ADOPTED LEVELS, GAMMAS for 10B
Authors: J.H. Kelley, C.G.Sheu and J.L. Godwin, Et Al. | Citation: Nucl. Physics A745 155 (2004) | Cutoff date: 31-Mar-2004
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=-3648.06 keV 7 | S(n)= 8437.1 keV 10 | S(p)= 6586.7 keV 4 | Q(α)= -4461.1 keV 4 | ||
Reference: 2012WA38 |
References: | |||
A | 10Be β- decay | B | 10C β+ decay |
C | 6Li(α,γ) | D | 6Li(α,α),(α,α’) |
E | 6Li(α,2α) | F | 6Li(6Li,d) |
G | 7Li(3He,γ) | H | 7Li(3He,n) |
I | 7Li(α,n),(α,nγ) | J | 7Li(12C,X) |
K | 9Be(p,γ) RES | L | 9Be(p,n) RES |
M | 9Be(p,p),(p,PN),(p,pα) | N | 9Be(p,d),(p,α) |
O | 9Be(d,nγ),(d,n) | P | 9Be(3He,d) |
Q | 9Be(α,t) | R | 9Be(7Li,6He) |
S | 9Be(12C,11B) | T | 10B(γ,n) |
U | 10B(E,E) | V | 10B(p,p) |
W | 10B(d,d) | X | 10B(3He,3He) |
Y | 11B(γ,n) | Z | 11B(p,d) |
a | 11B(3He,α) | b | 11B(7Li,8Li) |
c | 12C(π+,PI+D),(π-,PI-D) | d | 12C(p,3He) |
e | 12C(d,α) | f | 12C(α,6Li) |
g | 12C(14N,16O) | h | 13C(p,α) |
i | 14N(d,6Li) | j | αγ(14N,A6LI),(14N,P9BE) |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
0.0 | ABC FG I K OPQRS VWX Zabcdefghi | 3+ | STABLE | |||||
718.380 11 | BC FG I K OPQRS UVWX Zabcdefghi | 1+ | 0.7070 ns 34 % IT = 100 | 718.353 19 | 100 | E2 | 0.0 | 3+ |
1740.05 4 | BC I K OPQRS UV X Zabcd h | 0+ | 4.9 fs 21 % IT = 100 | 1021.7 1740.0 | 100 <0.2 | M1 | 718.380 0.0 | 1+ 3+ |
2154.27 45 | C F I K OPQRS UVWX Zabcdefghi | 1+ | 1.48 ps 14 % IT = 100 | 414.1 1435.8 2154.1 | 51.6 16 27.3 9 21.1 16 | M1 M1+E2 E2 | 1740.05 718.380 0.0 | 0+ 1+ 3+ |
3587.13 48 | C FG K OPQ UVWXYZa defghi | 2+ | 102 fs 7 % IT = 100 | 1432.7 1846.7 2868.3 3586.4 | 14 2 <0.3 67 3 19 3 | M1+E2 M1+E2 M1+E2 | 2154.27 1740.05 718.380 0.0 | 1+ 0+ 1+ 3+ |
4774.0 5 | C FG IJ OPQ VW Za def hij | 3+ | 7.8 eV 12 % IT = 0.23 % α = 99.8 | 4054.8 4772.8 | 99.5 1 0.5 1 | E2 M1+E2 | 718.380 0.0 | 1+ 3+ |
5110.3 6 | C JK OPQ V X a e | 2- | 0.978 keV 66 % IT = 3.3×10-3 % α ≈ 100 | 3369.6 4390.9 5108.9 | 5 5 31 7 64 7 | M2 E1 E1 | 1740.05 718.380 0.0 | 0+ 1+ 3+ |
5163.9 6 | C K OPQ UV YZa d h | 2+ | 1.79 eV 40 % α = 16 % IT ≈ 84 | 1576.7 3009.1 3423.1 4444.4 5162.5 | 7.8 3 65.3 9 <0.5 22.6 6 4.4 4 | M1 M1 E2 M1 M1+E2 | 3587.13 2154.27 1740.05 718.380 0.0 | 2+ 1+ 0+ 1+ 3+ |
5182 8 | CD JK OPQ VW Z | 1+ | 110 keV 10 % IT = 5.4×10-5 % α ≈ 100 | 3439.2 | ≈100 | M1 | 1740.05 | 0+ |
5919.5 6 | CD JK OPQ UVWX a def h | 2+ | 5.82 keV 6 % IT = 2.4×10-3 % α ≈ 100 | 5199.7 5917.6 | 18 5 82 5 | M1 M1 | 718.380 0.0 | 1+ 3+ |
6024.9 5 | CD J OPQ UVWX Za ef hi | 4+ | 0.052 keV 19 % IT = 0.21 % α = 99.79 | 6023.1 | ≈100 | M1+E2 | 0.0 | 3+ |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
