ADOPTED LEVELS, GAMMAS for 93Tc
Author: Coral M. Baglin | Citation: Nucl. Data Sheets 112, 1163 (2011) | Cutoff date: 15-Dec-2010
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=-6388.6 keV 25 | S(n)= 12751 keV 4 | S(p)= 4086.5 keV 10 | Q(α)= -5405 keV 24 | ||
Reference: 2012WA38 |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
0.0 | ABCDEFGHIJKL N | 9/2+ | 2.75 h 5 % ε = 100 | |||||
391.84 8 | BCDEFGHIJ | 1/2- | 43.5 m 10 % IT = 77.4 6 % ε = 22.6 6 | 391.83 8 | 100 | M4 | 0.0 | 9/2+ |
680.59 8 | AB DE G I | (7/2+) | < 35 ns | 680.68 9 | 100 | (M1+E2) | 0.0 | 9/2+ |
1190 9 | BCDE I | 1/2-,3/2- | ||||||
1194.13 10 | CD G I | (GE7/2) | < 35 ns | 1194.1 1 | 100 | 0.0 | 9/2+ | |
1407.80 12 | B D FG I | (5/2-) | < 35 ns | 1015.9 1 | 100 | [E2] | 391.84 | 1/2- |
1434.42 13 | A G K N | (13/2)+ | < 10 ns | 1434.73 22 | 100 | E2 | 0.0 | 9/2+ |
1503.04 12 | BCDEF I | 1/2-,3/2- | 1111.2 1 | 100 | 391.84 | 1/2- | ||
1515.95 11 | A N | (11/2)+ | 835.9 3 ? 1515.80 13 | 4 100 | M1+E2 | 680.59 0.0 | (7/2+) 9/2+ | |
1555 2 | D | |||||||
1788.09 13 | BCDEF I | 1/2-,3/2- | 1396.2 1 | 100 | 391.84 | 1/2- | ||
1801.42 10 | G I | (7/2,9/2,11/2) | 1801.4 1 | 100 | 0.0 | 9/2+ | ||
1969.09 19 | G I | (5/2-,7/2,9/2-) | 561.2 2 1288.7 3 | 100 10 65 11 | 1407.80 680.59 | (5/2-) (7/2+) | ||
2133.70 24 | B DE G I | 5/2-,7/2- | 725.9 2 | 100 | 1407.80 | (5/2-) | ||
2142 2 | D | |||||||
2145.45 13 | A G N | (13/2)- | 629.44 11 711.11 10 | 48.1 15 100.0 15 | E1 E1 | 1515.95 1434.42 | (11/2)+ (13/2)+ | |
2184.84 15 | A K N | (17/2)+ | 27 ps 5 | 750.3 2 | 100 | E2 | 1434.42 | (13/2)+ |
2185.16 15 | A K N | (17/2)- | 10.2 µs 3 % IT = 100 | 0.31 2 39.75 10 750.7 2 | 100.0 14 35.7 14 | [E1] [E2] M2+E3 | 2184.84 2145.45 1434.42 | (17/2)+ (13/2)- (13/2)+ |
2257.73 10 | G | (7/2,9/2,11/2) | 2257.7 1 | 100 | 0.0 | 9/2+ | ||
2290 20 ? | I | |||||||
2338.89 14 | G | 1658.7 3 2338.7 2 | 38 9 100 21 | 680.59 0.0 | (7/2+) 9/2+ | |||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2431.08 15 | D F | (1/2,3/2)- | 642.9 5 928.3 2 1023.0 3 2039.1 2 | 5.0 13 18.0 17 7.5 13 100 4 | 1788.09 1503.04 1407.80 391.84 | 1/2-,3/2- 1/2-,3/2- (5/2-) 1/2- | ||
2490.2 4 | G I | 1809.6 4 | 100 | 680.59 | (7/2+) | |||
2535.3 4 | A K N | (21/2)+ | 1.61 ns 11 | 350.3 3 | 100 | E2 | 2184.84 | (17/2)+ |
2563 3 | BCDE IJ | 3/2+,5/2+ | ||||||
2631.11 22 | G | (7/2,9/2,11/2) | 1950.5 2 | 100 | 680.59 | (7/2+) | ||
2710 20 | I | |||||||
2840 20 ? | I | |||||||
3100 20 | B | |||||||
3150 11 | E I | (3/2+,5/2+) | ||||||
3213.5 25 | CD | 3/2+,5/2+ | ||||||
3280.9 4 | A K N | (21/2-) | < 1.4 ps | 745.2 1095.9 3 | 1.7 6 100.0 11 | E2 | 2535.3 2185.16 | (21/2)+ (17/2)- |
3353 7 | BC E IJ | 3/2+,5/2+ | ||||||
3580 20 | B | |||||||
3888.4 5 | A K N | (25/2-) | 57.5 ps 21 | 607.5 3 | 100 | E2 | 3280.9 | (21/2-) |
3897 12 | BC E J | 1/2+ | ||||||
3914.75 16 | B G J | (7/2,9/2,11/2)+ | 1576.0 4 2720.4 3 3914.7 2 | 16.8 25 41.1 21 100 6 | 2338.89 1194.13 0.0 | (GE7/2) 9/2+ | ||
3927.8 8 | N | (19/2+) | 1743.1 | 100 | 2184.84 | (17/2)+ | ||
3950 20 | C J | |||||||
4104 11 | BC E | 1/2+ | ||||||
4158.5 3 | B G | (7/2,9/2,11/2)+ | 3477.3 6 4158.5 3 | 24 3 100 7 | 680.59 0.0 | (7/2+) 9/2+ | ||
