ADOPTED LEVELS, GAMMAS for 28Al
Author: M. Shamsuzzoha Basunia | Citation: Nucl. Data Sheets 114, 1189 (2013) | Cutoff date: 1-Apr-2013
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=4642.26 keV 12 | S(n)= 7725.10 keV 6 | S(p)= 9552.89 keV 13 | Q(α)= -10857.4 keV 913 | ||
Reference: 2012WA38 |
References: | |||
A | 28Mg β- decay | B | 2H(27Al,pγ) |
C | 26Mg(3He,p),(3He,pγ) | D | 27Al(n,γ) E=THERMAL |
E | 27Al(d,p) | F | 27Al(d,pγ) |
G | 28Si(μ-,NUG) | H | 29Si(d,3He) |
I | 30Si(pol d,α),(d,α),(d,αγ) |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
0.0 | ABCDEFGHI | 3+ | 2.245 m 2 % β- = 100 | |||||
30.6382 7 | A CDEFGHI | 2+ | 2.07 ns 5 | 30.6382 7 | 100 | M1 | 0.0 | 3+ |
972.35 3 | A CDEFGHI | 0+ | 33 ps 2 | 941.79 6 | 100 | E2 | 30.6382 | 2+ |
1013.637 9 | BCDEFGHI | 3+ | 103 fs 14 | 983.018 16 1013.676 21 | 100 11 61 7 | M1+E2 [M1] | 30.6382 0.0 | 2+ 3+ |
1372.917 20 | A CDEFGHI | 1+ | 223 fs 35 | 359.28 400.58 3 1342.30 11 1372.8 2 | <0.5 63 7 100 10 15 8 | [M1] M1+E2 [E2] | 1013.637 972.35 30.6382 0.0 | 3+ 0+ 2+ 3+ |
1620.30 4 | A CDEFGHI | 1+ | 92 fs 22 | 247.38 606.65 647.93 7 1589.72 8 1620.0 4 | <2.1 <2.1 4.4 25 100 13 6.4 | [M1] M1+E2 | 1372.917 1013.637 972.35 30.6382 0.0 | 1+ 3+ 0+ 2+ 3+ |
1622.907 20 | CDEFGHI | 2+ | 63 fs 10 | 249.99 609.26 650.54 1592.29 12 1622.87 6 | <4 <3 <2 7.8 11 100 11 | [M1] | 1372.917 1013.637 972.35 30.6382 0.0 | 1+ 3+ 0+ 2+ 3+ |
2138.910 10 | BCDEFGHI | 2+ | 8 fs 1 | 515.99 518.60 765.97 1125.54 21 1166.51 2108.24 4 2138.828 18 | <6 <4 <2 13 3 <4 100 4 79 4 | 1622.907 1620.30 1372.917 1013.637 972.35 30.6382 0.0 | 2+ 1+ 1+ 3+ 0+ 2+ 3+ | |
2201.43 3 | BCDEFGHI | 1+ | 32 fs 2 | 62.52 578.51 581.12 828.49 1187.74 1229.8 4 2170.70 3 2201.25 | <4.4 6 4 <3.2 <3.2 <5.7 20 3 100 4 <7.6 | [M1] | 2138.910 1622.907 1620.30 1372.917 1013.637 972.35 30.6382 0.0 | 2+ 2+ 1+ 1+ 3+ 0+ 2+ 3+ |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
2271.745 19 | BCDEFGHI | 4+ | 22 fs 3 | 132.83 648.82 1258.05 2240.92 2271.650 23 | <5 <5 <4 <2.5 100 5 | [M1] | 2138.910 1622.907 1013.637 30.6382 0.0 | 2+ 2+ 3+ 2+ 3+ |
2486.20 6 | BCDEFGHI | 2+ | 66 fs 7 | 214.45 347.29 863.26 865.87 15 1113.24 1472.48 1513.76 2455.8 3 2486.09 7 | <1.6 <1.6 18 5 100 13 <3.3 <3.3 10 3 6.7 13 33 2 | [M1] [M1] | 2271.745 2138.910 1622.907 1620.30 1372.917 1013.637 972.35 30.6382 0.0 | 4+ 2+ 2+ 1+ 1+ 3+ 0+ 2+ 3+ |