6129.1 25 | D J OPQ UVWX a e | 3- | 1.52 keV 8 % D ≈ 3.1 % α > 95.5 % IT < 1.4 | |||||
6560.1 10 | D J OPQ UVWX Za de j | (4)- | 25.2 keV 11 % α ≈ 100 % IT ≥ 0 | |||||
6875 5 | C JK MNO | 1- | 120 keV 4 % IT = 1.24×10-3 % p > 0 % D > 0 % α > 0 | 953.5 1708.9 1762.5 4717.5 5131.4 6152.6 6872 | 3.5 10 3 1 4 1 13 1 53 2 20 2 <4.6 | E1 E1 M1 E1 E1 E1 M2 | 5919.5 5163.9 5110.3 2154.27 1740.05 718.380 0.0 | 2+ 2+ 2- 1+ 0+ 1+ 3+ |
7004 5 | D J NO Q VWX a e i | 3+ | 98 keV 6 % p > 0 % D > 0 % α > 0 | |||||
7428 5 | C K MN Q | 1- | 94 keV 9 % IT = 5.1×10-3 % p > 0 % D > 0 % α > 0 | 2317 5272 5686 6707 | 32 22 <5 46 | M1 E1 E1 E1 | 5110.3 2154.27 1740.05 718.380 | 2- 1+ 0+ 1+ |
7470 4 | K M O Q UV X a h | 2+ | 65 keV 10 % IT = 1.8×10-2 % p ≈ 100 | |||||
7479 2 | K M Q V X a h | 2- | 74 keV 4 % IT = 7.2×10-3 % p > 0 | |||||
7559.9 4 | JK M O Q a | 0+ | 2.65 keV 18 % IT = 0.23 % p > 0 | 2380 5404.0 6839.1 | 14 2 9 2 77 5 | M1 M1 M1 | 5182 2154.27 718.380 | 1+ 1+ 1+ |
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
7666 27 ? | J MN | (1+) | 247 keV 19 % p = 30 % D > 0 % α > 0 | |||||
7750 30 | K M O Q a | 2- | 210 keV 60 % IT ≈ 2.6×10-3 % p ≈ 65 | 2639 4162 5594 7028 7746 | 4.8 3.4 3.7 11 77 | M1 E1 E1 E1 E1 | 5110.3 3587.13 2154.27 718.380 0.0 | 2- 2+ 1+ 1+ 3+ |
7811 17 | J | 1- | 260 keV 30 % p ≈ 90 % α > 0 | |||||
7960 70 | J | 285 keV 91 % α > 0 | ||||||
8070 50 | MNO U | 2+ | 0.8 MeV 2 % p ≈ 7 % IT > 0 % D > 0 | |||||
8680? | E N i | (1+,2+) | ≈ 220 keV % p > 0 % D > 0 | |||||
8887 3 | J LMN Q d | 3- | 96 keV 4 % p = 85 % n > 0 % α > 0 | |||||
8895 1 | JK MN Q U d | 2+ | 39 keV 1 % IT = 1.3×10-3 % p = 35 % α > 0 | 8890 | | E2 | 0.0 | 3+ |
9580 60 ? | J | 257 keV 64 % α > 0 | ||||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
9700? | E L N | ≈ 630 keV % n > 0 % p > 0 % α > 0 | ||||||
10825 9 | KLMN U a | (2+,3+,4+) | 0.35 MeV 7 % IT > 0 % n > 0 % p > 0 | |||||
11511 30 | N U Za | 316 keV 44 % IT > 0 % α > 0 | ||||||
12564 26 | K M U a | (0+,1+,2+) | 106 keV 26 % IT > 0 % p > 0 | |||||
13494 50 | K U a | (0+,1+,2+) | 300 keV 50 % IT > 0 % p > 0 | |||||
14.34E+3 1 | D K Za | 0.8 MeV 2 % IT > 0 % p > 0 % α > 0 | ||||||
18.2E+3 2 ? | a | 1.5 MeV 3 | ||||||
18430 | G | 2- | 340 keV % IT > 0 % 3HE > 0 | |||||
18800 | G | 2+,1+ | < 600 keV % IT > 0 % 3HE > 0 % α < 13.4 | |||||
19290 | GH | 2- | 190 keV 14 % IT > 0 % n > 0 % p > 0 % 3HE > 0 % α < 10.5 | |||||
E(level) (keV) | XREF | Jπ(level) | T1/2(level) | E(γ) (keV) | I(γ) | M(γ) | Final Levels | |
20.1E+3 1 | GH T | 1- | 350 keV 20 % IT > 0 % n > 0 % p > 0 % 3H > 0 % 3HE > 0 % α > 0 | |||||