4187.4 3 | B G | (7/2,9/2,11/2)+ | 4187.3 3 | 100 | 0.0 | 9/2+ | ||
4257.3 4 | A K N | (21/2+) | 3.3 ps 4 | 329.6 10 1721.9 3 | 6.0 5 100.0 25 | D | 3927.8 2535.3 | (19/2+) (21/2)+ |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
4344.4 5 | G | (7/2,9/2,11/2) | 4344.3 5 | 100 | 0.0 | 9/2+ | ||
4389.6 3 | B E G | (7/2,9/2,11/2)+ | 4389.5 3 | 100 | 0.0 | 9/2+ | ||
4451 16 | B E | |||||||
4608.9 4 | G | (7/2,9/2,11/2)+ | 3928.0 5 4608.9 4 | 49 10 100 17 | 680.59 0.0 | (7/2+) 9/2+ | ||
4619.0 4 | G | (7/2,9/2,11/2)+ | 4618.9 4 | 100 | 0.0 | 9/2+ | ||
4668.63 14 | BC E G | (9/2,11/2)+ | 2329.7 2 3234.3 2 3988.0 3 4668.1 3 | 16 3 100 5 39 5 31 3 | 2338.89 1434.42 680.59 0.0 | (13/2)+ (7/2+) 9/2+ | ||
4760.6 5 | B G J | (7/2,9/2,11/2) | 4080.1 5 4759.6 10 | 100 29 17 9 | 680.59 0.0 | (7/2+) 9/2+ | ||
4764 11 | BC E J | 3/2+,5/2+ | ||||||
4775.0 5 | B G J | (7/2,9/2,11/2)+ | 4094.3 5 4775.0 10 | 100 17 10 5 | 680.59 0.0 | (7/2+) 9/2+ | ||
4900 12 | BC E | 3/2+,5/2+ | ||||||
4937.8 5 | G | (7/2,9/2,11/2)+ | 4257.2 5 4937.5 10 | 100 24 44 15 | 680.59 0.0 | (7/2+) 9/2+ | ||
4955.0 8 | G | (7/2,9/2,11/2)+ | 4954.9 8 | 100 | 0.0 | 9/2+ | ||
4973.9 9 | N | (25/2+) | < 0.90 ps | 2438.5 10 | 100 | E2 | 2535.3 | (21/2)+ |
5032 21 | C E | 3/2+,5/2+ | ||||||
5076.4 6 | K N | (23/2+) | < 55 ps | 818.2 10 1795.9 10 2541.3 10 | 100 4 24 9 10 6 | D | 4257.3 3280.9 2535.3 | (21/2+) (21/2-) (21/2)+ |
5176 10 | BC E | 3/2+,5/2+ | ||||||
5298.2 9 | G | (7/2,9/2,11/2)+ | 4104.1 10 5297.9 15 | 100 33 63 20 | 1194.13 0.0 | (GE7/2) 9/2+ | ||
5316 18 | C E | 3/2+,5/2+ | ||||||
5490 20 | C | 1/2+ | ||||||
5492 18 | C E | (3/2+,5/2+) | ||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
5564.3 7 | K N | (25/2+) | 6.9 ps 10 | 487.9 10 1306.3 10 | 54.9 18 100 4 | (M1) E2 | 5076.4 4257.3 | (23/2+) (21/2+) |
5620 | C | 1/2+ | ||||||
5648 18 | E | 3/2+,5/2+ | ||||||
5680 | C | 1/2+ | ||||||
5780 | C | 3/2+,5/2+ | ||||||
5830 20 | E | |||||||
5980 18 | BC E | 1/2+ | ||||||
6017.4 8 | K N | (27/2+) | < 62 ps | 452.8 10 2129.5 10 | 28.4 14 100 4 | (E1) | 5564.3 3888.4 | (25/2+) (25/2-) |
6053.3 9 | N | (25/2-) | < 0.55 ps | 2164.9 10 | 100 | 3888.4 | (25/2-) | |
6087.8 8 | K N | (29/2+) | 104 ps 6 | 70.0 3 523.1 10 | 21.9 10 100.0 18 | (M1) E2 | 6017.4 5564.3 | (27/2+) (25/2+) |
6106 | D | 1/2,3/2 | 2892 4551 4603 5714 | 13 6 1.2 100 | 3213.5 1555 1503.04 391.84 | 3/2+,5/2+ 1/2-,3/2- 1/2- | ||
6232 18 | B E | |||||||
6366 | D | 1/2,3/2,5/2(-) | 5974 | 100 | 391.84 | 1/2- | ||
6373.1 7 | K N | (27/2-) | 215 fs 14 | 319.8 10 1399.2 10 2484.8 10 | 7.6 6 5.9 8 100.0 23 | (M1) (E1) (M1) | 6053.3 4973.9 3888.4 | (25/2-) (25/2+) (25/2-) |
6454.0 9 | N | (29/2-) | < 0.55 ps | 2565.6 10 | 100 | E2 | 3888.4 | (25/2-) |
6463 | B D | 3/2 | 4675 4908 4960 6071 | 7.5 12.5 3.8 100 | 1788.09 1555 1503.04 391.84 | 1/2-,3/2- 1/2-,3/2- 1/2- | ||
6469 | B D | 5/2 | 4914 | 100 | 1555 | |||
6477 | B D | 5/2,7/2 | 4922 4974 5796 | 14 14 100 | 1555 1503.04 680.59 | 1/2-,3/2- (7/2+) | ||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
6531 | D | 3/2 | 4976 5337 6139 | 11 3 100 | 1555 1194.13 391.84 | (GE7/2) 1/2- | ||
6576 | D | 3/2 | 3362 4434 5021 5073 6184 | 2.5 11 10 2.5 100 | 3213.5 2142 1555 1503.04 391.84 | 3/2+,5/2+ 1/2-,3/2- 1/2- | ||
