ADOPTED LEVELS, GAMMAS for 65Cu
Authors: E. Browne, J. K. Tuli | Citation: Nucl. Data Sheets 111, 2425 (2010) | Cutoff date: 1-Aug-2009
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=-1351.7 keV 4 | S(n)= 9910.7 keV 7 | S(p)= 7454.0 keV 7 | Q(α)= -6790.8 keV 10 | ||
Reference: 2012WA38 |
References: | |||
A | 65Ni β- decay | B | 65Zn ε decay |
C | 62Ni(α,p) | D | 63Cu(t,p) |
E | 64Ni(p,γ) | F | 64Ni(d,n) |
G | 64Ni(3He,d) | H | 64Ni(α,t) |
I | 64Ni(12C,11B), (16O,15N) | J | 65Cu(γ,γ’) |
K | 65Cu(E,E’) | L | 65Cu(n,n’γ) |
M | 65Cu(p,p’) | N | 65Cu(p,p’γ) |
O | 65Cu(d,d’) | P | 65Cu(α,α’) |
Q | Coulomb Excitation | R | 66Zn(n,d) |
S | 66Zn(d,3He) | T | 66Zn(t,α) |
U | 68Zn(p,α) | V | 64Ni(p,p), (p,p’), (p,n), IAR |
W | 66Zn(pol d,3He) |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
0 | ABCDEFGHIJKLMNOPQRSTU W | 3/2- | STABLE | |||||
770.64 9 | ABCDEFGHIJKLMNOPQRSTU W | 1/2- | 103 fs 4 | 770.6 2 | 100 | M1+E2 | 0 | 3/2- |
1115.556 4 | ABCDE GHIJKLMNOPQRSTU W | 5/2- | 0.282 ps 6 | 344.95 20 1115.546 4 | 0.006 1 100.0 5 | [E2] M1+E2 | 770.64 0 | 1/2- 3/2- |
1481.83 3 | A CDEFGHIJKLMNOPQRSTU W | 7/2- | 0.41 ps 7 | 366.27 3 1481.84 5 | 20.4 2 100 | M1+E2 E2 | 1115.556 0 | 5/2- 3/2- |
1623.43 5 | A CDE GHIJKLMNOP RST W | 5/2- | 1.6 ps 5 | 507.9 1 852.7 2 1623.42 6 | 59 1 19.4 24 100 3 | M1+E2 (M1+E2) | 1115.556 770.64 0 | 5/2- 1/2- 3/2- |
1725.00 5 | A CDEFG JKLMNOP R | 3/2- | 92 fs 12 | 609.5 1 954.5 3 1724.92 6 | 39 1 <0.89 100 3 | M1+E2 M1+E2 | 1115.556 770.64 0 | 5/2- 1/2- 3/2- |
2094.34 14 | E JKLMNOP STU W | (7/2)- | > 1 ps | 471.0 3 612.7 8 978.8 3 2094.3 2 | 9.4 14 24.7 20 100 3 54 2 | 1623.43 1481.83 1115.556 0 | 5/2- 7/2- 5/2- 3/2- | |
2107.44 13 | CDE GH JKLM O W | (5/2)- | 0.17 ps +7-5 | 382.4 3 625.6 3 991.9 3 1336.8 3 2107.4 2 | 16 4 88 5 100 7 27 7 46 7 | 1725.00 1481.83 1115.556 770.64 0 | 3/2- 7/2- 5/2- 1/2- 3/2- | |
2212.84 15 | CDEFGH JKLMNO T | (1/2)- | 0.11 ps +7-4 | 487.8 3 1442.2 3 2212.8 2 | 15 100 16 68 22 | 1725.00 770.64 0 | 3/2- 1/2- 3/2- | |
2278.5 9 | DE JKLM O STU | (7/2)- | > 0.84 fs | 1162.6 11 2279 3 | 100 4 2.3 8 | 1115.556 0 | 5/2- 3/2- | |
2329.05 15 | CDE G JKLM OP | 3/2- | 26 fs 6 | 1213.5 3 1558.4 3 2329.0 2 | 48 61 100 | M1+E2 | 1115.556 770.64 0 | 5/2- 1/2- 3/2- |
2406.6 5 | D KLM O T | 312.4 6 924.5 10 1290.0 19 | 31 4 100 7 48 6 | 2094.34 1481.83 1115.556 | (7/2)- 7/2- 5/2- | |||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2525.74 21 | C I K MN P T | 9/2+ | 1043.9 2 | 100 | 1481.83 | 7/2- | ||
2533.04 15 | E KL | 1/2,3/2,5/2- | 808.0 3 1762.4 3 2533.0 2 | 19 100 84 | 1725.00 770.64 0 | 3/2- 1/2- 3/2- | ||
2533.9 4 | CDE GH KL OP T | (7/2+,9/2+) | 255.0 13 439.7 7 1052.0 4 | 36 6 100 12 100 4 | 2278.5 2094.34 1481.83 | (7/2)- (7/2)- 7/2- | ||
2593.4 4 | E KLMNO T | (1/2-,5/2-) | 499.7 21 1822.7 4 2594 3 | | 2094.34 770.64 0 | (7/2)- 1/2- 3/2- | ||
2620 8 | G K U | |||||||
2643.5 5 | D G KLMN | 550.0 15 1163.7 11 1529 2 1872.0 6 | 100 40 80 35 | 2094.34 1481.83 1115.556 770.64 | (7/2)- 7/2- 5/2- 1/2- | |||
