 3/2- | E(level): Excitation energy is from (p,γ). | |
| 3025.5 | 1/2-,3/2- | E(level): Excitation energy is from (p,γ). | |
| 3092.0 | 1/2+,3/2,5/2 | E(level): Excitation energy is from (p,γ). | |
| 3104 | (3/2,5/2) | E(level): Excitation energy is from (p,γ). Jπ(level): L(3He,p)=0+2 or (0+2) for the multiplet. | |
| 3111.2 | 7/2+ | E(level): Excitation energy is from (p,γ). | |
| 3136.3 | 5/2-,7/2-,9/2- | E(level): Excitation energy is from (p,γ). Jπ(level): L(3He,p)=0+2 or (0+2) for the multiplet. | |
| 3294.9 | 15/2+ | 0.46 ps 5 | E(level): πd3/2-1f7/26, α=-1/2. E(level): πd3/2-1f7/26, α=-1/2. |
| 3329 | + | Jπ(level): L(p,p’)=3. | |
| 3363.5 | (15/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). | |
| 3366.4 | (5/2)- | E(level): Excitation energy is from (p,γ). | |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 3443 | + | Jπ(level): L(p,p’)=3. | |
| 3457 | (5/2)- | E(level): Excitation energy is from (p,γ). Jπ(level): L(3He,p)=0+2 or (0+2) for the multiplet. | |
| 3462.1 | 5/2-,7/2- | E(level): Excitation energy is from (p,γ). Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 3475 | 3/2+,5/2+ | E(level): Excitation energy is from (p,γ). | |
| 3487.4 | 3/2- | E(level): Excitation energy is from (p,γ). | |
| 3525.2 | 3/2-,5/2 | E(level): Excitation energy is from (p,γ). | |
| 3548.5 | 1/2+,3/2,5/2,7/2+ | E(level): Excitation energy is from (p,γ). | |
| 3569.6 | 17/2- | < 0.07 ps | E(level): πf7/25, α=+1/2. |
| 3581 | 5/2-,7/2-,9/2- | Jπ(level): L(3He,p)=0+2 or (0+2) for the multiplet. | |
| 3584 | 1/2,3/2,5/2+ | E(level): Excitation energy is from (p,γ). | |
| 3606 | + | Jπ(level): L(p,p’)=3. | |
| 3692.9 | 19/2- | 1.39 ps 14 | E(level): πf7/25, α=-1/2. |
| 3714.3 | 1/2,3/2,5/2 | 13 fs +14-10 | E(level): Excitation energy is from (p,γ). Jπ(level): L(d,3He)=1 for 2.3-MeV multiplet and 2 for 3.7-MeV multiplet. L(3He,d)=1 for the multiplet. T1/2(level): From DSAM in (p,γ). |
| 3722.3 | E(level): Excitation energy is from (p,γ). Jπ(level): L(d,3He)=1 for 2.3-MeV multiplet and 2 for 3.7-MeV multiplet. L(3He,d)=1 for the multiplet. | ||
| 3776 | (+) | Jπ(level): L(p,p’)=3. | |
| 3864.0 | E(level): Excitation energy is from (p,γ). | ||
| 3882 | (1/2-) | Jπ(level): L=(1), Jπ=(3/2-) in (α,p) for the doublet. | |
| 3890 | + | Jπ(level): L(p,p’)=3. | |
| 3916 | 1/2-,3/2- | Jπ(level): L=(1), Jπ=(3/2-) in (α,p) for the doublet. | |
| 3938 | 5/2-,7/2-,9/2- | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 4031 | + | Jπ(level): L(p,p’)=3. | |
| 4034 | 5/2-,7/2-,9/2- | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 4055.4 | 17/2+ | 0.28 ps 6 | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. From (19F,2pγ). T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 4084.9 | (1/2-,3/2-) | E(level): Excitation energy is from (p,γ). | |
| 4129 | E(level): Excitation energy is from (p,p’γ) or (p,p’). | ||
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 4895.4 | 19/2+ | 0.21 ps 4 | E(level): πd3/2-1f7/26, α=-1/2. From (19F,2pγ). T1/2(level): From DSAM in 30Si(18O,p2nγ). E(level): πd3/2-1f7/26, α=-1/2. From (19F,2pγ). |
| 4965 | 5/2-,7/2-,9/2- | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 5169 | Jπ(level): (11/2-,13/2+) for the multiplet from σ(θ) and analyzing power in (pol p,α). | ||
| 5219 | Jπ(level): (11/2-,13/2+) for the multiplet from σ(θ) and analyzing power in (pol p,α). | ||
| 5418.3 | 23/2- | 1.32 ps 14 | E(level): πf7/25, α=-1/2. Jπ(level): Jπ(5419)=15/2-,19/2,23/2- from ΔJ=0 d or ΔJ=2 E2 γ to 19/2-. Jπ(7929)=19/2+,21/2,23/2,25/2+ from d,E2 γ to 21/2+ and γ to 23/2+. Jπ(5419)=19/2,23/2- and Jπ(7929)=21/2, Jπ(5419)=19/2 and Jπ(7929)=23/2, or Jπ(5419)=23/2- and Jπ(7929)=25/2+ from connecting ΔJ=1 d+Q or ΔJ=2 E2 γ. Members of the πf7/25 and πd3/2-1f7/26, respectively. Jπ(level): Jπ(5419)=15/2-,19/2,23/2- from ΔJ=0 d or ΔJ=2 E2 γ to 19/2-. Jπ(7929)=19/2+,21/2,23/2,25/2+ from d,E2 γ to 21/2+ and γ to 23/2+. Jπ(5419)=19/2,23/2- and Jπ(7929)=21/2, Jπ(5419)=19/2 and Jπ(7929)=23/2, or Jπ(5419)=23/2- and Jπ(7929)=25/2+ from connecting ΔJ=1 d+Q or ΔJ=2 E2 γ. Members of the πf7/25 and πd3/2-1f7/26, respectively. |
| 5516.4 | (19/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). | |