6596 | D F | (3/2)- | 4808 5093 5402 6204 | 33 55 63 100 | 1788.09 1503.04 1194.13 391.84 | 1/2-,3/2- 1/2-,3/2- (GE7/2) 1/2- | ||
6600 | D F | 1/2,3/2,5/2(-) | 5097 6208 | 61 100 | 1503.04 391.84 | 1/2-,3/2- 1/2- | ||
6670.6 9 | K N | (31/2+) | 0.236 ps 28 | 582.7 10 | 100 | (M1) | 6087.8 | (29/2+) |
6857.1 7 | K N | (29/2-) | 0.91 ps 5 | 403.1 10 483.8 10 2968.9 10 | 9.4 7 100.0 22 2.5 7 | (M1) (E2) | 6454.0 6373.1 3888.4 | (29/2-) (27/2-) (25/2-) |
7160 50 | E | |||||||
7282.2 9 | K N | (33/2+) | < 0.42 ps | 611.5 10 1194.2 10 | 100.0 20 2.6 12 | (M1) [E2] | 6670.6 6087.8 | (31/2+) (29/2+) |
7373.5 9 | K N | (31/2-) | 0.89 ps 8 | 516.5 10 1000.4 10 | 100.0 19 36.9 14 | (M1) E2 | 6857.1 6373.1 | (29/2-) (27/2-) |
7650 50 | E | |||||||
7811.9 11 | K N | (35/2+) | 0.62 ps 11 | 529.7 10 | 100 | (M1) | 7282.2 | (33/2+) |
7880.2 9 | K N | (33/2-) | < 0.28 ps | 506.8 10 1023.3 10 1209.5 10 | 100.0 18 15.0 9 4.0 13 | (M1) | 7373.5 6857.1 6670.6 | (31/2-) (29/2-) (31/2+) |
8100 50 | E | |||||||
8396.7 20 | C E M | 5/2+ | 15 eV 2 | |||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
8487.6 13 | K N | (35/2-) | 607.3 10 | 100 | 7880.2 | (33/2-) | ||
8497.5 9 | N | (35/2-) | 0.41 ps 6 | 617.2 10 1124.1 10 1215.2 10 | 100.0 18 5.0 10 3.8 15 | (M1) (E2) | 7880.2 7373.5 7282.2 | (33/2-) (31/2-) (33/2+) |
8852.3 10 | K N | (37/2-) | 0.71 ps 6 | 354.8 10 972.1 10 1040.3 10 | 100.0 20 32.2 17 26.8 14 | (M1) E2 (E1) | 8497.5 7880.2 7811.9 | (35/2-) (33/2-) (35/2+) |
9139.7 17 | N | (37/2-) | 652.1 10 | 100 | 8487.6 | (35/2-) | ||
9332 3 | C E M | 1/2+ | 36 eV 4 | |||||
9372.4 14 | N | (37/2-) | 874.9 10 | 100 | D | 8497.5 | (35/2-) | |
9420.6 11 | K N | (39/2-) | 2.6 ps 9 | 568.2 10 923.2 10 | 100.0 22 25.9 14 | (M1) E2 | 8852.3 8497.5 | (37/2-) (35/2-) |
9.54E3 19 | L | |||||||
9780 16 | C E | 7/2+ | ||||||
9898 | CDE M | 3/2+ | 22 eV 2 | 8110 8395 9506 | 28 15 57 15 100 15 | 1788.09 1503.04 391.84 | 1/2-,3/2- 1/2-,3/2- 1/2- | |
9948 16 | E | 7/2+ | ||||||
10110 16 | E M | 5/2+ | 17 eV 3 | |||||
10272.2 15 | N | (39/2+) | < 1.3 ps | 2460.2 10 | 100 | E2 | 7811.9 | (35/2+) |
10566 | M | 3/2+ | 14 eV 4 | |||||
10728 16 | E | (11/2-) | ||||||
10833 | M | 1/2+ | 37 eV | |||||
11097.8 13 | N | (41/2-) | 2245.5 10 | 100 | 8852.3 | (37/2-) | ||
11190 | M | (1/2+) | 49 eV | |||||
11289 | M | (3/2+) | 20 eV | |||||
11526.4 13 | N | (43/2-) | < 2.8 ps | 428.6 10 2105.8 10 | 18 6 100 10 | (M1) E2 | 11097.8 9420.6 | (41/2-) (39/2-) |
11600 50 | E M | (5/2+) | 30 eV | |||||
11.79E3 19 | L | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
11852 | M | (5/2+) | 40 eV | |||||
12016 | M | (3/2+) | 20 eV | |||||
12100 | M | (3/2+) | 35 eV | |||||
12209 | M | (5/2-) | 25 eV | |||||
12218.2 18 | N | (43/2+) | 1946.0 10 | 100 | (E2) | 10272.2 | (39/2+) | |
12436 | M | (3/2-) | 70 eV | |||||
12584 | M | (3/2+) | 30 eV | |||||
13258.3 15 | N | (41/2,43/2-) | < 1.4 ps | 3837.6 10 | 100 | D,E2 | 9420.6 | (39/2-) |
15.08E3 7 | L | |||||||
16.86E3 9 | L | |||||||
19.53E3 2 | L | |||||||
20.48E3 11 | L | |||||||
33.73E3 26 | L | 5.1 MeV 11 | ||||||
47.3E3 | L |
E(level): For additional levels with 8353<E<9533, see 92Mo(p,p) IAR: fine structure.