2649.67 13 | DE G KLM O ST W | (5/2-,7/2-) | 8 fs +4-3 | 924.6 3 1026.3 3 1534.1 3 1879.0 3 2649.6 2 | 20 12 7 12 6 100 13 18 7 | 1725.00 1623.43 1115.556 770.64 0 | 3/2- 5/2- 5/2- 1/2- 3/2- | |
2654.9 3 | DE G K MN T | 58 fs +18-13 | 929.2 4 2655.5 4 | 100 6 45 6 | 1725.00 0 | 3/2- 3/2- | ||
2669.0 17 | D G KL | 4 fs 3 | 944.0 17 | 100 | 1725.00 | 3/2- | ||
2752.8 19 | DE H KLM O T | (7/2+,9/2+) | 30 fs 10 | 1271.0 19 | 100 | 1481.83 | 7/2- | |
2839 3 | DE K M OP T | (7/2+,9/2+) | 18 fs +8-6 | |||||
2862.77 20 | DEF J LM OP T | 19 fs 2 | 2862.7 2 | 100 | 0 | 3/2- | ||
2866.89 17 | DEF KLM P T | 3/2-,5/2,7/2- | 12 fs +4-3 | 1243.5 3 1385 2 2866.8 2 | 33 11 18 7 100 7 | 1623.43 1481.83 0 | 5/2- 7/2- 3/2- | |
2874.47 20 | DEF J L P T | (3/2-) | 12 fs 2 | 2104 3 2874.4 2 | 53 20 100 9 | 770.64 0 | 1/2- 3/2- | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2894.49 17 | EFG JKLM O T | 1/2-,3/2,5/2- | 50 fs 7 | 1271.1 3 2123 3 2894.4 2 | 100 16 90 16 29 9 | 1623.43 770.64 0 | 5/2- 1/2- 3/2- | |
2902.47 20 | C EFGH JKLM T | (3/2,5/2) | 97 fs 20 | 2902.4 2 | 100 | 0 | 3/2- | |
2947.6 20 | F KL U | 1832 2 | 100 | 1115.556 | 5/2- | |||
2977 10 | E K M OP TU | 9 fs 4 | ||||||
2990 2 | DE K M P TU | |||||||
2996.9 20 | CDE KLM P TU | (11/2-) | 1515 2 | 100 | 1481.83 | 7/2- | ||
3036 8 | K M O T | |||||||
3079 15 | F H T | 1/2-,3/2- | ||||||
3079.69 22 | CDE LM OP | (3/2,5/2)+ | 83 fs +55-42 | 1964.1 3 2309.0 3 | 100 29 92 23 | 1115.556 770.64 | 5/2- 1/2- | |
3086 2 | D F J M P W | (3/2-) | 143 fs 40 | |||||
3116 3 | FG L | (1/2-,3/2-) | 0.21 ps +28-7 | 3116 3 | 100 | 0 | 3/2- | |
3120.2 15 | FG L | 1497 2 1638 2 | 14 7 100 10 | 1623.43 1481.83 | 5/2- 7/2- | |||
3127 3 | FG LM | 2356 3 | 100 | 770.64 | 1/2- | |||
3132 3 | FG LM | 3132 3 | 100 | 0 | 3/2- | |||
3143 3 | F LM | 3143 3 | 100 | 0 | 3/2- | |||
3157 3 | DEF KLM | 2041 3 | 100 | 1115.556 | 5/2- | |||
3166.5 10 | D JKLM | 3163 3 | 100 | 0 | 3/2- | |||
3173 3 | D H L | 3173 3 | 100 | 0 | 3/2- | |||
3240.3 22 | E LM T | (1/2+,3/2,5/2+) | 2123 3 3242 3 | | 1115.556 0 | 5/2- 3/2- | ||
3261.1 20 | E J LM O U W | (1/2-,5/2-,7/2-) | 210 fs 20 | 3261 2 | 100 | 0 | 3/2- | |
3274 3 | D GH LM O TU | 3274 3 | 100 | 0 | 3/2- | |||
3278 3 | C | (11/2-) | ||||||
3326.1 10 | E J LM OP U | (3/2,5/2) | 3326.0 10 | 100 | 0 | 3/2- | ||
3337.9 20 | D LM O U | 1856 2 | 100 | 1481.83 | 7/2- | |||
3347 10 | D M O T | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
3355.3 11 | CD J LM O T | 5/2+ | 106 fs 50 | 1261.0 19 1630 2 1732 2 3355 3 | 100 18 19 11 34 19 85 13 | 2094.34 1725.00 1623.43 0 | (7/2)- 3/2- 5/2- 3/2- | |
3399 3 | GH LM | 3399 3 | 100 | 0 | 3/2- | |||
3402 5 | C | (7/2,9/2) | ||||||
3407 10 | G M W | |||||||
3427 10 | M T | 5/2-,7/2- | 50 fs 10 | |||||
3449 3 | DEFG M | |||||||
3457 3 | D FG LM | 3457 3 | 100 | 0 | 3/2- | |||
3482 10 | C F M | (7/2,9/2) | ||||||
3504 2 | DE H J M OP T | |||||||
3513 10 | CD FG K M OP | (9/2+) | ||||||
3541 10 | D G M | |||||||