21100? | G | % IT > 0 % 3HE > 0 | ||||||
23.1E+3 1 | T | % IT > 0 % n > 0 |
E(γ): From level energy difference; recoil correction applied
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Additional Data |
718.380 | 1+ | 0.7070 ns 34 % IT = 100 | 718.353 19 | E2 | B(E2)(W.u.)=3.240 16 | |
1740.05 | 0+ | 4.9 fs 21 % IT = 100 | 1021.7 | M1 | B(M1)(W.u.)=4.2 18 | |
2154.27 | 1+ | 1.48 ps 14 % IT = 100 | 414.1 | M1 | B(M1)(W.u.)=0.107 11 | |
1+ | 1.48 ps 14 % IT = 100 | 1435.8 | M1+E2 | -3.75 55 | B(E2)(W.u.)=12.2 13, B(M1)(W.u.)=9.1E-5 27 | |
1+ | 1.48 ps 14 % IT = 100 | 2154.1 | E2 | B(E2)(W.u.)=1.33 16 | ||
3587.13 | 2+ | 102 fs 7 % IT = 100 | 1432.7 | M1+E2 | -0.38 9 | B(E2)=11.9 54, B(M1)(W.u.)=8.5E-3 15 |
2+ | 102 fs 7 % IT = 100 | 2868.3 | M1+E2 | 9.09 8 | B(E2)(W.u.)=13.9 14, BM1<5E-4 | |
2+ | 102 fs 7 % IT = 100 | 3586.4 | M1+E2 | 1.5 6 | B(E2)(W.u.)=0.90 28, B(M1)(W.u.)=2.6E-4 15 | |
4774.0 | 3+ | 7.8 eV 12 % IT = 0.23 % α = 99.8 | 4054.8 | E2 | B(E2)(W.u.)=15.4 13 | |
3+ | 7.8 eV 12 % IT = 0.23 % α = 99.8 | 4772.8 | M1+E2 | B(E2)(W.u.)<4.2E-2, B(M1)(W.u.)<4.8E-5 | ||
5110.3 | 2- | 0.978 keV 66 % IT = 3.3E-3 % α ≈ 100 | 3369.6 | M2 | B(M2)(W.u.)<120 | |
2- | 0.978 keV 66 % IT = 3.3E-3 % α ≈ 100 | 4390.9 | E1 | B(E1)(W.u.)=3.7E-4 11 | ||
2- | 0.978 keV 66 % IT = 3.3E-3 % α ≈ 100 | 5108.9 | E1 | B(E1)(W.u.)=5.0E-4 10 | ||
5163.9 | 2+ | 1.79 eV 40 % α = 16 % IT ≈ 84 | 1576.7 | M1 | B(M1)(W.u.)=1.41 38 | |
2+ | 1.79 eV 40 % α = 16 % IT ≈ 84 | 3009.1 | M1 | B(M1)(W.u.)=1.71 46 | ||
2+ | 1.79 eV 40 % α = 16 % IT ≈ 84 | 3423.1 | E2 | B(E2)(W.u.)<15 | ||
2+ | 1.79 eV 40 % α = 16 % IT ≈ 84 | 4444.4 | M1 | B(M1)(W.u.)=0.18 5 | ||
2+ | 1.79 eV 40 % α = 16 % IT ≈ 84 | 5162.5 | M1+E2 | 0.12 5 | B(E2)(W.u.)<0.7, B(M1)(W.u.)=2.3E-2 6 | |
5182 | 1+ | 110 keV 10 % IT = 5.4E-5 % α ≈ 100 | 3439.2 | M1 | B(M1)(W.u.)=7.0×10-2 35 | |
5919.5 | 2+ | 5.82 keV 6 % IT = 2.4E-3 % α ≈ 100 | 5199.7 | M1 | B(M1)(W.u.)=8.6×10-3 24 | |
2+ | 5.82 keV 6 % IT = 2.4E-3 % α ≈ 100 | 5917.6 | M1 | B(M1)(W.u.)=2.6×10-2 5 | ||
6024.9 | 4+ | 0.052 keV 19 % IT = 0.21 % α = 99.79 | 6023.1 | M1+E2 | -3.16 12 | B(E2)(W.u.)=12.4 18, B(M1)(W.u.)=2.3E-2 4 |
6875 | 1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 953.5 | E1 | B(E1)(W.u.)=0.20 8 | |
1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 1708.9 | E1 | B(E1)(W.u.)=2.9E-2 12 | ||
1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 1762.5 | M1 | B(M1)(W.u.)=0.054 19 | ||
1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 4717.5 | E1 | B(E1)(W.u.)=6.0E-3 15 | ||