Jπ(level): Values given without comment are from (40Ca,5pγ), and are based on transition multipolarity (from γ anisotropy ratios and the assumptions that all transitions have Ji|>Jf, most have Ji>Jf and that crossover transitions are E2) and calculated shell-model structure.
T1/2(level): From (α,p2nγ), except as noted, for E<8000; from 92Mo(p,p), (pol p,p) IAR for E>8000, except as noted.
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 1 - π=-, SENIORITY=3 STATES. | |||||||
6053.3 9 | (25/2-) | < 0.55 ps | |||||
6373.1 7 | (27/2-) | 215 fs 14 | 319.8 10 1399.2 10 2484.8 10 | 7.6 6 5.9 8 100.0 23 | (M1) (E1) (M1) | 6053.3 4973.9 3888.4 | (25/2-) (25/2+) (25/2-) |
6454.0 9 | (29/2-) | < 0.55 ps | 2565.6 10 | 100 | E2 | 3888.4 | (25/2-) |
6857.1 7 | (29/2-) | 0.91 ps 5 | |||||
7373.5 9 | (31/2-) | 0.89 ps 8 | 516.5 10 1000.4 10 | 100.0 19 36.9 14 | (M1) E2 | 6857.1 6373.1 | (29/2-) (27/2-) |
7880.2 9 | (33/2-) | < 0.28 ps | 506.8 10 1023.3 10 1209.5 10 | 100.0 18 15.0 9 4.0 13 | (M1) | 7373.5 6857.1 6670.6 | (31/2-) (29/2-) (31/2+) |
8487.6 13 | (35/2-) | 607.3 10 | 100 | 7880.2 | (33/2-) | ||
8497.5 9 | (35/2-) | 0.41 ps 6 | 617.2 10 1124.1 10 1215.2 10 | 100.0 18 5.0 10 3.8 15 | (M1) (E2) | 7880.2 7373.5 7282.2 | (33/2-) (31/2-) (33/2+) |
8852.3 10 | (37/2-) | 0.71 ps 6 | 354.8 10 972.1 10 1040.3 10 | 100.0 20 32.2 17 26.8 14 | (M1) E2 (E1) | 8497.5 7880.2 7811.9 | (35/2-) (33/2-) (35/2+) |
9139.7 17 | (37/2-) | ||||||
9372.4 14 | (37/2-) | 874.9 10 | 100 | D | 8497.5 | (35/2-) | |
9420.6 11 | (39/2-) | 2.6 ps 9 | 568.2 10 923.2 10 | 100.0 22 25.9 14 | (M1) E2 | 8852.3 8497.5 | (37/2-) (35/2-) |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 2 - π=+, SENIORITY=3 STATES. | |||||||
3927.8 8 | (19/2+) | ||||||
4257.3 4 | (21/2+) | 3.3 ps 4 | 329.6 10 1721.9 3 | 6.0 5 100.0 25 | D | 3927.8 2535.3 | (19/2+) (21/2)+ |
5076.4 6 | (23/2+) | < 55 ps | 818.2 10 1795.9 10 2541.3 10 | 100 4 24 9 10 6 | D | 4257.3 3280.9 2535.3 | (21/2+) (21/2-) (21/2)+ |
5564.3 7 | (25/2+) | 6.9 ps 10 | |||||
6087.8 8 | (29/2+) | 104 ps 6 | 70.0 3 523.1 10 | 21.9 10 100.0 18 | (M1) E2 | 6017.4 5564.3 | (27/2+) (25/2+) |
6670.6 9 | (31/2+) | 0.236 ps 28 | 582.7 10 | 100 | (M1) | 6087.8 | (29/2+) |
7282.2 9 | (33/2+) | < 0.42 ps | 611.5 10 1194.2 10 | 100.0 20 2.6 12 | (M1) [E2] | 6670.6 6087.8 | (31/2+) (29/2+) |
7811.9 11 | (35/2+) | 0.62 ps 11 | 529.7 10 | 100 | (M1) | 7282.2 | (33/2+) |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 3 - π=-, SENIORITY=1 STATES. | |||||||
2145.45 13 | (13/2)- | ||||||
2185.16 15 | (17/2)- | 10.2 µs 3 % IT = 100 | 0.31 2 39.75 10 750.7 2 | 100.0 14 35.7 14 | [E1] [E2] M2+E3 | 2184.84 2145.45 1434.42 | (17/2)+ (13/2)- (13/2)+ |
3280.9 4 | (21/2-) | < 1.4 ps | 745.2 1095.9 3 | 1.7 6 100.0 11 | E2 | 2535.3 2185.16 | (21/2)+ (17/2)- |
3888.4 5 | (25/2-) | 57.5 ps 21 | |||||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) | I(γ) | M(γ) | Final Levels | |
Band 4 - π=+, SENIORITY=1 STATES. | |||||||
0.0 | 9/2+ | 2.75 h 5 % ε = 100 | |||||
1434.42 13 | (13/2)+ | < 10 ns | 1434.73 22 | 100 | E2 | 0.0 | 9/2+ |
1515.95 11 | (11/2)+ | 835.9 3 ? 1515.80 13 | 4 100 | M1+E2 | 680.59 0.0 | (7/2+) 9/2+ | |
2184.84 15 | (17/2)+ | 27 ps 5 | |||||
2535.3 4 | (21/2)+ | 1.61 ns 11 | 350.3 3 | 100 | E2 | 2184.84 | (17/2)+ |
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
391.84 | 1/2- | 43.5 m 10 % IT = 77.4 6 % ε = 22.6 6 | 391.83 8 | M4 | 0.328 | B(M4)(W.u.)=25.1 7, α=0.328 | |
680.59 | (7/2+) | < 35 ns | 680.68 9 | (M1+E2) | 0.7 2 | 0.00208 | B(E2)(W.u.)>0.00089, B(M1)(W.u.)>1.1E-6, α=0.00208 |
1407.80 | (5/2-) | < 35 ns | 1015.9 1 | [E2] | B(E2)(W.u.)>0.00060 | ||
1434.42 | (13/2)+ | < 10 ns | 1434.73 22 | E2 | B(E2)(W.u.)>0.00037 | ||
1515.95 | (11/2)+ | 1515.80 13 | M1+E2 | -16.6 +21-29 | |||
2184.84 | (17/2)+ | 27 ps 5 | 750.3 2 | E2 | B(E2)(W.u.)=3.5 7 | ||
2185.16 | (17/2)- | 10.2 µs 3 % IT = 100 | 0.31 2 | [E1] | B(E1)(W.u.)=0.0003 +4-3 | ||
(17/2)- | 10.2 µs 3 % IT = 100 | 39.75 10 | [E2] | 33.9 | B(E2)(W.u.)=0.63 3, α=33.9 6 | ||
(17/2)- | 10.2 µs 3 % IT = 100 | 750.7 2 | M2+E3 | -1.33 +16-36 | B(E3)(W.u.)=0.0112 12, B(M2)(W.u.)=2.3E-6 4 | ||
2535.3 | (21/2)+ | 1.61 ns 11 | 350.3 3 | E2 | 0.01525 | B(E2)(W.u.)=2.64 18, α=0.01525 | |
3280.9 | (21/2-) | < 1.4 ps | 1095.9 3 | E2 | B(E2)(W.u.)>10 | ||
3888.4 | (25/2-) | 57.5 ps 21 | 607.5 3 | E2 | B(E2)(W.u.)=4.75 18 | ||