| 5696.8 | 21/2+ | 0.28 ps 14 | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. From (19F,2pγ). T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 5710.6 | (21/2-) | E(level): πf7/25, α=+1/2. E(level): πf7/25, α=+1/2. | |
| 6332 | Jπ(level): L(3He,p)=0+2 or (0+2) for the multiplet. | ||
| 6369 | 3/2+,5/2+ | Jπ(level): L(3He,p)=0+2 or (0+2) for the multiplet. | |
| 6551 | 5/2-,7/2-,9/2- | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 6667 | (5/2-,7/2-,9/2-) | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 6683.9 | 23/2+ | 0.17 ps 4 | E(level): πd3/2-1f7/26, α=-1/2. From (19F,2pγ). T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 6751 | (5/2-,7/2-,9/2-) | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 6820 | 5/2-,7/2-,9/2- | Jπ(level): L(3He,p)=0+2 or (0+2). | |
| 7612.6 | (23/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). | |
| 7711.0 | Jπ(level): Possibly 3/2,5/2+ from multiply placed γ’s to 1/2+, 5/2-, and 5/2+. | ||
| 7712.5 | Jπ(level): Possibly 3/2,5/2+ from multiply placed γ’s to 1/2+, 5/2-, and 5/2+. | ||
| 7714.9 | Jπ(level): Possibly 3/2,5/2+ from multiply placed γ’s to 1/2+, 5/2-, and 5/2+. | ||
| 7929.3 | 25/2+ | < 0.07 ps | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. From (19F,2pγ). Jπ(level): Jπ(5419)=15/2-,19/2,23/2- from ΔJ=0 d or ΔJ=2 E2 γ to 19/2-. Jπ(7929)=19/2+,21/2,23/2,25/2+ from d,E2 γ to 21/2+ and γ to 23/2+. Jπ(5419)=19/2,23/2- and Jπ(7929)=21/2, Jπ(5419)=19/2 and Jπ(7929)=23/2, or Jπ(5419)=23/2- and Jπ(7929)=25/2+ from connecting ΔJ=1 d+Q or ΔJ=2 E2 γ. Members of the πf7/25 and πd3/2-1f7/26, respectively. T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 8003.4 | 19/2- TO 27/2- | < 0.07 ps | E(level): From (19F,2pγ). T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 8111.6 | 3/2- | 37 eV 9 | Γγ=1.3 4, Γp=36 9 E(level): Fragments of 45Ca 1435, 3/2-, IAR. |
| 8127.7 | 3/2- | 23 eV 7 | Γγ=0.87 24, Γp=22 7 E(level): Fragments of 45Ca 1435, 3/2-, IAR. |
| 8364.4 | 25/2+ | < 0.07 ps | E(level): From (19F,2pγ). Jπ(level): Jπ(8364)=19/2-,21/2,25/2,27/2- from ΔJ=1 d+Q or ΔJ=2 E2 to 23/2-. Jπ(8622)=19/2+,21/2,25/2,27/2+ to 23/2+. Jπ(8364)=21/2+ and Jπ(8622)=19/2+, Jπ(8364)=19/2-,23/2 and Jπ(8622)=21/2, Jπ(8364)=27/2- and Jπ(8622)=25/2, or Jπ(8364)=25/2+ and Jπ(8622)=27/2+ from connecting M1+E2 γ. Jπ(8622)=27/2+ from membership in πd3/2-1f7/26 band; therefore, Jπ(8364)=25/2+. T1/2(level): From DSAM in 30Si(18O,p2nγ). |
| 8503.3 | 3/2- | 400 eV 40 | Γγ=0.41 EV, Γp=400 40 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 8515.9 | 3/2- | 60 eV 10 | Γγ=0.34 EV, Γp=60 10 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| 8519.3 | 3/2- | 30 eV 7 | Γγ=0.32 EV, Γp=30 7 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| 8528.4 | (3/2)- | 7 eV 5 | Γγ=0.16 EV, Γp=7 5 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| 8529.2 | (3/2)- | 5 eV 3 | Γγ=0.16 EV, Γp=5 3 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| 8533.1 | 3/2- | 10 eV 5 | Γγ=0.11 EV, Γp=10 5 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| 8543.2 | 3/2- | 10 eV 5 | Γγ=0.32 EV, Γp=10 5 E(level): Fine structure of the 45Ca 1904, 3/2-, IAR. |
| 8552.7 | (1/2)- | 10 eV 5 | Γγ=0.28 EV, Γp=10 5 E(level): Background 1/2- states. |
| 8580.1 | 1/2- | 50 eV 10 | Γγ=0.13 EV, Γp=50 10 E(level): Background 1/2- states. |
| 8591.4 | (1/2)- | 15 eV 5 | Γγ=0.12 EV, Γp=15 5 E(level): Background 1/2- states. |
| 8616.1 | 1/2- | 40 eV 10 | Γγ=0.37 EV, Γp=40 10 E(level): Background 1/2- states. |
| 8622.4 | 27/2+ | 0.19 ps 6 | E(level): πd3/2-1f7/26, α=-1/2. From (19F,2pγ). Jπ(level): Jπ(8364)=19/2-,21/2,25/2,27/2- from ΔJ=1 d+Q or ΔJ=2 E2 to 23/2-. Jπ(8622)=19/2+,21/2,25/2,27/2+ to 23/2+. Jπ(8364)=21/2+ and Jπ(8622)=19/2+, Jπ(8364)=19/2-,23/2 and Jπ(8622)=21/2, Jπ(8364)=27/2- and Jπ(8622)=25/2, or Jπ(8364)=25/2+ and Jπ(8622)=27/2+ from connecting M1+E2 γ. Jπ(8622)=27/2+ from membership in πd3/2-1f7/26 band; therefore, Jπ(8364)=25/2+. T1/2(level): From DSAM in 30Si(18O,p2nγ). Jπ(level): Jπ(8364)=19/2-,21/2,25/2,27/2- from ΔJ=1 d+Q or ΔJ=2 E2 to 23/2-. Jπ(8622)=19/2+,21/2,25/2,27/2+ to 23/2+. Jπ(8364)=21/2+ and Jπ(8622)=19/2+, Jπ(8364)=19/2-,23/2 and Jπ(8622)=21/2, Jπ(8364)=27/2- and Jπ(8622)=25/2, or Jπ(8364)=25/2+ and Jπ(8622)=27/2+ from connecting M1+E2 γ. Jπ(8622)=27/2+ from membership in πd3/2-1f7/26 band; therefore, Jπ(8364)=25/2+. |