3563 4 | C LM | (5/2,7/2) | 3563 4 | 100 | 0 | 3/2- | ||
3576 10 | M | |||||||
3595 10 | G M | 3/2+,5/2+ | ||||||
3606 5 | C | (9/2,7/2) | ||||||
3631.9 15 | DE J LM O T | (1/2+,3/2+) | 2861 2 3632 2 | 100 29 | 770.64 0 | 1/2- 3/2- | ||
3646 10 | CD H M O W | (5/2-,7/2,9/2+) | ||||||
3656 10 | CD M O | (9/2,7/2) | ||||||
3685 10 | D M P T | |||||||
3714 4 | D LM OP | 2943 4 | 100 | 770.64 | 1/2- | |||
3728 10 | M OP T | |||||||
3740 3 | C E M O T W | 7/2- | ||||||
3753 4 | CD G J L O W | 3753 4 | 100 | 0 | 3/2- | |||
3777 10 | D GH M O T | |||||||
3796 10 | G M O | |||||||
3808 10 | G M O | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
3825 2 | C G J M O | |||||||
3851 10 | G K M | |||||||
3881 10 | M | |||||||
3895 2 | E H J LM T | 1/2+ | 17 fs 3 | |||||
3901 | W | (5/2,7/2)- | 3892 4 | 100 | 0 | 3/2- | ||
3904 10 | C M T | (9/2) | ||||||
3925 2 | E J LM OP | 3923 4 | 100 | 0 | 3/2- | |||
3958 2 | G J LM | 3955 4 | 100 | 0 | 3/2- | |||
3964 3 | E G M | 1/2-,3/2- | 3964 3 | 100 | 0 | 3/2- | ||
3965 5 | C | (9/2,11/2) | ||||||
3987 3 | LM O | 3216 3 | 100 | 770.64 | 1/2- | |||
4006 2 | F J M O T | |||||||
4014 10 | C F M O T | (11/2-) | ||||||
4031 10 | FG M OP | |||||||
4044 10 | FG M P | |||||||
4049 4 | FG LM P | 4049 4 | 100 | 0 | 3/2- | |||
4056 2 | EFG J M OP | (1/2+,3/2,5/2+) | 4054 3 | 100 | 0 | 3/2- | ||
4087 3 | EFGH LM O | (1/2+,3/2,5/2+) | 4087 3 | 100 | 0 | 3/2- | ||
4095.5 24 | C FG J LM | (9/2) | 36 fs 5 | 3325 3 4095 4 | 71 24 100 18 | 770.64 0 | 1/2- 3/2- | |
4119 4 | E G LM O | 4119 4 | 100 | 0 | 3/2- | |||
4126 2 | J M | 3/2+ | 12 fs 1 | |||||
4141 2 | G J M O | |||||||
4176 4 | G LM P | 4176 4 | 100 | 0 | 3/2- | |||
4184 4 | E GH LM P | 4184 4 | 100 | 0 | 3/2- | |||
4201 4 | C G LM P | 4201 4 | 100 | 0 | 3/2- | |||
4217 4 | G L P | 4217 4 | 100 | 0 | 3/2- | |||
4227 4 | G LM P | 4227 4 | 100 | 0 | 3/2- | |||
4237 4 | G LM OP | 4237 4 | 100 | 0 | 3/2- | |||
4244 4 | E LM OP T | 4244 4 | 100 | 0 | 3/2- | |||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
4266 4 | KLM OP T | 4266 4 | 100 | 0 | 3/2- | |||
4271 2 | J LM OP | 4275 4 | 100 | 0 | 3/2- | |||
4290 10 | M P | |||||||
4304 10 | H M P | |||||||
4320 10 | M P | |||||||
4331 4 | LM P | 4331 4 | 100 | 0 | 3/2- | |||
4357 4 | J LM | 4357 4 | 100 | 0 | 3/2- | |||
4366 10 | M | |||||||
4376 2 | J M | |||||||
4389 4 ? | LM | 4389 4 | 100 | 0 | 3/2- | |||
4397 2 | J M | |||||||
4418 4 | LM T | 5/2-,7/2- | 4418 4 | 100 | 0 | 3/2- | ||
4436 4 | LM | 4436 4 | 100 | 0 | 3/2- | |||
4460 4 | LM | 4460 4 | 100 | 0 | 3/2- | |||
4483 4 | LM W | 4483 4 | 100 | 0 | 3/2- | |||
4490 10 | M W | |||||||
4513 10 | M T | |||||||
4524 4 | J LM T | 4524 4 | 100 | 0 | 3/2- | |||
4533 2 | J M T | |||||||
4540 4 | LM T | 4540 4 | 100 | 0 | 3/2- | |||
4566 4 | LM T | 4566 4 | 100 | 0 | 3/2- | |||
4598 10 | M | |||||||
4616 10 | M T | |||||||
4647 10 | M | |||||||
4668 10 | M T | |||||||
4682 10 | M T | |||||||
4706 10 | M | |||||||
4724 4 | LM | 4724 4 | 100 | 0 | 3/2- | |||
4736 10 | M | |||||||