2581.81 22 | BCDEF HI | 5+ | 313 fs 25 | 310.2 1568.08 2582.2 5 | 6 2 <5.3 100 2 | [M1] [E2] | 2271.745 1013.637 0.0 | 4+ 3+ 3+ |
2656.30 4 | BCDEF HI | 4+ | 22 fs 3 | 384.55 517.38 1033.35 1642.35 10 2625.40 2656.34 7 | <1.3 <1.3 <4 100 5 <5.3 33 5 | [M1] | 2271.745 2138.910 1622.907 1013.637 30.6382 0.0 | 4+ 2+ 2+ 3+ 2+ 3+ |
2987.94 12 | CDEF HI | (3,1)+ | 62 fs 55 | 1364.99 20 1975.2 5 2987.69 17 | 100 16 7 2 84 11 | 1622.907 1013.637 0.0 | 2+ 3+ 3+ | |
3011 3 | C E HI | 0+ | ||||||
3105 1 | BC EFGHI | 1+ | 15 fs 3 | 3074 | 100 | 30.6382 | 2+ | |
3296.34 4 | BCDEF I | (3+) | 8 fs 3 | 1157.38 1673.43 11 3265.49 4 | 23 11 55 7 100 7 | 2138.910 1622.907 30.6382 | 2+ 2+ 2+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
3347.19 4 | BCDEF HI | 2+ | 6 fs 2 | 1975.2 5 3316.34 5 3346.97 4 | 5 2 5 1 100 6 | 1372.917 30.6382 0.0 | 1+ 2+ 3+ | |
3465.294 10 | BCDEF HI | 4- | 44 fs 2 | 1193.64 10 2451.48 4 3465.067 10 | 8.5 14 5.5 3 100 3 | [E1] [E1] [E1] | 2271.745 1013.637 0.0 | 4+ 3+ 3+ |
3542.1 6 | C E GHI | (1)+ | 1919.1 | 100 | 1622.907 | 2+ | ||
3591.457 9 | B DEF I | (3-) | 29 fs 4 | 1968.35 12 2577.725 21 3560.547 19 3591.211 11 | 2.13 21 46.8 21 19.8 11 100 3 | [E1] [E1] [E1] [E1] | 1622.907 1013.637 30.6382 0.0 | 2+ 3+ 2+ 3+ |
3601 5 | C H | |||||||
3670.69 7 | CDEF I | 3+ | 132 fs 42 | 2047.70 23 3639.88 9 | 96 14 100 7 | 1622.907 30.6382 | 2+ 2+ | |
3709.222 16 | CDEF HI | (2,3)+ | 187 fs 21 | 1437.40 1570.22 3678.15 5 3708.976 16 | 58 13 42 13 69 4 100 4 | 2271.745 2138.910 30.6382 0.0 | 4+ 2+ 2+ 3+ | |
3760 3 | E HI | 0+ | ||||||
3875.773 11 | B DEFG I | 2- | 19 fs 2 | 2255.42 5 2502.85 7 2862.24 22 2902.7 7 3875.480 11 | 20.4 15 5.9 4 1.4 2 0.4 2 100 4 | [E1] [E1] [E1] | 1620.30 1372.917 1013.637 972.35 0.0 | 1+ 1+ 3+ 0+ 3+ |
3901.00 4 | CDEF HI | (1,3)+ | 187 fs 28 | 2276.7 11 2887.22 4 3900.65 7 | 17 13 100 4 100 4 | 1622.907 1013.637 0.0 | 2+ 3+ 3+ | |
3935.603 18 | BCDEF HI | 2+ | 21 fs 7 | 2921.84 3 3904.76 8 3935.276 23 | 85 3 61 3 100 6 | 1013.637 30.6382 0.0 | 3+ 2+ 3+ | |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
4033 2 | C EF I | 5- | 108 fs 43 | 567 1761 | 100 6 96 6 | [E1] | 3465.294 2271.745 | 4- 4+ |