| 8658.2 | (1/2)- | 26 eV 7 | Γγ=0.79 EV, Γp=25 7 E(level): Background 1/2- states. |
| 8664.9 | (1/2)- | 5 eV 3 | Γγ=0.23 EV, Γp=5 3 E(level): Background 1/2- states. |
| 8674.5 | (1/2)- | 15 eV 5 | Γγ=0.19 EV, Γp=15 5 E(level): Background 1/2- states. |
| 8696.4 | 1/2- | 36 eV 7 | Γγ=0.51 EV, Γp=35 7 E(level): Background 1/2- states. |
| 8711.7 | (1/2)- | 15 eV 5 | Γγ=0.46 EV, Γp=15 5 E(level): Background 1/2- states. |
| 8716.1 | (1/2)- | 26 eV 7 | Γγ=0.85 EV, Γp=25 7 E(level): Background 1/2- states. |
| 8735.5 | 1/2- | 60 eV 10 | Γγ=0.33 EV, Γp=60 10 E(level): Background 1/2- states. |
| 8749.2 | (1/2)- | 11 eV 5 | Γγ=0.91 EV, Γp=10 5 E(level): Background 1/2- states. |
| 8754.5 | 1/2- | 100 eV 15 | Γγ=0.28 EV, Γp=100 15 Probable doublet. E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8766.3 | 1/2- | 52 eV 10 | Γγ=1.61 EV, Γp=50 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8794.8 | 1/2- | 76 eV 15 | Γγ=0.56 EV, Γp=75 15 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8807.5 | 1/2- | 35 eV 7 | Γγ=0.32 EV, Γp=35 7 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8813.9 | (1/2)- | 21 eV 5 | Γγ=1.38 EV, Γp=20 5 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8824.7 | (1/2)- | 11 eV 5 | Γγ=0.52 EV, Γp=10 5 Probable doublet. E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| E(level) | Jπ(level) | T1/2(level) | Comments |
| 8838.2 | 1/2- | 400 eV 40 | Γγ=0.29 EV, Γp=400 40 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8844.4 | 1/2- | 35 eV 7 | Γγ=0.10 EV, Γp=35 7 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8862.8 | 1/2- | 175 eV 20 | Γγ=0.28 EV, Γp=175 20 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8870.5 | 1/2- | 241 eV 25 | Γγ=0.40 EV, Γp=241 25 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8885.7 | 1/2- | 54 eV 10 | Γγ=0.50 EV, Γp=53 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8888.4 | 1/2- | 351 eV 35 | Γγ=0.31 EV, Γp=350 25 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8891.7 | 1/2- | 64 eV 10 | Γγ=0.61 EV, Γp=63 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8908.2 | 1/2- | 243 eV 25 | Γγ=0.75 EV, Γp=242 25 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8917.2 | 1/2- | 36 eV 7 | Γγ=0.86 EV, Γp=35 7 Probable doublet. E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8935.0 | 1/2- | 64 eV 10 | Γγ=0.61 EV, Γp=63 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8947.7 | (1/2)- | 20 eV 5 | Γγ=0.55 EV, Γp=19 5 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8948.9 | (1/2)- | 16 eV 5 | Γγ=0.61 EV, Γp=15 5 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8961.2 | 1/2- | 60 eV 10 | Γγ=0.29 EV, Γp=60 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8965.3 | 1/2- | 31 eV 7 | Γγ=0.81 EV, Γp=30 7 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8975.5 | (25/2-) | E(level): πf7/25, α=+1/2. | |
| 8983.5 | 1/2- | 49 eV 10 | Γγ=0.55 EV, Γp=48 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 8996.3 | 1/2- | 40 eV 10 | Γγ=0.26 EV, Γp=40 10 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 9017.0 | (1/2)- | 12 eV 5 | Γγ=0.38 EV, Γp=11 5 E(level): Fine structure of the 45Ca 2251, 1/2-, IAR. |
| 10007.6 | (27/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). | |
| 10169.4 | (29/2+) | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. | |
| 11021.9 | (31/2+) | E(level): πd3/2-1f7/26, α=-1/2. | |
| 12592.7 | (31/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). | |
| 14516.8 | (33/2+) | E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. E(level): From (p,p’γ). πd3/2-1f7/26, α=+1/2. | |
| 15702.8 | (35/2-) | E(level): From 30Si(18O,p2nγ). Band based on (11/2-). | |
| 16462.2 | (35/2+) | E(level): πd3/2-1f7/26, α=-1/2. E(level): πd3/2-1f7/26, α=-1/2. |
| E(level) | E(gamma) | Comments |
| 12.40 | 12.40 | E(γ): from level energy (B. Singh, May 01, 2021). Other: 12.4 from ε decay, with ΔE=+0.1-0.2 keV in 2008Bu01 evaluation. Comment modified by B. Singh, May 01, 2021. I(γ): from ε decay M(γ): d,Q from comparison to RUL. ΔJπ=2,yes from level scheme |