4759 4 | LM T | 4759 4 | 100 | 0 | 3/2- | |||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
4776 4 | LM T | 4776 4 | 100 | 0 | 3/2- | |||
4795 10 | M | |||||||
4808 10 | M | |||||||
4822 10 | M | |||||||
4848 10 | M | |||||||
4863 4 | L | 4863 4 | 100 | 0 | 3/2- | |||
4892 4 | L | 4892 4 | 100 | 0 | 3/2- | |||
4923 4 | L W | 4923 4 | 100 | 0 | 3/2- | |||
4932 4 | L W | 4932 4 | 100 | 0 | 3/2- | |||
5017 4 | L | 5017 4 | 100 | 0 | 3/2- | |||
5063 4 | L | 5063 4 | 100 | 0 | 3/2- | |||
5077 4 | L | 5077 4 | 100 | 0 | 3/2- | |||
5083 4 | L | 5083 4 | 100 | 0 | 3/2- | |||
5100 4 | L | 5100 4 | 100 | 0 | 3/2- | |||
5217 5 | L | 5217 5 | 100 | 0 | 3/2- | |||
5230 5 | L | 5230 5 | 100 | 0 | 3/2- | |||
5236 5 | L | 5236 5 | 100 | 0 | 3/2- | |||
5244 5 | L | 5244 5 | 100 | 0 | 3/2- | |||
5262 5 | L | 5262 5 | 100 | 0 | 3/2- | |||
5296 5 | L W | 5296 5 | 100 | 0 | 3/2- | |||
5305 5 | L | 5305 5 | 100 | 0 | 3/2- | |||
5310 5 | L | 5310 5 | 100 | 0 | 3/2- | |||
5320 5 | L | 5320 5 | 100 | 0 | 3/2- | |||
5335 5 | L | 5335 5 | 100 | 0 | 3/2- | |||
5384 5 | L | 5384 5 | 100 | 0 | 3/2- | |||
5392 5 | L | 5392 5 | 100 | 0 | 3/2- | |||
5424 5 | L | 5424 5 | 100 | 0 | 3/2- | |||
5430 5 | L | 5430 5 | 100 | 0 | 3/2- | |||
5447 5 | L | 5447 5 | 100 | 0 | 3/2- | |||
5526 5 | L | 5526 5 | 100 | 0 | 3/2- | |||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
5603 5 | L | 5603 5 | 100 | 0 | 3/2- | |||
5618 5 | L | 4503 4 ? 5618 5 | | 1115.556 0 | 5/2- 3/2- | |||
5632 5 | L | 5632 5 | 100 | 0 | 3/2- | |||
5732 | W | 7/2- | ||||||
5779 5 | L | 5779 5 | 100 | 0 | 3/2- | |||
6070 | J | (3/2) | 0.7 fs 3 | |||||
6486 | W | |||||||
6556 | J | (1/2) | 7 fs 3 | |||||
7505 | W | (3/2,5/2)+ | ||||||
7939.3 14 | J | (5/2) | 5832 3 6214 3 6315 3 6457 3 7939 3 | 10 6 25 17 100 | 2107.44 1725.00 1623.43 1481.83 0 | (5/2)- 3/2- 5/2- 7/2- 3/2- | ||
8484.3 15 | J | 1.38 fs 13 | 6269 3 6760 3 7714 3 8484 3 | 1.5 1.5 4 100 | 2212.84 1725.00 770.64 0 | (1/2)- 3/2- 1/2- 3/2- | ||
8535 | W | 5/2+ | ||||||
9483 | W | 5/2+ | ||||||
10513 | W | 5/2+ | ||||||
10575 10 | V | |||||||
10900 10 | V | 3/2- | ||||||
11288 10 | V | 3/2- | ||||||
11502 | W | 5/2+ | ||||||
11587 10 | V | |||||||
11928 10 | V | 1/2+ | ||||||
12015 10 | V | 1/2- | ||||||
≈12337? | V | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
12477 10 | VW | 5/2+ | ||||||
12694 10 | V | 3/2- | ||||||
12891 10 | V | |||||||
13343 10 | V | 5/2+ | ||||||
13391 10 | V | 1/2+ | ||||||
13448 10 ? | V | |||||||
13507 10 | VW | 5/2+ | ||||||
13590 10 ? | V | (3/2+) | ||||||
13693 10 | V | |||||||
13833 10 | V | |||||||
13871 10 | V | (5/2+) | ||||||
13915 10 | V | |||||||
13955 10 | V | |||||||
14056 10 | V | |||||||
14111 10 | V | 5/2+ | ||||||
14302 10 | V | 5/2+ | ||||||
14441 10 | V | |||||||
14501 | W | 5/2+ | ||||||
14537 10 | V | |||||||
15498 | W | 5/2+ |
E(level): Levels with uncertainties <8 keV are from a least-squares fit to Eγ data, except as noted; levels with uncertainties |>8 keV are from 65Cu(p,p’) data.