4115 4 | C E GHI | 1+ | 1976 2492 2742 4084 4114 | <29 68 35 68 44 100 59 <59 | 2138.910 1622.907 1372.917 30.6382 0.0 | 2+ 2+ 1+ 2+ 3+ | ||
4244.49 10 | CDEF HI | 2+ | 42 fs 21 | 3230.68 20 4213.49 11 | 48 5 100 5 | 1013.637 30.6382 | 3+ 2+ | |
4313 3 | E HI | (1,3,5)+ | ||||||
4385 4 | I | |||||||
4461.97 10 | DE HI | (2,4)+ | 3448.03 23 4461.60 10 | 76 12 100 7 | 1013.637 0.0 | 3+ 3+ | ||
4516.94 18 | HI | 3+ | 2893.87 17 | 100 | 1622.907 | 2+ | ||
4596.56 4 | CD FGHI | 3+ | 159 fs 83 | 2974.0 3 4565.67 15 4596.14 4 | 19 2 22 2 100 6 | 1622.907 30.6382 0.0 | 2+ 2+ 3+ | |
4691.097 6 | BCDEF HI | 3- | 4.9 fs 6 | 2419.36 8 2552.07 12 3068.16 10 4660.039 8 4690.677 7 | 2.98 21 2.00 17 1.72 13 55 2 100 3 | [E1] [E1] [E1] [E1] | 2271.745 2138.910 1622.907 30.6382 0.0 | 4+ 2+ 2+ 2+ 3+ |
4739 2 | E I | (0 TO 5)+ | ||||||
4764.922 10 | BCDEF HI | 2- | 3.5 fs 14 | 1173.4 3 2563.51 23 2625.903 16 3392.00 10 3750.83 18 4733.847 12 4764.45 3 | 7.1 16 1.8 2 24.9 13 10.4 6 0.64 5 100 5 16.6 9 | [E1] [E1] [E1] | 3591.457 2201.43 2138.910 1372.917 1013.637 30.6382 0.0 | (3-) 1+ 2+ 1+ 3+ 2+ 3+ |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
4848.73 10 | C E GHI | 1+ | 4817.21 | 100 | 30.6382 | 2+ | ||
4903.577 6 | BCDEF I | 2- | 5.7 fs 8 | 3889.73 6 4903.115 6 | 7.2 3 100 4 | [E1] | 1013.637 0.0 | 3+ 3+ |
4928 3 | E HI | |||||||
4997.01 5 | GH | 2- | 3623.74 7 4965.8 4 4996.64 7 | 100 7 10 1 74 3 | 1372.917 30.6382 0.0 | 1+ 2+ 3+ | ||
4999 8 | E I | 2+ | ||||||
5015.51 3 | CDE I | 3+ | 2743.74 19 4001.70 5 4984.30 4 | 33 4 100 6 84 4 | 2271.745 1013.637 30.6382 | 4+ 3+ 2+ | ||
5134.849 8 | BCDEF I | 3- | 5.6 fs 7 | 4119.9 4 5103.718 15 5134.342 9 | 1.3 3 13.1 8 100.0 8 | [E1] | 1013.637 30.6382 0.0 | 3+ 2+ 3+ |
5165 2 | EF I | 6-,(4-,5-) | < 49 fs | 1132 | 100 | 4033 | 5- | |
5176.96 6 | B D I | (1+ TO 3+) | 7 fs 3 | 2691.0 3 3803.7 5 4162.4 5 5176.44 6 | 41 8 16 4 27 7 100 4 | 2486.20 1372.917 1013.637 0.0 | 2+ 1+ 3+ 3+ | |
5190.4 3 | I | 3569.9 3 | 100 | 1620.30 | 1+ | |||
5287 5 | I | |||||||
5333 5 | H | |||||||
5344.75 12 | D | 4330.75 12 | 100 | 1013.637 | 3+ | |||
5377.83 4 | B D H | 4 fs 2 | 3754.70 15 5377.27 4 | 54 4 100 6 | 1622.907 0.0 | 2+ 3+ | ||