4973.9 | (25/2+) | < 0.90 ps | 2438.5 10 | E2 | B(E2)(W.u.)>0.29 | ||
5564.3 | (25/2+) | 6.9 ps 10 | 487.9 10 | (M1) | B(M1)(W.u.)=0.0097 15 | ||
(25/2+) | 6.9 ps 10 | 1306.3 10 | E2 | B(E2)(W.u.)=0.56 9 | |||
6017.4 | (27/2+) | < 62 ps | 2129.5 10 | (E1) | B(E1)(W.u.)>4.3E-7 | ||
6087.8 | (29/2+) | 104 ps 6 | 70.0 3 | (M1) | 0.766 | B(M1)(W.u.)=0.097 8, α=0.766 15 | |
(29/2+) | 104 ps 6 | 523.1 10 | E2 | B(E2)(W.u.)=4.6 3 | |||
6373.1 | (27/2-) | 215 fs 14 | 319.8 10 | (M1) | 0.01266 | B(M1)(W.u.)=0.210 22, α=0.01266 21 | |
(27/2-) | 215 fs 14 | 1399.2 10 | (E1) | B(E1)(W.u.)=2.9E-5 5 | |||
(27/2-) | 215 fs 14 | 2484.8 10 | (M1) | B(M1)(W.u.)=0.0059 5 | |||
6454.0 | (29/2-) | < 0.55 ps | 2565.6 10 | E2 | B(E2)(W.u.)>0.37 | ||
6670.6 | (31/2+) | 0.236 ps 28 | 582.7 10 | (M1) | B(M1)(W.u.)=0.47 6 | ||
6857.1 | (29/2-) | 0.91 ps 5 | 483.8 10 | (M1) | B(M1)(W.u.)=0.191 12 | ||
(29/2-) | 0.91 ps 5 | 2968.9 10 | (E2) | B(E2)(W.u.)=0.0024 7 | |||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
7282.2 | (33/2+) | < 0.42 ps | 611.5 10 | (M1) | B(M1)(W.u.)>0.22 | ||
(33/2+) | < 0.42 ps | 1194.2 10 | [E2] | B(E2)(W.u.)>0.56 | |||
7373.5 | (31/2-) | 0.89 ps 8 | 1000.4 10 | E2 | B(E2)(W.u.)=6.8 7 | ||
7811.9 | (35/2+) | 0.62 ps 11 | 529.7 10 | (M1) | B(M1)(W.u.)=0.24 5 | ||
7880.2 | (33/2-) | < 0.28 ps | 506.8 10 | (M1) | B(M1)(W.u.)>0.50 | ||
8497.5 | (35/2-) | 0.41 ps 6 | 617.2 10 | (M1) | B(M1)(W.u.)=0.21 4 | ||
(35/2-) | 0.41 ps 6 | 1124.1 10 | (E2) | B(E2)(W.u.)=1.4 4 | |||
8852.3 | (37/2-) | 0.71 ps 6 | 354.8 10 | (M1) | B(M1)(W.u.)=0.44 4 | ||
(37/2-) | 0.71 ps 6 | 972.1 10 | E2 | B(E2)(W.u.)=7.4 8 | |||
(37/2-) | 0.71 ps 6 | 1040.3 10 | (E1) | B(E1)(W.u.)=6.9E-5 7 | |||
9420.6 | (39/2-) | 2.6 ps 9 | 568.2 10 | (M1) | B(M1)(W.u.)=0.037 13 | ||
(39/2-) | 2.6 ps 9 | 923.2 10 | E2 | B(E2)(W.u.)=2.7 10 | |||
10272.2 | (39/2+) | < 1.3 ps | 2460.2 10 | E2 | B(E2)(W.u.)>0.19 | ||
11526.4 | (43/2-) | < 2.8 ps | 2105.8 10 | E2 | B(E2)(W.u.)>0.16 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
0.0 | 9/2+ | 2.75 h 5 % ε = 100 | μ=6.32 6 μ: from g=1.405 14 (1995Hi06); NMR on oriented nuclei. Others: 6.26 10 from radiative detection of NMR (1989Ra17, from g=1.392 22 (1981Ha16)); 6.2 +11-4 from 1977Be19, low temperature nuclear orientation in iron (1989Ra17). E(level): μ: from g=1.405 14 (1995Hi06); NMR on oriented nuclei. Others: 6.26 10 from radiative detection of NMR (1989Ra17, from g=1.392 22 (1981Ha16)); 6.2 +11-4 from 1977Be19, low temperature nuclear orientation in iron (1989Ra17). π=+, SENIORITY=1 STATES. |
680.59 | (7/2+) | < 35 ns | T1/2(level): From time resolution for coincidences in 93Ru ε decay (59.7 s). |
1194.13 | (GE7/2) | < 35 ns | T1/2(level): From time resolution for coincidences in 93Ru ε decay (59.7 s). |
1407.80 | (5/2-) | < 35 ns | T1/2(level): From time resolution for coincidences in 93Ru ε decay (59.7 s). |
1434.42 | (13/2)+ | < 10 ns | E(level): π=+, SENIORITY=1 STATES. |
1515.95 | (11/2)+ | E(level): π=+, SENIORITY=1 STATES. | |
2145.45 | (13/2)- | E(level): π=-, SENIORITY=1 STATES. | |
2184.84 | (17/2)+ | 27 ps 5 | E(level): π=+, SENIORITY=1 STATES. |
2185.16 | (17/2)- | 10.2 µs 3 % IT = 100 | μ=+10.46 5 μ: from DPAD (1989Ra17, from data of 1977Ha49); value is corrected for diamagnetic shielding and Knight shift. E(level): μ: from DPAD (1989Ra17, from data of 1977Ha49); value is corrected for diamagnetic shielding and Knight shift. π=-, SENIORITY=1 STATES. |
2535.3 | (21/2)+ | 1.61 ns 11 | E(level): π=+, SENIORITY=1 STATES. |
3280.9 | (21/2-) | < 1.4 ps | E(level): π=-, SENIORITY=1 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
3888.4 | (25/2-) | 57.5 ps 21 | E(level): π=-, SENIORITY=1 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
3927.8 | (19/2+) | E(level): π=+, SENIORITY=3 STATES. | |
4257.3 | (21/2+) | 3.3 ps 4 | E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
4973.9 | (25/2+) | < 0.90 ps | Configuration=(π g9/25) suggested in (40Ca,5pγ). E(level): Configuration=(π g9/25) suggested in (40Ca,5pγ). From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
5076.4 | (23/2+) | < 55 ps | XREF: K(5267). E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