T1/2(level): From Doppler Shift Atenuation method in 65Cu(n,n’γ), unless otherwise specified.
E(γ): From 65Cu(n,n’γ) and 64Ni(p,γ) data, except as noted. Note: Eγ from 65Cu(p,p’γ) are not always in good agreement with values from other reactions indicating that the uncertainties on these data are probably underestimated.
I(γ): Relative photon branching from each level are given from 65Cu(n,n’γ) data, except as noted. Branchings from 64Ni(p,γ) are given in comments where they are not in good agreement with adopted values.
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Conversion Coefficient | Additional Data |
770.64 | 1/2- | 103 fs 4 | 770.6 2 | M1+E2 | 0.096 7 | 0.000384 | B(E2)(W.u.)=11.9 18, B(M1)(W.u.)=0.463 18, α=0.000384 6, α(K)=0.000345 5, α(L)=3.41E-5 5, α(M)=4.80E-6 7, α(N)=1.470E-7 21, α(N+)=1.470E-7 21 |
1115.556 | 5/2- | 0.282 ps 6 | 344.95 20 | [E2] | 0.00621 | B(E2)(W.u.)=1.6 3, α=0.00621 9, α(K)=0.00556 8, α(L)=0.000569 8, α(M)=7.97E-5 12, α(N)=2.31E-6 4, α(N+)=2.31E-6 4 | |
5/2- | 0.282 ps 6 | 1115.546 4 | M1+E2 | -0.450 16 | 0.000185 | B(E2)(W.u.)=12.6 8, B(M1)(W.u.)=0.0468 12, α=0.000185 3, α(K)=0.0001655 24, α(L)=1.631E-5 23, α(M)=2.29E-6 4, α(N)=7.04E-8 10, α(N+)=1.058E-6 | |
1481.83 | 7/2- | 0.41 ps 7 | 366.27 3 | M1+E2 | -0.031 5 | 0.00202 | B(E2)(W.u.)=2.2 8, B(M1)(W.u.)=0.19 4, α=0.00202 3, α(K)=0.00181 3, α(L)=0.000181 3, α(M)=2.55E-5 4, α(N)=7.74E-7 11, α(N+)=7.74E-7 11 |
7/2- | 0.41 ps 7 | 1481.84 5 | E2 | 0.000192 | B(E2)(W.u.)=10.3 18, α=0.000192 3, α(K)=0.0001008 15, α(L)=9.92E-6 14, α(M)=1.395E-6 20, α(N)=4.27E-8 6, α(N+)=8.01E-5 | ||
1623.43 | 5/2- | 1.6 ps 5 | 507.9 1 | M1+E2 | +0.20 4 | 0.000980 | B(E2)(W.u.)=14 7, B(M1)(W.u.)=0.053 17, α=0.000980 19, α(K)=0.000880 17, α(L)=8.76E-5 17, α(M)=1.232E-5 24, α(N)=3.75E-7 7, α(N+)=3.75E-7 |
5/2- | 1.6 ps 5 | 1623.42 6 | (M1+E2) | -0.8 +3-5 | 0.000209 | B(E2)(W.u.)=(0.7 4), B(M1)(W.u.)=(0.0018 8), α=0.000209 9, α(K)=8.08E-5 17, α(L)=7.94E-6 17, α(M)=1.116E-6 24, α(N)=3.43E-8 7, α(N+)=0.000119 8 | |
1725.00 | 3/2- | 92 fs 12 | 609.5 1 | M1+E2 | -0.08 5 | 0.000636 | B(E2)(W.u.)=10 +13-10, B(M1)(W.u.)=0.35 5, α=0.000636 10, α(K)=0.000571 9, α(L)=5.67E-5 9, α(M)=7.97E-6 13, α(N)=2.44E-7 4, α(N+)=2.44E-7 4 |
3/2- | 92 fs 12 | 1724.92 6 | M1+E2 | 0.000244 | α=0.000244 22, α(K)=7.26×10-5 23, α(L)=7.13E-6 23, α(M)=1.00E-6 4, α(N)=3.08E-8 10, α(N+)=0.000163 19 | ||
2329.05 | 3/2- | 26 fs 6 | 2329.0 2 | M1+E2 | 0.00048 | α=0.00048 4, α(K)=4.23×10-5 10, α(L)=4.14E-6 10, α(M)=5.83E-7 14, α(N)=1.80E-8 4, α(N+)=0.00044 4 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
0 | 3/2- | STABLE | μ=+2.3816 2, Q=-0.195 4 Isotope shift (1998Da11). E(level): Isotope shift (1998Da11). |
770.64 | 1/2- | 103 fs 4 | XREF: W(774). |
1115.556 | 5/2- | 0.282 ps 6 | μ=+4.4 9 (1989Ra17) XREF: W(1119). |
1481.83 | 7/2- | 0.41 ps 7 | XREF: F(1540)W(1507). |
1623.43 | 5/2- | 1.6 ps 5 | XREF: γ(1589). |
2094.34 | (7/2)- | > 1 ps | XREF: K(2099.2)W(1080). |