5406 5 | H | (0 TO 2)- | ||||||
5442.267 8 | BCD FGH | 2- | 3.3 fs 10 | 3303.150 13 3820.9 4 4068.99 4 5411.069 8 5441.9 3 | 57 3 1.7 4 7.9 4 100 5 0.75 10 | [E1] [E1] | 2138.910 1620.30 1372.917 30.6382 0.0 | 2+ 1+ 1+ 2+ 3+ |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
5530 8 | C | |||||||
5741.115 13 | B D GH | (1 TO 4+) | 4 fs 1 | 3254.9 3 4119.9 4 5709.852 13 | 3.9 5 7 1 100 5 | 2486.20 1620.30 30.6382 | 2+ 1+ 2+ | |
5761.12 21 | C E H | 5729.6 4 5760.57 24 | 35 4 100 4 | 30.6382 0.0 | 2+ 3+ | |||
5797.537 18 | B D H | 2- | < 4 fs | 4424.24 3 4783.0 5 5766.250 22 5796.94 4 | 94 5 2.9 8 100 5 32.6 18 | 1372.917 1013.637 30.6382 0.0 | 1+ 3+ 2+ 3+ | |
5809.0 6 | C E | |||||||
5860.78 3 | BCD H | (2,3+) | < 7 fs | 3659.08 9 3721.52 22 4237.43 10 5829.89 24 5860.13 3 | 41 3 19.4 19 39 3 8.4 7 100 5 | 2201.43 2138.910 1622.907 30.6382 0.0 | 1+ 2+ 2+ 2+ 3+ | |
5904.3 6 | C E | (1,2,3)+ | ||||||
5925.1 18 | E | |||||||
5956.8 4 | E | |||||||
5981.2 6 | E | |||||||
5992.58 10 | C | 0+ | 2450.4 6 3790.1 4 4371.9 5 4619.3 12 | 21 5 100 9 79 9 33 7 | 3542.1 2201.43 1620.30 1372.917 | (1)+ 1+ 1+ 1+ | ||
6004.8 4 | EF | < 35 ns | ||||||
6019.59 3 | D H | 2- | 4396.40 6 5005.45 9 5988.32 15 6018.88 3 | 31.0 16 25.7 16 12.3 10 100 5 | 1622.907 1013.637 30.6382 0.0 | 2+ 3+ 2+ 3+ | ||
6063.8 5 | E H | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
6070.9 5 | C E | (0,1)+ | ||||||
6160.3 6 | E | |||||||
6198.874 12 | B D | (2+ TO 4+) | < 4 fs | 3926.86 24 4059.78 19 4575.557 21 5184.99 13 6198.138 12 | 3.3 4 4.4 3 43 3 4.4 3 100 3 | 2271.745 2138.910 1622.907 1013.637 0.0 | 4+ 2+ 2+ 3+ 3+ | |
6238.2 7 | C E | (0,1,2)- | ||||||
6316.798 9 | BCD H | 2+ | < 4 fs | 2724.6 5 3020.3 7 4045.00 23 5302.650 14 5344.24 17 6316.017 10 | 1.0 3 3.5 10 1.15 10 23.5 10 0.85 5 100 5 | 3591.457 3296.34 2271.745 1013.637 972.35 0.0 | (3-) (3+) 4+ 3+ 0+ 3+ | |
6329.1 4 | E H | |||||||
6419.71 9 | D GH | (1+,2+) | 4280.37 10 5446.88 15 6420.0 5 | 100 6 20.6 12 3.5 6 | 2138.910 972.35 0.0 | 2+ 0+ 3+ | ||
6441.443 11 | D | (3+,4) | 3859.47 24 4169.38 6 5427.19 7 6440.648 11 | 6.7 9 17.7 10 12.6 7 100 3 | 2581.81 2271.745 1013.637 0.0 | 5+ 4+ 3+ 3+ | ||
6453.6 5 | E H | |||||||
6462.2 8 | E H | |||||||
6480.5 5 | E | |||||||
6493.3 8 | E H | |||||||