| 376.50 | 364.19 | M(γ): d(+Q) from γ(θ) in (α,pγ). Δπ=yes from level scheme | 377.1 | E(γ): Excitation energy is from (p,γ) I(γ): weighted ave of Iγ(377γ)/Iγ(364γ)=0.087 13 from (p,γ), 0.094 7 from (α,pγ), 0.088 5 from (p,p’γ), and 0.0958 21 from Coul. ex. M(γ): from γ(θ) in (α,pγ) and comparison to RUL |
| 543.06 | 166.4 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 530.65 | E(γ): Excitation energy is from (p,γ) M(γ): D+Q from γ(θ) in (α,pγ). Ne E1+M2 from δ and comparison to RUL | 543.14 | I(γ): unweighted ave of Iγ(543γ)/(531γ)=0.719 16 from (p,γ), 0.684 19 from (p,p’γ), and 0.710 10 from Coul. ex. M(γ): from γ(θ) in (α,pγ) and Coul. ex. |
| 720.12 | 708.2 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): other Iγ(708γ)/Iγ(720γ)=0.007 3 from Coul. ex.. From (α,pγ) M(γ): D+Q from γ(θ) in Coul. ex. Δπ=yes from level scheme | 720.22 | E(γ): Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) M(γ): from γ(θ) in (α,pγ) and Coul. ex. |
| 939.24 | 562.7 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 926.8 | E(γ): Multiply placed with intensity suitably divided. Excitation energy is from (p,γ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): Multiply placed with intensity suitably divided. From (α,pγ) |
| 974.38 | 431.77 | E(γ): Excitation energy is from (p,γ) I(γ): From (p,p’γ) M(γ): D+Q from γ(θ) in (α,pγ). Ne E1+M2 from δ and comparison to RUL | 962.01 | I(γ): From (p,p’γ) M(γ): From γ(θ) and linear polarization in (α,pγ) | 974.42 | I(γ): From (p,p’γ) M(γ): From γ(θ) and linear polarization in (α,pγ) |
| 1067.6 | 347.36 | E(γ): From (p,p’γ) M(γ): d(+Q) from γ(θ) in (α,pγ). Δπ=no from level scheme | 691.11 | E(γ): From (p,p’γ) M(γ): D+Q from γ(θ) in (α,pγ). Ne E1+M2 from δ and comparison to RUL | 1067 | M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme |
| 1236.70 | 1237.07 | M(γ): From γ(θ) and linear polarization in (α,pγ) |
| 1303.18 | 760.2 | E(γ): From (p,p’γ) M(γ): D+Q from γ(θ) in (α,pγ). Ne E1+M2 from δ and comparison to RUL | 926.8 | E(γ): Multiply placed with intensity suitably divided. From (p,p’γ) I(γ): Multiply placed with intensity suitably divided. From (p,p’γ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 1289.6 | E(γ): From (p,p’γ) I(γ): unweighted ave of Iγ(1290γ)/Iγ(760γ)=0.56 12 from (p,γ) and 1.1 4 from Coul. ex. M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme |
| 1354.2 | 1354 | E(γ): From 30Si(18O,p2nγ) |
| 1408.87 | 688.9 | E(γ): From (p,p’γ) I(γ): from Coulomb excitation | 1032.4 | E(γ): Multiply placed with intensity suitably divided I(γ): from Coulomb excitation. Multiply placed with intensity suitably divided M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme | 1408.6 | I(γ): from Coulomb excitation M(γ): from γ(θ) in Coul. ex. and Coul. ex. |
| 1433.49 | 197.53 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d from comparison to RUL. Δπ=yes from level scheme | 459.06 | E(γ): Excitation energy is from (p,γ) I(γ): From (p,p’γ) M(γ): D+Q from γ(θ) in (α,pγ). Ne E1+M2 from δ and comparison to RUL | 890.9 | I(γ): From (p,p’γ) M(γ): From γ(θ) and linear polarization in (α,pγ) | 1435.4 | I(γ): From (p,p’γ) M(γ): d(+Q) from γ(θ) in (α,pγ). Δπ=yes from level scheme |
| E(level) | E(gamma) | Comments |
| 1472.5 | 752 | E(γ): from (n,n’γ) | 1474 | E(γ): from (n,n’γ) |
| 1556.2 | 488.5 | E(γ): From (α,pγ) M(γ): Isotropic γ(θ) in (p,γ). d from comparison to RUL. Δπ=no from level scheme | 616.3 | M(γ): d from comparison to RUL. Δπ=yes from level scheme | 1013.8 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) |
| 1662.0 | 253.8 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 425.1 | E(γ): Excitation energy is from (p,γ) I(γ): From (p,p’γ) M(γ): d(+Q) from γ(θ) in (α,pγ). Δπ=no from level scheme | 942.0 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme | 1662.4 | I(γ): From (p,p’γ) M(γ): D+Q from γ(θ) in (α,pγ). Ne E1+M2 from δ and comparison to RUL |
