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 7S(n)= 8437.1 keV 10S(p)= 6586.7 keV 4Q(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)

General Comments:

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










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
      0.0ABC  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)
XREFJπ(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)
XREFJπ(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)
XREFJπ(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)
XREFJπ(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

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Additional Gamma Data:













E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
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
  1021.7M1 B(M1)(W.u.)=4.2 18
   2154.27 1+ 1.48 ps 14 
% IT = 100
   414.1M1 B(M1)(W.u.)=0.107 11
1+ 1.48 ps 14 
% IT = 100
  1435.8M1+E2-3.75 55B(E2)(W.u.)=12.2 13, B(M1)(W.u.)=9.1E-5 27
1+ 1.48 ps 14 
% IT = 100
  2154.1E2 B(E2)(W.u.)=1.33 16
   3587.13 2+ 102 fs 7 
% IT = 100
  1432.7M1+E2-0.38 9B(E2)=11.9 54, B(M1)(W.u.)=8.5E-3 15
2+ 102 fs 7 
% IT = 100
  2868.3M1+E29.09 8B(E2)(W.u.)=13.9 14, BM1<5E-4
2+ 102 fs 7 
% IT = 100
  3586.4M1+E21.5 6B(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
  4054.8E2 B(E2)(W.u.)=15.4 13
3+ 7.8 eV 12 
% IT = 0.23
% α = 99.8
  4772.8M1+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
  3369.6M2 B(M2)(W.u.)<120
2- 0.978 keV 66 
% IT = 3.3E-3
% α ≈ 100
  4390.9E1 B(E1)(W.u.)=3.7E-4 11
2- 0.978 keV 66 
% IT = 3.3E-3
% α ≈ 100
  5108.9E1 B(E1)(W.u.)=5.0E-4 10
   5163.9 2+ 1.79 eV 40 
% α = 16
% IT ≈ 84
  1576.7M1 B(M1)(W.u.)=1.41 38
2+ 1.79 eV 40 
% α = 16
% IT ≈ 84
  3009.1M1 B(M1)(W.u.)=1.71 46
2+ 1.79 eV 40 
% α = 16
% IT ≈ 84
  3423.1E2 B(E2)(W.u.)<15
2+ 1.79 eV 40 
% α = 16
% IT ≈ 84
  4444.4M1 B(M1)(W.u.)=0.18 5
2+ 1.79 eV 40 
% α = 16
% IT ≈ 84
  5162.5M1+E20.12 5B(E2)(W.u.)<0.7, B(M1)(W.u.)=2.3E-2 6
   5182 1+ 110 keV 10 
% IT = 5.4E-5
% α ≈ 100
  3439.2M1 B(M1)(W.u.)=7.0×10-2 35
   5919.5 2+ 5.82 keV 6 
% IT = 2.4E-3
% α ≈ 100
  5199.7M1 B(M1)(W.u.)=8.6×10-3 24
2+ 5.82 keV 6 
% IT = 2.4E-3
% α ≈ 100
  5917.6M1 B(M1)(W.u.)=2.6×10-2 5
   6024.9 4+ 0.052 keV 19 
% IT = 0.21
% α = 99.79
  6023.1M1+E2-3.16 12B(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
   953.5E1 B(E1)(W.u.)=0.20 8
1- 120 keV 4 
% IT = 1.24E-3
% p > 0
% D > 0
% α > 0
  1708.9E1 B(E1)(W.u.)=2.9E-2 12
1- 120 keV 4 
% IT = 1.24E-3
% p > 0
% D > 0
% α > 0
  1762.5M1 B(M1)(W.u.)=0.054 19
1- 120 keV 4 
% IT = 1.24E-3
% p > 0
% D > 0
% α > 0
  4717.5E1 B(E1)(W.u.)=6.0E-3 15
1- 120 keV 4 
% IT = 1.24E-3
% p > 0
% D > 0
% α > 0
  5131.4E1 B(E1)(W.u.)=1.9E-2 5
1- 120 keV 4 
% IT = 1.24E-3
% p > 0
% D > 0
% α > 0
  6152.6E1 B(E1)(W.u.)=4.2E-3 11
1- 120 keV 4 
% IT = 1.24E-3
% p > 0
% D > 0
% α > 0
  6872M2 B(M2)(W.u.)>84
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Additional Data
   7428 1- 94 keV 9 
% IT = 5.1E-3
% p > 0
% D > 0
% α > 0
  2317M1 B(M1)(W.u.)=5.8 15
1- 94 keV 9 
% IT = 5.1E-3
% p > 0
% D > 0
% α > 0
  5272E1 B(E1)(W.u.)=2.2E-2 7
1- 94 keV 9 
% IT = 5.1E-3
% p > 0
% D > 0
% α > 0
  5686E1 B(E1)(W.u.)<4.0E-3
1- 94 keV 9 
% IT = 5.1E-3
% p > 0
% D > 0
% α > 0
  6707E1 B(E1)(W.u.)=2.3E-2 5
   7559.9 0+ 2.65 keV 18 
% IT = 0.23
% p > 0
  2380M1 B(M1)(W.u.)=3.1 6
0+ 2.65 keV 18 
% IT = 0.23
% p > 0
  5404.0M1 B(M1)(W.u.)=0.10 3
0+ 2.65 keV 18 
% IT = 0.23
% p > 0
  6839.1M1 B(M1)(W.u.)=0.72 9
   7750 2- 210 keV 60 
% IT ≈ 2.6E-3
% p ≈ 65
  2639M1 B(M1)(W.u.)=0.70 35
2- 210 keV 60 
% IT ≈ 2.6E-3
% p ≈ 65
  4162E1 B(E1)(W.u.)=8.3E-3 48
2- 210 keV 60 
% IT ≈ 2.6E-3
% p ≈ 65
  5594E1 B(E1)(W.u.)=3.8 20
2- 210 keV 60 
% IT ≈ 2.6E-3
% p ≈ 65
  7028E1 B(E1)(W.u.)=5.8E-3 26
2- 210 keV 60 
% IT ≈ 2.6E-3
% p ≈ 65
  7746E1 B(E1)(W.u.)=2.9E-2 8
   8895 2+ 39 keV 1 
% IT = 1.3E-3
% p = 35
% α > 0
  8890E2 B(E2)(W.u.)=8.5 34

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
    718.3801+ 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).
   1740.050+ 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).
   2154.271+ 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.
   3587.132+ 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).
   70043+ 98 keV 6 
% p > 0
% D > 0
% α > 0
Jπ: from 11B(3He,2α).
   74281- 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).
   74702+ 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).
   74792- 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).
   77502- 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.

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Additional Gamma Comments:

E(level)E(gamma)Comments
    718.380    718.353I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   1740.05   1021.7I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   1740.0I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   2154.27    414.1I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   1435.8I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   2154.1I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   3587.13   1432.7I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   1846.7I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   2868.3I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   3586.4I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   4774.0   4054.8I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   4772.8I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5110.3   3369.6I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   4390.9I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5108.9I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5163.9   1576.7I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   3009.1I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   3423.1I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   4444.4I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5162.5I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5182   3439.2I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5919.5   5199.7I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5917.6I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   6024.9   6023.1I(γ): other γ-ray branches <3%. % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   6875    953.5I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   1708.9I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   1762.5I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   4717.5I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5131.4I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   6152.6I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   6872I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
E(level)E(gamma)Comments
   7428   2317I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5272I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5686I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   6707I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   7559.9   2380I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5404.0I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   6839.1I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   7750   2639I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   4162I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   5594I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   7028I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)
   7746I(γ): % branching ratios from Table 10.19 and 10.20 of (2004Ti06)

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