6512.5 5 | E | |||||||
6564.1 5 | E | |||||||
6568.6 4 | E | |||||||
6571.6 6 | C E | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
6584 | E H | |||||||
6623.06 4 | CD | (1+ TO 4+) | 6591.61 4 6621.79 18 | 86 5 100 11 | 30.6382 0.0 | 2+ 3+ | ||
6651.14 5 | D H | (1 TO 2)- | 4511.86 5 5277.56 16 6619.59 14 | 35 2 8.8 4 100 8 | 2138.910 1372.917 30.6382 | 2+ 1+ 2+ | ||
6671.1 9 | C E | |||||||
6720.3 5 | E H | |||||||
6756.68 5 | D | (2+,3) | 2881.2 3 3409.2 3 3768.6 4 4101.7 5 4270.1 3 4484.53 6 6725.15 8 | 31 6 27 3 15 2 19 6 63 8 83 6 100 6 | 3875.773 3347.19 2987.94 2656.30 2486.20 2271.745 30.6382 | 2- 2+ (3,1)+ 4+ 2+ 4+ 2+ | ||
6772.8 9 | C E | |||||||
6787.6 6 | E | |||||||
6809.2 9 | E | |||||||
6826.0 5 | E | |||||||
6835 10 | E | |||||||
6853 10 | C E | |||||||
6893.695 23 | DE | (2+,3) | 2128.81 7 3016.7 7 3222.83 12 4237.43 10 4621.47 5 4754.24 4 5879.03 24 6862.22 4 | 89 5 16 5 12.9 8 15.8 13 50 3 100 5 6.8 5 46 2 | 4764.922 3875.773 3670.69 2656.30 2271.745 2138.910 1013.637 30.6382 | 2- 2- 3+ 4+ 4+ 2+ 3+ 2+ | ||
6911 8 | C | |||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
6931 10 | E | |||||||
6967 10 | E | |||||||
7022 10 | E | |||||||
7087 10 | E | |||||||
7118 10 | C E | (1,2,3)+ | ||||||
7146 10 | E | |||||||
7176.47 5 | DE | (1+,2+,3+) | 5802.76 10 6161.8 3 7175.53 5 | 26.3 15 9.8 15 100 5 | 1372.917 1013.637 0.0 | 1+ 3+ 3+ | ||
7194 8 | C | |||||||
7243 10 | E | |||||||
7258 8 | C | |||||||
7269.47 6 | DE | (2+,3+,4+) | 3023.8 8 3598.66 12 4613.2 4 5130.40 15 6255.05 23 7237.68 8 7268.44 14 | 33 13 100 7 10.7 13 71 6 9.3 7 58 3 25.3 13 | 4244.49 3670.69 2656.30 2138.910 1013.637 30.6382 0.0 | 2+ 3+ 4+ 2+ 3+ 2+ 3+ | ||
7318 8 | C | |||||||
7341 10 | C E | |||||||
7408.77 11 | E | (1+ TO 4+) | 7377.0 3 7407.73 11 | 32 3 100 8 | 30.6382 0.0 | 2+ 3+ | ||
7444 10 | C E | |||||||
7457 10 | E | |||||||
7502 10 | C E | |||||||
7592 10 | C E | |||||||
7654 10 | E | |||||||
7669 10 | C E | |||||||
7700 10 | E |
E(level): From a least-squares fit to γ-ray energies for levels with measured γ rays - those were available in the literature. Calculated γ rays were obtained after the least-squares fit. Levels without depopulating γ rays are from reference dataset/s (weighted average).