| 1800.0 | 497.7 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d from comparison to RUL. Δπ=no from level scheme | 733.3 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 1080.9 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 1257.2 | E(γ): Excitation energy is from (p,p’γ) or (p,p’). From (p,p’γ) I(γ): From (α,pγ) M(γ): From γ(θ) in (α,pγ) | 1424.5 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 1788.1 | E(γ): Excitation energy is from (p,p’γ) or (p,p’). From (p,p’γ) I(γ): From (α,pγ) M(γ): From γ(θ) in (α,pγ) | 1800.1 | E(γ): From (p,p’γ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 1935.5 | 1935.5 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 1935.5 | 1559 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 2031.2 | 597.4 | E(γ): From (p,p’γ) M(γ): D+Q from γ(θ) in (α,pγ); ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne E1+M2 from δ and comparison to RUL | 794.2 | E(γ): From (p,p’γ) I(γ): weighted ave of Iγ(794γ)/Iγ(597γ)=0.15 10 from (α,pγ) and 0.10 6 from (p,p’γ) M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 1056.14 | E(γ): From (p,p’γ) I(γ): unweighted ave of Iγ(1056γ)/Iγ(597γ)=0.56 10 from 28Si(19F,2pγ), 30Si(18O,p2nγ),..., 1.54 24 from (α,pγ), and 0.8 5 from (p,p’γ). Other: 1.07 from 30Si(18O,p2nγ) M(γ): From γ(θ) and linear polarization in (α,pγ) |
| 2093.0 | 788.8 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) | 1023.7 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) M(γ): From γ(θ) in (α,pγ) | 1715.5 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) | 2094.0 | E(γ): Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) M(γ): From γ(θ) in (α,pγ) |
| E(level) | E(gamma) | Comments |
| 2106.3 | 869.57 | E(γ): Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) M(γ): from pγ(θ) and linear polarization in (α,pγ); ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ) |
| 2151.0 | 2138.5 | E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided |
| 2152.0 | 596.4 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 1084.0 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 1608.8 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 2221.8 | 2209.42 | I(γ): From (p,p’γ) | 2220.6 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 2224.2 | 790.7 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 920.8 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 1504.0 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 1681.2 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 2288.5 | 1049.2 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 2289.7 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 2303.8 | 641.1 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme | 2290.7 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 2321.5 | 2308.8 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 2321.7 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| 2341.0 | 931.34 | E(γ): Multiply placed with undivided intensity. From (p,p’γ) I(γ): Multiply placed with undivided intensity. From (p,p’γ) | 1622.5 | E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided | 2341.6 | E(γ): From (p,p’γ) |
| 2352.2 | 797.3 | E(γ): See discussion in 1992Bu01 on the 2341 and 2352 states | 1285.7 | E(γ): See discussion in 1992Bu01 on the 2341 and 2352 states | 1632.4 | E(γ): See discussion in 1992Bu01 on the 2341 and 2352 states | 2340.1 | E(γ): See discussion in 1992Bu01 on the 2341 and 2352 states | 2350.4 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) |
| E(level) | E(gamma) | Comments |
| 2531.0 | 1988.1 | M(γ): Anisotropic γ(θ) in (p,γ) |
| 2563.2 | 457.5 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): d from comparison to RUL. Δπ=yes from level scheme | 531.7 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ). From 30Si(18O,p2nγ) | 1129.8 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ). From 30Si(18O,p2nγ) | 1325.8 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ). From 30Si(18O,p2nγ) M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme |
| 2590.0 | 1032.8 | E(γ): Multiply placed with intensity suitably divided. From (p,p’γ) I(γ): Multiply placed with intensity suitably divided. From (p,p’γ) | 1524.5 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 1869.7 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 2212.7 | E(γ): From (p,p’γ) | 2590.0 | E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided M(γ): Anisotropic γ(θ) in (p,γ) |