5564.3 | (25/2+) | 6.9 ps 10 | XREF: K(4779). E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6017.4 | (27/2+) | < 62 ps | XREF: K(3956). E(level): From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6053.3 | (25/2-) | < 0.55 ps | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6087.8 | (29/2+) | 104 ps 6 | E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6106 | 1/2,3/2 | E(level): From 93Ru ε decay (10.8 s). Jπ(level): From γ(θ) in (p,γ). | |
6373.1 | (27/2-) | 215 fs 14 | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6454.0 | (29/2-) | < 0.55 ps | Different configuration suggested in 1994Ro08. E(level): Different configuration suggested in 1994Ro08. π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6463 | 3/2 | E(level): From 93Ru ε decay (10.8 s). Jπ(level): From γ(θ) in (p,γ). | |
6469 | 5/2 | E(level): From 93Ru ε decay (10.8 s). Jπ(level): From γ(θ) in (p,γ). | |
E(level) | Jπ(level) | T1/2(level) | Comments |
6477 | 5/2,7/2 | E(level): From 93Ru ε decay (10.8 s). Jπ(level): From γ(θ) in (p,γ). | |
6531 | 3/2 | E(level): From 93Ru ε decay (10.8 s). Jπ(level): From γ(θ) in (p,γ). | |
6576 | 3/2 | E(level): From 93Ru ε decay (10.8 s). Jπ(level): From γ(θ) in (p,γ). | |
6670.6 | (31/2+) | 0.236 ps 28 | XREF: K(6668). E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
6857.1 | (29/2-) | 0.91 ps 5 | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
7282.2 | (33/2+) | < 0.42 ps | XREF: K(7279). E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
7373.5 | (31/2-) | 0.89 ps 8 | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
7811.9 | (35/2+) | 0.62 ps 11 | XREF: K(7809). E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
7880.2 | (33/2-) | < 0.28 ps | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
8487.6 | (35/2-) | XREF: K(8494). E(level): π=-, SENIORITY=3 STATES. | |
8497.5 | (35/2-) | 0.41 ps 6 | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
8852.3 | (37/2-) | 0.71 ps 6 | E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
9139.7 | (37/2-) | E(level): π=-, SENIORITY=3 STATES. | |
9332 | 1/2+ | 36 eV 4 | Isobaric analog of 93Mo(943 level). See 92Mo(p,p) fine structure for data on ≈180 fragments of this resonance. E(level): Isobaric analog of 93Mo(943 level). See 92Mo(p,p) fine structure for data on ≈180 fragments of this resonance. |
9372.4 | (37/2-) | E(level): π=-, SENIORITY=3 STATES. | |
9420.6 | (39/2-) | 2.6 ps 9 | XREF: K(9416). E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
9898 | 3/2+ | 22 eV 2 | Isobaric analog of 3/2+ 93Mo(1492 level). E(level): Isobaric analog of 3/2+ 93Mo(1492 level). |
10110 | 5/2+ | 17 eV 3 | Isobaric analog of 5/2+ 93Mo(1695 level). E(level): Isobaric analog of 5/2+ 93Mo(1695 level). |
10272.2 | (39/2+) | < 1.3 ps | Configuration=(π g9/25)(ν d5/2g9/2-1). E(level): From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
11289 | (3/2+) | 20 eV | Possible analog of 93Mo(2881 level). E(level): Possible analog of 93Mo(2881 level). |
11526.4 | (43/2-) | < 2.8 ps | E(level): From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
11600 | (5/2+) | 30 eV | Possible analog of 93Mo(3159 level). E(level): Possible analog of 93Mo(3159 level). |
11852 | (5/2+) | 40 eV | Possible analog of 93Mo(3450 level). E(level): Possible analog of 93Mo(3450 level). |
12016 | (3/2+) | 20 eV | Possible analog of 93Mo(3596 level). E(level): Possible analog of 93Mo(3596 level). |
12436 | (3/2-) | 70 eV | Possible analog of 93Mo(3980 level). E(level): Possible analog of 93Mo(3980 level). |
E(level) | Jπ(level) | T1/2(level) | Comments |
12584 | (3/2+) | 30 eV | Possible analog of 93Mo(4170 level). E(level): Possible analog of 93Mo(4170 level). |
13258.3 | (41/2,43/2-) | < 1.4 ps | E(level): From 93Ru ε decay (59.7 s). T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22). |
20.48E3 | α T> resonance. E(level): α T> resonance. | ||
33.73E3 | 5.1 MeV 11 | Collective giant resonance from coupling of GDR and isobaric analog resonance. E(level): Collective giant resonance from coupling of GDR and isobaric analog resonance. | |
47.3E3 | Resonance in (π+,π-) interpreted as double dipole resonance; σ(θ) has Q shape; Γ≈8-10 MeV (1994Mo04). E(level): Resonance in (π+,π-) interpreted as double dipole resonance; σ(θ) has Q shape; Γ≈8-10 MeV (1994Mo04). |
E(level) | E(gamma) | Comments |
680.59 | 680.68 | E(γ): weighted average of 680.5 3 from (α,p2nγ) and 680.7 1 from ε decay (59.7 s). |
1194.13 | 1194.1 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