T1/2(level): From 1994Ka26-(27Al,pγ), except otherwise noted
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Additional Data |
30.6382 | 2+ | 2.07 ns 5 | 30.6382 7 | M1 | B(M1)(W.u.)=0.370 9 | |
972.35 | 0+ | 33 ps 2 | 941.79 6 | E2 | B(E2)(W.u.)=4.6 3 | |
1013.637 | 3+ | 103 fs 14 | 983.018 16 | M1+E2 | +0.13 5 | B(E2)(W.u.)=12 10, B(M1)(W.u.)=0.14 3 |
3+ | 103 fs 14 | 1013.676 21 | [M1] | B(M1)(W.u.)=0.078 16 | ||
1372.917 | 1+ | 223 fs 35 | 400.58 3 | [M1] | B(M1)(W.u.)=0.54 12 | |
1+ | 223 fs 35 | 1342.30 11 | M1+E2 | -0.14 5 | B(E2)(W.u.)=1.2 9, B(M1)(W.u.)=0.022 5 | |
1+ | 223 fs 35 | 1372.8 2 | [E2] | B(E2)(W.u.)=9 5 | ||
1620.30 | 1+ | 92 fs 22 | 647.93 7 | [M1] | B(M1)(W.u.)=0.034 22 | |
1+ | 92 fs 22 | 1589.72 8 | M1+E2 | +0.18 9 | B(E2)(W.u.)=3 +4-3, B(M1)(W.u.)=0.051 16 | |
1622.907 | 2+ | 63 fs 10 | 1622.87 6 | [M1] | B(M1)(W.u.)=0.073 16 | |
2201.43 | 1+ | 32 fs 2 | 1229.8 4 | [M1] | B(M1)(W.u.)=0.054 10 | |
2271.745 | 4+ | 22 fs 3 | 2271.650 23 | [M1] | B(M1)(W.u.)=0.079 13 | |
2486.20 | 2+ | 66 fs 7 | 865.87 15 | [M1] | B(M1)(W.u.)=0.30 6 | |
2+ | 66 fs 7 | 2486.09 7 | [M1] | B(M1)(W.u.)=0.0042 7 | ||
2581.81 | 5+ | 313 fs 25 | 310.2 | [M1] | B(M1)(W.u.)=0.13 5 | |
5+ | 313 fs 25 | 2582.2 5 | [E2] | B(E2)(W.u.)=2.9 3 | ||
2656.30 | 4+ | 22 fs 3 | 1642.35 10 | [M1] | B(M1)(W.u.)=0.16 3 | |
3465.294 | 4- | 44 fs 2 | 1193.64 10 | [E1] | B(E1)(W.u.)=0.00073 13 | |
4- | 44 fs 2 | 2451.48 4 | [E1] | B(E1)(W.u.)=5.5E-5 5 | ||
4- | 44 fs 2 | 3465.067 10 | [E1] | B(E1)(W.u.)=0.000352 22 | ||
3591.457 | (3-) | 29 fs 4 | 1968.35 12 | [E1] | B(E1)(W.u.)=4.2E-5 8 | |
(3-) | 29 fs 4 | 2577.725 21 | [E1] | B(E1)(W.u.)=0.00041 6 | ||
(3-) | 29 fs 4 | 3560.547 19 | [E1] | B(E1)(W.u.)=6.6E-5 10 | ||
(3-) | 29 fs 4 | 3591.211 11 | [E1] | B(E1)(W.u.)=0.00032 5 | ||
3875.773 | 2- | 19 fs 2 | 2255.42 5 | [E1] | B(E1)(W.u.)=0.00054 8 | |
2- | 19 fs 2 | 2502.85 7 | [E1] | B(E1)(W.u.)=0.000113 15 | ||
2- | 19 fs 2 | 3875.480 11 | [E1] | B(E1)(W.u.)=0.00052 6 | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Additional Data |
4033 | 5- | 108 fs 43 | 1761 | [E1] | B(E1)(W.u.)=0.00061 25 | |
4691.097 | 3- | 4.9 fs 6 | 2419.36 8 | [E1] | B(E1)(W.u.)=0.00019 3 | |
3- | 4.9 fs 6 | 2552.07 12 | [E1] | B(E1)(W.u.)=0.000111 17 | ||
3- | 4.9 fs 6 | 4660.039 8 | [E1] | B(E1)(W.u.)=0.00050 7 | ||
3- | 4.9 fs 6 | 4690.677 7 | [E1] | B(E1)(W.u.)=0.00090 12 | ||
4764.922 | 2- | 3.5 fs 14 | 2625.903 16 | [E1] | B(E1)(W.u.)=0.0018 8 | |
2- | 3.5 fs 14 | 3392.00 10 | [E1] | B(E1)(W.u.)=0.00035 14 | ||
2- | 3.5 fs 14 | 4733.847 12 | [E1] | B(E1)(W.u.)=0.0012 5 | ||
4903.577 | 2- | 5.7 fs 8 | 4903.115 6 | [E1] | B(E1)(W.u.)=0.00102 16 | |
5134.849 | 3- | 5.6 fs 7 | 5134.342 9 | [E1] | B(E1)(W.u.)=0.00085 11 | |
5442.267 | 2- | 3.3 fs 10 | 3303.150 13 | [E1] | B(E1)(W.u.)=0.0021 7 | |
2- | 3.3 fs 10 | 5411.069 8 | [E1] | B(E1)(W.u.)=0.0008 3 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
2987.94 | (3,1)+ | 62 fs 55 | T1/2(level): From 1977El04. |
3670.69 | 3+ | 132 fs 42 | T1/2(level): From 1977El04. |
3709.222 | (2,3)+ | 187 fs 21 | T1/2(level): From 1977El04. |
3901.00 | (1,3)+ | 187 fs 28 | T1/2(level): From 1977El04. |