| 2601.4 | 1534.2 | M(γ): Anisotropic γ(θ) in (p,γ) | 2590.45 | E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided |
| 2778.7 | 2058.6 | M(γ): Anisotropic γ(θ) in (p,γ) |
| 2860.7 | 2140 | E(γ): Multiply placed |
| 3025.5 | 803.5 | E(γ): From (p,p’γ) I(γ): From (p,p’γ) | 931.34 | E(γ): Multiply placed with undivided intensity. From (p,p’γ) I(γ): Multiply placed with undivided intensity |
| 3159.1 | 1052.8 | E(γ): From (α,pγ). Excitation energy is from (p,p’γ) or (p,p’) I(γ): From (α,pγ) |
| 3294.9 | 732 | E(γ): From (19F,2pγ) I(γ): From (19F,2pγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL; Ne E1+M2 from large DCO and small δ from comparison to RUL | 1263 | E(γ): From (19F,2pγ) I(γ): From (19F,2pγ) M(γ): ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme |
| 3363.5 | 1257 | E(γ): From 30Si(18O,p2nγ) | 2009 | E(γ): From 30Si(18O,p2nγ) | 2127 | E(γ): From 30Si(18O,p2nγ) |
| 3569.6 | 1463.3 | E(γ): From (19F,2pγ) I(γ): From (19F,2pγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL; Ne E1+M2 from large DCO and small δ from comparison to RUL |
| 3692.9 | 122.9 | E(γ): From (19F,2pγ) I(γ): Mean of Iγ(123γ)/Iγ(1586γ)=68/472 from 30Si(18O,p2nγ) and Iγ(122.9γ)/Iγ(1586.2γ)=8 1/29 2 from 28Si(19F,2pγ), 30Si(18O,p2nγ),... M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). M1 from comparison to RUL | 1586.56 | E(γ): From (19F,2pγ) I(γ): Mean of Iγ(123γ)/Iγ(1586γ)=68/472 from 30Si(18O,p2nγ) and Iγ(122.9γ)/Iγ(1586.2γ)=8 1/29 2 from 28Si(19F,2pγ), 30Si(18O,p2nγ),... M(γ): Q from γ(θ) in (7Li,p2nγ); ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL |
| E(level) | E(gamma) | Comments |
| 3714.3 | 1621.8 | E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided. From (19F,2pγ) | 2158.6 | I(γ): From (19F,2pγ) |
| 3882 | 3507 | M(γ): Isotropic γ(θ) in (p,γ) |
| 4055.4 | 760 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) | 1492.5 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL | 1949 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. Δπ=yes from level scheme |
| 4505 | 1398 | M(γ): Anisotropic γ(θ) in (p,γ) |
| 4895.4 | 840 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) | 1600.5 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme |
| 5418.3 | 1725.5 | E(γ): From (19F,2pγ) I(γ): From (19F,2pγ) M(γ): ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme |
| 5516.4 | 1824 | E(γ): From 30Si(18O,p2nγ) | 1946 | E(γ): From 30Si(18O,p2nγ) | 2153 | E(γ): From 30Si(18O,p2nγ) | 3410 | E(γ): From 30Si(18O,p2nγ) |
| 5696.8 | 1641 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. Δπ=2 from level scheme | 2004 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. Δπ=yes from level scheme |
| 5710.6 | 292.5 | E(γ): From 30Si(18O,p2nγ) | 2016.3 | E(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). | 2142 | E(γ): From 30Si(18O,p2nγ) |
| 6683.9 | 988 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) | 1789 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=0 d or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme |
| 7612.6 | 1902 | E(γ): From 30Si(18O,p2nγ) | 2096 | E(γ): From 30Si(18O,p2nγ) | 2194 | E(γ): From 30Si(18O,p2nγ) | 3920 | E(γ): From 30Si(18O,p2nγ) |
| E(level) | E(gamma) | Comments |
| 7696.3 | 1986 | E(γ): From 30Si(18O,p2nγ) |
| 7711.0 | 3991 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4225 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4577 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4614 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4731 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4809 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4818 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4934 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5111 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5123 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5182 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5361 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5410 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5562 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5562 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5621 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6410 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6645 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6774 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6992 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7170 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7336 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7700 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