1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 5131.4 | E1 | B(E1)(W.u.)=1.9E-2 5 | ||
1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 6152.6 | E1 | B(E1)(W.u.)=4.2E-3 11 | ||
1- | 120 keV 4 % IT = 1.24E-3 % p > 0 % D > 0 % α > 0 | 6872 | M2 | B(M2)(W.u.)>84 | ||
E(level) (keV) | Jπ(level) | T1/2(level) | E(γ) (keV) | Multipolarity | Mixing Ratio | Additional Data |
7428 | 1- | 94 keV 9 % IT = 5.1E-3 % p > 0 % D > 0 % α > 0 | 2317 | M1 | B(M1)(W.u.)=5.8 15 | |
1- | 94 keV 9 % IT = 5.1E-3 % p > 0 % D > 0 % α > 0 | 5272 | E1 | B(E1)(W.u.)=2.2E-2 7 | ||
1- | 94 keV 9 % IT = 5.1E-3 % p > 0 % D > 0 % α > 0 | 5686 | E1 | B(E1)(W.u.)<4.0E-3 | ||
1- | 94 keV 9 % IT = 5.1E-3 % p > 0 % D > 0 % α > 0 | 6707 | E1 | B(E1)(W.u.)=2.3E-2 5 | ||
7559.9 | 0+ | 2.65 keV 18 % IT = 0.23 % p > 0 | 2380 | M1 | B(M1)(W.u.)=3.1 6 | |
0+ | 2.65 keV 18 % IT = 0.23 % p > 0 | 5404.0 | M1 | B(M1)(W.u.)=0.10 3 | ||
0+ | 2.65 keV 18 % IT = 0.23 % p > 0 | 6839.1 | M1 | B(M1)(W.u.)=0.72 9 | ||
7750 | 2- | 210 keV 60 % IT ≈ 2.6E-3 % p ≈ 65 | 2639 | M1 | B(M1)(W.u.)=0.70 35 | |
2- | 210 keV 60 % IT ≈ 2.6E-3 % p ≈ 65 | 4162 | E1 | B(E1)(W.u.)=8.3E-3 48 | ||
2- | 210 keV 60 % IT ≈ 2.6E-3 % p ≈ 65 | 5594 | E1 | B(E1)(W.u.)=3.8 20 | ||
2- | 210 keV 60 % IT ≈ 2.6E-3 % p ≈ 65 | 7028 | E1 | B(E1)(W.u.)=5.8E-3 26 | ||
2- | 210 keV 60 % IT ≈ 2.6E-3 % p ≈ 65 | 7746 | E1 | B(E1)(W.u.)=2.9E-2 8 | ||
8895 | 2+ | 39 keV 1 % IT = 1.3E-3 % p = 35 % α > 0 | 8890 | E2 | B(E2)(W.u.)=8.5 34 |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
718.380 | 1+ | 0.7070 ns 34 % IT = 100 | μ=+0.63 12, T=0 Γγ=6.453×10-7 eV 32 from 10B(p,p). E(level): Γγ=6.453×10-7 eV 32 from 10B(p,p). |
1740.05 | 0+ | 4.9 fs 21 % IT = 100 | T=1 Γγ=0.094 eV 40 from 6Li(α,γ). E(level): Γγ=0.094 eV 40 from 6Li(α,γ). |
2154.27 | 1+ | 1.48 ps 14 % IT = 100 | T=0 Γγ=3.1×10-4 eV 2 from weighted average of values from 6Li(α,γ), 7Li(α,n), 9Be(d,n) and 11B(3He,α). The value 2.7 ps 7 from 10B(p,p) was excluded. E(level): Γγ=3.1×10-4 eV 2 from weighted average of values from 6Li(α,γ), 7Li(α,n), 9Be(d,n) and 11B(3He,α). The value 2.7 ps 7 from 10B(p,p) was excluded. |
3587.13 | 2+ | 102 fs 7 % IT = 100 | T=0 Γg=4.28×10-3 eV 37 from weighted average of values from 6Li(α,γ),6Li(6Li,d), 9Be(p,d), 9Be(d,n), 10B(p,p) and 11B(3He,α). E(level): Γg=4.28×10-3 eV 37 from weighted average of values from 6Li(α,γ),6Li(6Li,d), 9Be(p,d), 9Be(d,n), 10B(p,p) and 11B(3He,α). |
7004 | 3+ | 98 keV 6 % p > 0 % D > 0 % α > 0 | Jπ: from 11B(3He,2α). |