2107.44 | (5/2)- | 0.17 ps +7-5 | XREF: γ(2125)K(2099.2)W(2087). |
2525.74 | 9/2+ | XREF: C(2534)K(2532). | |
2533.04 | 1/2,3/2,5/2- | XREF: K(2532). | |
2533.9 | (7/2+,9/2+) | XREF: C(2534)K(2532). | |
2643.5 | XREF: K(2644.9). | ||
2649.67 | (5/2-,7/2-) | 8 fs +4-3 | XREF: K(2644.9)W(2645). |
2654.9 | 58 fs +18-13 | XREF: K(2644.9). | |
2839 | (7/2+,9/2+) | 18 fs +8-6 | E(level): From 64Ni(p,γ) data. |
2894.49 | 1/2-,3/2,5/2- | 50 fs 7 | XREF: K(2897). |
2902.47 | (3/2,5/2) | 97 fs 20 | XREF: K(2897). |
2990 | XREF: K(2992.7). E(level): From 64Ni(p,γ) data. | ||
2996.9 | (11/2-) | XREF: C(3003)K(2992.7). | |
3079.69 | (3/2,5/2)+ | 83 fs +55-42 | XREF: C(3082). |
3086 | (3/2-) | 143 fs 40 | XREF: W(3096). E(level): From 65Cu(γ,γ’) data. |
3166.5 | E(level): From 65Cu(γ,γ’) data. | ||
3240.3 | (1/2+,3/2,5/2+) | XREF: M(3232). | |
3261.1 | (1/2-,5/2-,7/2-) | 210 fs 20 | XREF: W(3252). |
3337.9 | XREF: M(3331). | ||
3355.3 | 5/2+ | 106 fs 50 | XREF: C(3359). |
E(level) | Jπ(level) | T1/2(level) | Comments |
3407 | XREF: W(3408). | ||
3449 | L(t,p)=(0) for 3450 20; L(3He,d)=(2) for 3452 20. E(level): From 64Ni(p,γ) data. | ||
3457 | XREF: M(3470). | ||
3482 | (7/2,9/2) | XREF: C(3485). | |
3504 | E(level): From 65Cu(γ,γ’) data. | ||
3513 | (9/2+) | XREF: C(3519). | |
3563 | (5/2,7/2) | XREF: C(3566). | |
3631.9 | (1/2+,3/2+) | XREF: M(3625). | |
3646 | (5/2-,7/2,9/2+) | XREF: C(3640)W(3623). | |
3656 | (9/2,7/2) | XREF: C(3666). | |
3740 | 7/2- | XREF: C(3737)W(3737). E(level): From 64Ni(p,γ) data. | |
3753 | XREF: C(3757)W(3748). | ||
3825 | E(level): From 65Cu(γ,γ’) data. | ||
3895 | 1/2+ | 17 fs 3 | E(level): From 65Cu(γ,γ’) data. |
3904 | (9/2) | XREF: C(3910). | |
3958 | E(level): From 65Cu(γ,γ’) data. | ||
4006 | E(level): From 65Cu(γ,γ’) data. | ||
4014 | (11/2-) | XREF: C(4011). | |
4056 | (1/2+,3/2,5/2+) | E(level): From 65Cu(γ,γ’) data. | |
4095.5 | (9/2) | 36 fs 5 | XREF: C(4090). |
4126 | 3/2+ | 12 fs 1 | E(level): From 65Cu(γ,γ’) data. |
4141 | E(level): From 65Cu(γ,γ’) data. | ||
4201 | XREF: C(4195). | ||
4271 | E(level): From 65Cu(γ,γ’) data. | ||
4376 | E(level): From 65Cu(γ,γ’) data. | ||
E(level) | Jπ(level) | T1/2(level) | Comments |
4397 | E(level): From 65Cu(γ,γ’) data. | ||
4483 | XREF: W(4487). | ||
4490 | XREF: W(4487). | ||
4533 | E(level): From 65Cu(γ,γ’) data. | ||
4540 | XREF: M(4557). | ||
4923 | XREF: W(4928). | ||
4932 | XREF: W(4928). | ||
5296 | XREF: W(5292). | ||
6070 | (3/2) | 0.7 fs 3 | E(level): From 65Cu(γ,γ’) data. |
6556 | (1/2) | 7 fs 3 | E(level): From 65Cu(γ,γ’) data. |
10900 | 3/2- | Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
11288 | 3/2- | Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
11928 | 1/2+ | Jπ(level): From assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
12015 | 1/2- | Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
12477 | 5/2+ | XREF: W(12503). Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
12694 | 3/2- | Jπ(level): From assigned L-value and pγ(θ) in 64Ni(p,p), (p,p’), (p,n), IAR. | |