3935.603 | 2+ | 21 fs 7 | XREF: C(3948). |
4033 | 5- | 108 fs 43 | XREF: E(4044). |
4115 | 1+ | XREF: C(4127). | |
4244.49 | 2+ | 42 fs 21 | XREF: C(4254). T1/2(level): From 1977El04. |
4385 | Jπ(level): Natural. | ||
4516.94 | 3+ | Jπ(level): Two possibilities 1+,3+ from L=2 and unnatural parity (pol d,α). The analyzing power data, negative at forward angles, excludes 1+ ((pol d,α) - 1978Ik01). | |
4596.56 | 3+ | 159 fs 83 | XREF: C(4608). Jπ(level): Two possibilities 1+,3+ from L=2 and unnatural parity (pol d,α). The analyzing power data, negative at forward angles, excludes 1+ ((pol d,α) - 1978Ik01). T1/2(level): From 1977El04. |
4928 | Jπ(level): Unnatural. | ||
5190.4 | π=tentative. Jπ(level): Natural. | ||
5287 | Jπ(level): Natural. | ||
5442.267 | 2- | 3.3 fs 10 | XREF: C(5452). |
6238.2 | (0,1,2)- | XREF: C(6253). | |
7118 | (1,2,3)+ | XREF: C(7133). |
E(level) | E(gamma) | Comments |
30.6382 | 30.6382 | M(γ): α(K)exp=0.032 66 (1954Sh28) |
1372.917 | 359.28 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1372.8 | E(γ): From 28Mg β- decay |
1620.30 | 247.38 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 606.65 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 647.93 | I(γ): Other: 1.8 in 28Mg β- decay |
1622.907 | 249.99 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 609.26 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 650.54 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
2138.910 | 515.99 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 518.60 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 765.97 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1166.51 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
2201.43 | 62.52 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 578.51 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 581.12 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 828.49 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1187.74 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1229.8 | E(γ): From (3He,p),(3He,pγ) I(γ): From (d,p),(d,pγ) | 2170.70 | I(γ): From (d,p),(d,pγ) | 2201.25 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
2271.745 | 132.83 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 648.82 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1258.05 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 2240.92 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
E(level) | E(gamma) | Comments |
2486.20 | 214.45 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 347.29 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 863.26 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1113.24 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1472.48 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1513.76 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
2581.81 | 310.2 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1568.08 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 2582.2 | I(γ): From (d,p),(d,pγ) |