7428 | 1- | 94 keV 9 % IT = 5.1×10-3 % p > 0 % D > 0 % α > 0 | T=0&1, Γγ=4.76 70 Jπ: in (2004Ti06) spin assignments for Ex=7430, 7470 and 7480 are Jπ=1-,2+,2-, respectively. In (1988Aj01) the corresponding values are Jπ=2(-), 1+, and 2+, however, discussion in (1956Mo90, 1956We37, 1959Ma20, 1962El06, 1964Ho02, 1969Mo29, 1973Ro24, 2004Ti06) favors the assignments of (2004Ti06). E(level): Jπ: in (2004Ti06) spin assignments for Ex=7430, 7470 and 7480 are Jπ=1-,2+,2-, respectively. In (1988Aj01) the corresponding values are Jπ=2(-), 1+, and 2+, however, discussion in (1956Mo90, 1956We37, 1959Ma20, 1962El06, 1964Ho02, 1969Mo29, 1973Ro24, 2004Ti06) favors the assignments of (2004Ti06). |
7470 | 2+ | 65 keV 10 % IT = 1.8×10-2 % p ≈ 100 | Γγ=11.7 7 Jπ: in (2004Ti06) spin assignments for Ex=7430, 7470 and 7480 are Jπ=1-,2+,2-, respectively. In (1988Aj01) the corresponding values are Jπ=2(-), 1+, and 2+, however, discussion in (1956Mo90, 1956We37, 1959Ma20, 1962El06, 1964Ho02, 1969Mo29, 1973Ro24, 2004Ti06) favors the assignments of (2004Ti06). E(level): Jπ: in (2004Ti06) spin assignments for Ex=7430, 7470 and 7480 are Jπ=1-,2+,2-, respectively. In (1988Aj01) the corresponding values are Jπ=2(-), 1+, and 2+, however, discussion in (1956Mo90, 1956We37, 1959Ma20, 1962El06, 1964Ho02, 1969Mo29, 1973Ro24, 2004Ti06) favors the assignments of (2004Ti06). |
7479 | 2- | 74 keV 4 % IT = 7.2×10-3 % p > 0 | T=1, Γγ=5.3 25 Jπ: in (2004Ti06) spin assignments for Ex=7430, 7470 and 7480 are Jπ=1-,2+,2-, respectively. In (1988Aj01) the corresponding values are Jπ=2(-), 1+, and 2+, however, discussion in (1956Mo90, 1956We37, 1959Ma20, 1962El06, 1964Ho02, 1969Mo29, 1973Ro24, 2004Ti06) favors the assignments of (2004Ti06). E(level): Jπ: in (2004Ti06) spin assignments for Ex=7430, 7470 and 7480 are Jπ=1-,2+,2-, respectively. In (1988Aj01) the corresponding values are Jπ=2(-), 1+, and 2+, however, discussion in (1956Mo90, 1956We37, 1959Ma20, 1962El06, 1964Ho02, 1969Mo29, 1973Ro24, 2004Ti06) favors the assignments of (2004Ti06). |
7666 | (1+) | 247 keV 19 % p = 30 % D > 0 % α > 0 | t=(0). |
7750 | 2- | 210 keV 60 % IT ≈ 2.6×10-3 % p ≈ 65 | Γγ=5.6 11 t=(0). |
9580 | 257 keV 64 % α > 0 | t=0. | |
9700 | ≈ 630 keV % n > 0 % p > 0 % α > 0 | t=(1). | |
18.2E+3 | 1.5 MeV 3 | E(level): Decay mode not specified. |
E(level) | E(gamma) | Comments |
718.380 | 718.353 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
1740.05 | 1021.7 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 1740.0 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
2154.27 | 414.1 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 1435.8 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 2154.1 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
3587.13 | 1432.7 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 1846.7 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 2868.3 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 3586.4 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
4774.0 | 4054.8 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 4772.8 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
5110.3 | 3369.6 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 4390.9 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5108.9 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
5163.9 | 1576.7 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 3009.1 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 3423.1 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 4444.4 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5162.5 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
5182 | 3439.2 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
5919.5 | 5199.7 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5917.6 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
6024.9 | 6023.1 | I(γ): other γ-ray branches <3%. % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
6875 | 953.5 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 1708.9 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 1762.5 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 4717.5 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5131.4 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 6152.6 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 6872 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
E(level) | E(gamma) | Comments |
7428 | 2317 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5272 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5686 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 6707 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
7559.9 | 2380 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5404.0 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 6839.1 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
7750 | 2639 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 4162 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 5594 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 7028 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) | 7746 | I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06) |
See also Tables 10.6, 10.7 and 10.11 in 1988Aj01
Q-value: Note: Current evaluation has used the following Q record -3648.0 6 8436.3 106585.9 6 -4461.0 4 2003Au03