1407.80 | 1015.9 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
1434.42 | 1434.73 | E(γ): weighted average of 1434.45 13 from (α,p2nγ) and 1434.9 1 from ε decay (59.7 s). |
1503.04 | 1111.2 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). |
1788.09 | 1396.2 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). |
1801.42 | 1801.4 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
1969.09 | 561.2 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 1288.7 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
2133.70 | 725.9 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
2145.45 | 711.11 | E(γ): weighted average of 711.09 11 from (α,p2nγ) and 711.3 3 from ε decay (59.7 s). I(γ): from (α,p2nγ). |
2184.84 | 750.3 | E(γ): from (α,p2nγ). |
2185.16 | 0.31 | E(γ): from energy shift between prompt and delayed 750γ peaks in (α,p2nγ). Other Eγ: 0.44 2 (1976Br08) in (α,2pnγ). | 750.7 | M(γ): possible parity-violating E2 component <6%; from (32S,2n2pγ). |
2257.73 | 2257.7 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
2338.89 | 1658.7 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 2338.7 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
2431.08 | 642.9 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). | 928.3 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). | 1023.0 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). | 2039.1 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). |
2490.2 | 1809.6 | E(γ): From 93Ru ε decay (10.8 s). I(γ): From 93Ru ε decay (10.8 s). |
2535.3 | 350.3 | E(γ): from (α,p2nγ). M(γ): Q from γ(θ) in (α,p2nγ); not M2 from RUL. |
2631.11 | 1950.5 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
3280.9 | 1095.9 | E(γ): from (α,p2nγ). M(γ): Q from γ(θ) in (α,p2nγ); not M2 from RUL. |
E(level) | E(gamma) | Comments |
3888.4 | 607.5 | E(γ): from (α,p2nγ). M(γ): Q from γ(θ) in (α,p2nγ); not M2 from RUL. |
3914.75 | 1576.0 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 2720.4 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 3914.7 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4158.5 | 3477.3 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 4158.5 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4187.4 | 4187.3 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4257.3 | 329.6 | M(γ): From γ anisotropy ratio in 58Ni(40Ca,5pγ). | 1721.9 | E(γ): from (α,p2nγ); 1723.0 in (40Ca,5pγ), 1722.4 in (31P,2p2nγ). M(γ): ΔJ=0 transition from (40Ca,5pγ). ΔJ=2 assumed in (31P,2p2nγ). |
4344.4 | 4344.3 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4389.6 | 4389.5 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4608.9 | 3928.0 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 4608.9 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4619.0 | 4618.9 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4668.63 | 2329.7 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 3234.3 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 3988.0 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 4668.1 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4760.6 | 4080.1 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 4759.6 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4775.0 | 4094.3 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 4775.0 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4937.8 | 4257.2 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 4937.5 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
4955.0 | 4954.9 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
E(level) | E(gamma) | Comments |
4973.9 | 2438.5 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
5076.4 | 818.2 | M(γ): From γ anisotropy ratio in 58Ni(40Ca,5pγ). |
5298.2 | 4104.1 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). | 5297.9 | E(γ): From 93Ru ε decay (59.7 s). I(γ): From 93Ru ε decay (59.7 s). |
5564.3 | 487.9 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 1306.3 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
6017.4 | 2129.5 | M(γ): d from (40Ca,5pγ); Δπ=(yes) from level scheme. |
6053.3 | 2164.9 | M(γ): ΔJ=0 transition from (40Ca,5pγ). |
6087.8 | 70.0 | E(γ): from (α,p2nγ) (where γ is placed differently); 70.4 from (40Ca,5pγ). M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 523.1 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