13343 | 5/2+ | Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. From assigned L-value and pγ(θ) in 64Ni(p,p), (p,p’), (p,n), IAR. | |
13391 | 1/2+ | J=1/2 confirmed by pγ(θ). Jπ(level): From assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
13507 | 5/2+ | XREF: W(13501). Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
13590 | (3/2+) | Jπ(level): From assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
13871 | (5/2+) | Jπ(level): From assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
14111 | 5/2+ | Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. | |
14302 | 5/2+ | Jπ(level): From analyzing power and assigned L-value in 64Ni(p,p), (p,p’), (p,n), IAR. |
E(level) | E(gamma) | Comments |
770.64 | 770.6 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. M(γ): from Coulomb excitation. |
1115.556 | 1115.546 | E(γ): from 65Zn ε decay. M(γ): from γ(θ) in 65Cu(γ,γ’) and RUL |
1481.83 | 366.27 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. M(γ): γγ(θ) in β- decay and RUL | 1481.84 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. M(γ): from Coulomb excitation. |
1623.43 | 507.9 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. M(γ): from γγ(θ) in β- decay and RUL | 852.7 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. | 1623.42 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. M(γ): from Jπ’s of levels involved, measured γ(θ) anisotropy from oriented nuclei in 65Ni β- decay and γ(θ) data in 65Cu(p,p’γ). |
1725.00 | 609.5 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): %branching=50 in 64Ni(p,γ). Eγ and branching are from 65Ni β- decay. M(γ): from γγ(θ) in β- decay and RUL | 954.5 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. | 1724.92 | E(γ): Eγ and branching are from 65Ni β- decay. I(γ): Eγ and branching are from 65Ni β- decay. M(γ): from γ(θ) in β- decay and 65Cu(γ,γ’); and RUL |
2094.34 | 471.0 | I(γ): from (n,n’γ) |
2212.84 | 1442.2 | E(γ): 1442 2 from 65Cu(n,n’γ) but 1438.6 4 (reported as the only γ depopulating a level at 2209.2) from 65Cu(p,p’γ). |
2329.05 | 1213.5 | I(γ): from 64Ni(p,γ) data. | 1558.4 | I(γ): from 64Ni(p,γ) data. | 2329.0 | I(γ): from 64Ni(p,γ) data. M(γ): from γ(θ) data in 65Cu(γ,γ’) and RUL |
2525.74 | 1043.9 | E(γ): from 65Cu(p,p’γ), the uncertainty has been doubled by the evaluators. |
2533.04 | 1762.4 | I(γ): from 64Ni(p,γ). | 2533.0 | I(γ): from 64Ni(p,γ). |
2533.9 | 1052.0 | I(γ): %branching=32 from 64Ni(p,γ). |
2752.8 | 1271.0 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
2894.49 | 1271.1 | E(γ): Multiply placed with undivided intensity I(γ): Iγ(1271)/Iγ(2894)=1.1/2.7 in 64Ni(p,γ).. Multiply placed with undivided intensity | 2123 | E(γ): Multiply placed with intensity suitably divided I(γ): not seen in 64Ni(p,γ).. Multiply placed with intensity suitably divided | 2894.4 | E(γ): 2891 3 from 65Cu(n,n’γ). |
3240.3 | 2123 | E(γ): 2127.5 (uncertainty not available) from 64Ni(p,γ).. Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided |
3326.1 | 3326.0 | E(γ): from 65Cu(γ,γ’).. Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
E(level) | E(gamma) | Comments |
3631.9 | 2861 | I(γ): from 64Ni(p,γ). Not seen in 65Cu(n,n’γ) | 3632 | I(γ): from 64Ni(p,γ). |
4087 | 4087 | E(γ): Weighted mean of 4089 3 from 64Ni(p,γ) and 4084 4 from 65Cu(n,n’γ). |
4095.5 | 3325 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
7939.3 | 5832 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 6214 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 6315 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 6457 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 7939 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. |
8484.3 | 6269 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 6760 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 7714 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. | 8484 | E(γ): Eγ and branching are from 65Cu(γ,γ’). Uncertainty on branching not available. |
Nuclear Moments: 2009Co14, 2008St12, 2004Gh13, 2004Ho08, 1998Fu01, 1997Br36, 1997Gi09, 1997So01, 1997Ku06, 1996Do27, 1996Go46, 1996Go55, 1996Ry03, 1995Go42, 1995It05, 1995Sh50, 1994Bb08, 1994Im01, 1994Fe15, 1994Sh42, 1994Go47, 1993Yo10, 1992Be51, 1992Iw01.
Atomic Mass Measurements: 2007Gu07, 2005Gu36.
Other Reactions.
65Cu(n,n): 2003Ko01, 2000To08
63Cu(11Li,9Li): 1993Ev02, 1992VaZO
65Cu(16O,16O),65Cu(16O,16O’): 1992Li10, 1992Fr08
65Cu(e,p): 1993Ta08
65Cu(d,d): 1992Ra31
64Ni(32S,31P): 1996Sa19
64Cu(t,d): 1998Ev02
65Zn ε+β+ Decay: K-shell fluorescence yield (1994So25,1992Ba66)
#) From comparison of Iγ’s with Hauser-Feshbach theory (1979Er10).
@) From γ(θ) and γ-linear polarization data. For 1725 and 2329 levels L(p)=1 is assumed.
a) L(t,p)=0.
b) 3/2,5/2,7/2 from allowed or first-forbidden β- decay of 65Ni.
c) 5/2- from γ(θ) in Coulomb excitation from 3/2- g.s.
d) 3/2,5/2,7/2 from allowed or first-forbidden ε decay of 65Zn.
e) 7/2- from γ(θ) in Coulomb excitation from 3/2- g.s.
f) 3/2-,5/2-,7/2- from allowed β- decay of 65Ni.
g) L=2 from inelastic scattering.
h) L(α,t)=2 quoted for a level at ≈2210 but no positive parity levels below 2.5 MeV are indicated by other data.
i) 9/2 from 65Cu(p,p’γ) based upon γ(θ).
j) L=3 from inelastic scattering.
k) Jπ Assigned to most probable level.
l) L(t,p)=0 for a level at 2880 20.
m) 3/2 from atomic beam (1976Fu06).
n) L=3 in (d,3He) and (t,α).
o) L(t,α)=1 is in discrepancy with Jπ assignment
p) analyzing power and L-value in 64Ni(p,p), (p,p’), (p,n), IAR
q) L-value and pγ(θ) in 64Ni(p,p), (p,p’), (p,n), IAR
r) L-value in 64Ni(p,p), (p,p’), (p,n), IAR
s) γ transitions to 1/2-, 3/2- levels
t) γ transitions to 3/2-, 7/2- levels
u) γ transitions to 1/2-, 5/2- levels
v) Experimental (α,p) cross sections compared to DWBA values
Levels: For resonance levels above 8.5 MeV see 64Ni(p,γ), 64Ni(p,p),(p,p’),(p,n) IAR and 64Ni(3He,d).
Q-value: Note: Current evaluation has used the following Q record -1352.1 3 9910.9 7 7453.6 7 -6790.4 10 2009AuZZ,2003Au03