| 7712.5 | 3991 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4225 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4577 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4614 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4731 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4809 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4818 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4934 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5111 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5123 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5182 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5361 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5410 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5562 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5562 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5621 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6410 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6645 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6774 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6992 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7170 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7336 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7700 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
| E(level) | E(gamma) | Comments |
| 7714.9 | 3991 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4225 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4577 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4614 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4731 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4809 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4818 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 4934 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5111 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5123 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5182 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5361 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5410 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5562 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5562 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 5621 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6410 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6645 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6774 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 6992 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7170 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7336 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity | 7700 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
| 7725.0 | 5574 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity M(γ): Isotropic γ(θ) in (p,γ) | 5574 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity M(γ): Isotropic γ(θ) in (p,γ) | 6786 | M(γ): From γ(θ) in (p,γ) | 7005 | M(γ): From γ(θ) in (p,γ) | 7182 | M(γ): From γ(θ) in (p,γ) |
| E(level) | E(gamma) | Comments |
| 7774.4 | 5624 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity M(γ): Isotropic γ(θ) in (p,γ) | 5624 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity M(γ): Isotropic γ(θ) in (p,γ) | 6707 | M(γ): From γ(θ) in (p,γ) | 6836 | M(γ): From γ(θ) in (p,γ) | 7054 | M(γ): From γ(θ) in (p,γ) | 7231 | M(γ): From γ(θ) in (p,γ) | 7762 | M(γ): From γ(θ) in (p,γ) |
| 7929.3 | 1245 | E(γ): From 30Si(18O,p2nγ) | 2231.5 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme | 2511 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL |
| 8003.4 | 2585 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) |