6106 | 2892 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 4551 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 4603 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5714 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6366 | 5974 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6373.1 | 319.8 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 1399.2 | M(γ): d from (40Ca,5pγ); Δπ=(yes) from level scheme. | 2484.8 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. |
6454.0 | 2565.6 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
6463 | 4675 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 4908 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 4960 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 6071 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6469 | 4914 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6477 | 4922 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 4974 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5796 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
E(level) | E(gamma) | Comments |
6531 | 4976 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5337 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 6139 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6576 | 3362 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 4434 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5021 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5073 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 6184 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6596 | 4808 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5093 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 5402 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 6204 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6600 | 5097 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 6208 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
6670.6 | 582.7 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. |
6857.1 | 403.1 | M(γ): assigned as ΔJ=0 transition in (40Ca,5pγ). | 483.8 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 2968.9 | M(γ): Q from (40Ca,5pγ); Δπ=(no) from level scheme. |
7282.2 | 611.5 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. |
7373.5 | 516.5 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 1000.4 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
7811.9 | 529.7 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. |
7880.2 | 506.8 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. |
8497.5 | 617.2 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 1124.1 | M(γ): (Q) from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
E(level) | E(gamma) | Comments |
8852.3 | 354.8 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 972.1 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL if T1/2<0.83 ps. | 1040.3 | M(γ): d from (40Ca,5pγ); Δπ=(yes) from level scheme. |
9372.4 | 874.9 | M(γ): From γ anisotropy ratio in 58Ni(40Ca,5pγ). |
9420.6 | 568.2 | M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme. | 923.2 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
9898 | 8110 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 8395 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. | 9506 | E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference. |
10272.2 | 2460.2 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
11526.4 | 428.6 | M(γ): d from γ anisotropy in (40Ca,5pγ); Δπ=(no) from level scheme. | 2105.8 | M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL. |
12218.2 | 1946.0 | M(γ): Q from (40Ca,5pγ); Δπ=(no) from level scheme. |
13258.3 | 3837.6 | M(γ): not M2 from RUL. |
For discussion of shell-model structure of high-spin levels see, e.g., 1992Si14, 1994Ro08, 1995Gh08.
Levels: The high spin level scheme is that proposed in the 58Ni(40Ca,5pγ) reaction study; it differs in several significant respects from that suggested in 66Zn(31P,2p2nγ) (see the latter data set for specific differences).
Q-value: Note: Current evaluation has used the following Q record -6391 612752 54086.5 10-5380 27 2003Au03,2009AuZZ
Q-value: Q(β-), S(n), Q(α): from 2009AuZZ (cf. -6340 90, 12739 26, -5377 27, respectively, from 2003Au03).
Q-value: Q(ε-p)=-4442 4 (2009AuZZ) (cf. 2470 syst (2003Au03)).