2656.30 | 384.55 | E(γ): Calculated by the evaluator from level energy differences. Recoil energy has been subtracted. I(γ): From (d,p),(d,pγ) | 517.38 | E(γ): Calculated by the evaluator from level energy differences. Recoil energy has been subtracted. I(γ): From (d,p),(d,pγ) | 1033.35 | E(γ): Calculated by the evaluator from level energy differences. Recoil energy has been subtracted. I(γ): From (d,p),(d,pγ) | 1642.35 | I(γ): From (d,p),(d,pγ) | 2625.40 | E(γ): Calculated by the evaluator from level energy differences. Recoil energy has been subtracted. I(γ): From (d,p),(d,pγ) | 2656.34 | I(γ): From (d,p),(d,pγ) |
3105 | 3074 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
3296.34 | 1157.38 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
3542.1 | 1919.1 | E(γ): Calculated by the evaluator from level energy differences. Recoil energy has been subtracted. |
3709.222 | 1437.40 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1570.22 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
4033 | 567 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). | 1761 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
4115 | 1976 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). | 2492 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). | 2742 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). | 4084 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). | 4114 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (μ-,νγ). |
E(level) | E(gamma) | Comments |
4516.94 | 2893.87 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. |
4848.73 | 4817.21 | E(γ): Calculated by the evaluator from level energy differences. Recoil energy has been subtracted. |
4997.01 | 3623.74 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. | 4965.8 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. | 4996.64 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. |
5165 | 1132 | E(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). I(γ): γ-ray energy calculated from level energy differences. Recoil energy has been subtracted. γ-ray branching from (d,p),(d,pγ). |
5176.96 | 4162.4 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
5190.4 | 3569.9 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. |
5344.75 | 4330.75 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. |
5741.115 | 4119.9 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
5761.12 | 5729.6 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. | 5760.57 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. |
5860.78 | 4237.43 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
5992.58 | 2450.4 | E(γ): From (3He,p),(3He,pγ) I(γ): From (3He,p),(3He,pγ) | 3790.1 | E(γ): From (3He,p),(3He,pγ) I(γ): From (3He,p),(3He,pγ) | 4371.9 | E(γ): From (3He,p),(3He,pγ) I(γ): From (3He,p),(3He,pγ) | 4619.3 | E(γ): From (3He,p),(3He,pγ) I(γ): From (3He,p),(3He,pγ) |
6893.695 | 4237.43 | E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity |
7408.77 | 7377.0 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. | 7407.73 | E(γ): The γ ray is introduced by the reviewer of the 27Al(n,γ) spectrum of 1982Sc14. Please see Table 28d in 1998En04. |
There are 62 neutron resonances for the 27Al+n reaction in the 5 keV to 828 keV energy range (2006MuZX).
Other Reactions:
28Si(n,p)28Al: 1993Po05, 1984Br03, 1982Br04, 1982Ul01
26Mg(α,d)28Al: 1966Ri04, 1976De24