| 8111.6 | 3439 | M(γ): From γ(θ) in (p,γ) | 3611 | M(γ): D+Q from γ(θ) in (p,γ). Δπ=no from level scheme | 4230 | M(γ): D+Q from γ(θ) in (p,γ). Δπ=no from level scheme | 6021 | M(γ): From γ(θ) in (p,γ) | 8101 | M(γ): D+Q from γ(θ) in (p,γ). Δπ=yes from level scheme |
| 8127.7 | 3456 | M(γ): From γ(θ) in (p,γ) | 3628 | M(γ): D+Q from γ(θ) in (p,γ). Δπ=no from level scheme | 4247 | M(γ): D+Q from γ(θ) in (p,γ). Δπ=no from level scheme | 6038 | M(γ): From γ(θ) in (p,γ) |
| 8305.3 | 2595 | E(γ): From 30Si(18O,p2nγ) |
| 8364.4 | 1680.5 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL | 2946 | E(γ): From 30Si(18O,p2nγ) |
| 8497.7 | 6157 | M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme | 6943 | M(γ): From γ(θ) in (p,γ) | 7196 | M(γ): D+Q from γ(θ) in (p,γ). π=yes from level scheme | 7529 | M(γ): B(M2)(W.u.) exceeds RUL(M1) by a factor of five. | 7561 | M(γ): D+Q from γ(θ) in (p,γ). π=yes from level scheme | 8485 | M(γ): From γ(θ) in (p,γ) |
| E(level) | E(gamma) | Comments |
| 8503.3 | 6163 | M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme | 7564 | M(γ): D+Q from γ(θ) in (p,γ). Δπ=yes from level scheme |
| 8515.9 | 7577 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8622.4 | 258 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). M1 from comparison to RUL | 693 | E(γ): From 30Si(18O,p2nγ) | 1938.5 | E(γ): From 30Si(18O,p2nγ) I(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme |
| 8711.7 | 7408 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8716.1 | 7777 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 8703 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8749.2 | 8736 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8754.5 | 8742 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8766.3 | 7462 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme | 7827 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8794.8 | 7491 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8807.5 | 7503 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8813.9 | 8800 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8838.2 | 7898 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8862.8 | 7559 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8870.5 | 7567 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8917.2 | 8904 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8947.7 | 7644 | M(γ): d,E2 from comparison to RUL. Δπ=yes from the level scheme |
| 8975.5 | 3557 | E(γ): From 30Si(18O,p2nγ) |
| 9164.0 | 3746 | E(γ): From 30Si(18O,p2nγ) |
| 9481.1 | 4063 | E(γ): From 30Si(18O,p2nγ) |
| 10001.1 | 1379 | E(γ): From 30Si(18O,p2nγ) |
| E(level) | E(gamma) | Comments |
| 10007.6 | 2395 | E(γ): From 30Si(18O,p2nγ) | 4589 | E(γ): From 30Si(18O,p2nγ) |
| 10169.4 | 1547 | E(γ): From 30Si(18O,p2nγ) | 2239.5 | E(γ): From 30Si(18O,p2nγ) |
| 10299.2 | 4881 | E(γ): From 30Si(18O,p2nγ) |
| 10936.2 | 5518 | E(γ): From 30Si(18O,p2nγ) |
| 11021.9 | 852 | E(γ): From 30Si(18O,p2nγ) | 2400 | E(γ): From 30Si(18O,p2nγ) M(γ): ΔJ=1 d+Q or ΔJ=2 Q from DCO in (18O,p2nγ). |
| 11201.2 | 2578.5 | E(γ): From 30Si(18O,p2nγ) | 2837 | E(γ): From 30Si(18O,p2nγ) |
| 12142.2 | 3520 | E(γ): From 30Si(18O,p2nγ) |
| 12592.7 | 2585 | E(γ): From 30Si(18O,p2nγ) |
| 13372.5 | 3203 | E(γ): From 30Si(18O,p2nγ) |
| 13674.6 | 2473 | E(γ): From 30Si(18O,p2nγ) |
| 14516.8 | 3495 | E(γ): From 30Si(18O,p2nγ) | 4347 | E(γ): From 30Si(18O,p2nγ) |
| 15313.3 | 5144 | E(γ): From 30Si(18O,p2nγ) |
| 15702.8 | 3110 | E(γ): From 30Si(18O,p2nγ) |
| 16462.2 | 2786 | E(γ): From 30Si(18O,p2nγ) | 5440 | E(γ): From 30Si(18O,p2nγ) |
Others: see 1992Bu01
Levels: Proton resonance parameters: see 44Ca(p,p),(p,p’γ),(p,γ) res
Levels: Isobaric analog states which contain no information pertinent to the bound states of α=45 have not been included in this evaluation. See 1983Bu21.
Gammas: See (α,pγ) for unplaced gammas
Gammas: B(E1)(W.u.), B(E2)(W.u.), B(M2)(W.u.) and comparison to RUL: calculations for γ’s from proton resonances were performed using the partial Γγ’s if possible and the total Γγ for other cases instead of the total level Γ.
Q-value: Note: Current evaluation has used the following Q record $ -2062.1 5 11323.0 196888.3 8 -7933.6 8 2003Au03