ADOPTED LEVELS, GAMMAS for 206Tl

Author: F.G. Kondev |  Citation: Nucl. Data Sheets 109, 1527 (2008) |  Cutoff date: 31-Jan-2008 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=1532.2 keV 7S(n)= 6503.8 keV 4S(p)= 7254 keV 4Q(α)= -325 keV 24
Reference: 2012WA38

References:
  A  206Hg β- decay  B  210Bi α decay (5.012 d)
  C  210Bi α decay (3.04×106 Y)  D  206Tl IT decay (3.74 M)
  E  205Tl(n,γ) E=TH  F  207Pb(μ-,nγ),205Tl(17O,16OG),
  G  207Pb(t,α)  H  208Pb(d,α)
  I  205Tl(d,p) 

General Comments:

Levels: Theoretical discussions and model calculations can be found in the following papers: β-decay especially of 0+ to 0- decays in 1980Kr09, 1985To20, and 1987Ki11; general theory in 1973Ma42, 1974Ku19, and 1988Og01; wave function calculations and assignments for 206Tl levels in 1965Er02, 1971KuZM, 1973Ma42, 1976Be44, and 1985To20; and IAR in 1969Wh02.

Q-value: Note: Current evaluation has used the following Q record










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     0.0ABCDEFGHI 0- 4.202 m 11 
% β- = 100
     
   265.832 5  BCDEFGHI 2- 2.29 ns 14     265.832 5 
  100
E2
     0.0
0-
   304.896 6 ABC EFGHI 1- 4.2 ps 14     304.896 6 
  100
M1
     0.0
0-
   635.02 5   C EF HI 2- 4.0 ps 9     330.13 6 
   369.18 7 
   634.3 7 
  100 22 
   61 13 
    1.4
M1
M1
[E2]
   304.896
   265.832
     0.0
1-
2-
0-
   649.42 5 A C EFGHI 1-      344.52 17 
   384.0 10 
   649.42 5 
   25 5 
    0.16
  100 14 
M1
[M1]
M1
   304.896
   265.832
     0.0
1-
2-
0-
   801.36 4   CDEFGHI (3)- 2.4 ps 7     535.53 4 
  100
[M1]
   265.832
2-
   939.91 5 ?    E          304.896 6 
  100

   635.02
2-
   952.17 6   CD F H  4- 42 ps 10     149
   686.31 6 
 
  100

[E2]
   801.36
   265.832
(3)-
2-
   998.17 7   C EFGHI 2-,3-      732.34 7 
  100

   265.832
2-
  1079.6 7     E     (1-,2)      278.2 7 
  100

   801.36
(3)-
  1117.5 6   C EFGHI 1-,2-      851.4 6 
  1120.0 20 
  100
 


   265.832
     0.0
2-
0-
  1206 4 ?    E            
  1257 10 ?      G          
  1333 4     E GHI 1-,2-        
  1360.3 3     EF H  (0,1,2)-      711.0 4 
  1055.2 4 
   64 40 
  100


   649.42
   304.896
1-
1-
  1400 3     E            
  1405.47 7    D FGH  (5)+ 78 ns 1     453.28 5 
   604.3 2 
  1139.9 3 
  100 6 
    1.1 7 
    6.5 18 
[E1]
[M2]
[E3]
   952.17
   801.36
   265.832
4-
(3)-
2-
  1453 4 ?    E            
  1473 4        H         
  1489.8 4     E GH  (1,2,3)-      840.4 4 
  100

   649.42
1-
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1621.70 11    D F H  (7)+ 10.1 ns 6     216.26 8 
  100
[E2]
  1405.47
(5)+
  1631 4     E  H  (2-)        
  1649 5       GH  (1,2)-        
  1710.53 18    D  GH  (5,6)+       88.5 5 ?
   304.9 2 
   ≈8
  100


  1621.70
  1405.47
(7)+
(5)+
  1800 5        H  (3+)        
  1844 4     E GH  1-,2-        
  1983 6       GH  (5)+        
  1988 6     E            
  2058 6       GH  2-,3-        
  2078.90 18    D F H  (8+)      368.2 2 
   457.2 5 
    5 3 
  100 12 


  1710.53
  1621.70
(5,6)+
(7)+
  2126 6       GH  5+,6+        
  2170 7        H         
  2217 7        H  2-,3-,4-        
  2243 7        H  (5+,6+,7+)        
  2264 10       GH  5+,6+        
  2326.16 19    D   H  (8+,9+)      247.2 1 
   616.3 2 ?
   704.6 3 
  100 20 
   ≈5
   17 11 



  2078.90
  1710.53
  1621.70
(8+)
(5,6)+
(7)+
  2347 7        H         
  2411 7        H  (5+,6+)        
  2442 7        H         
  2462 7       GH  2-,3-        
  2495 7       GH  1-,2-        
  2530 8        H         
  2581 7         I (4+,5+)        
  2594 7         I (4+,5+)        
  2617 8       GH  (4+,5+)        
  2643.10 18    D F H  (12-) 3.74 m 3 
% IT = 100
   316.8 2 
   564.2 1 
  1021.5 2 
    1.1 4 
    8.0 14 
  100 9 
[M4]
M4
[E5]
  2326.16
  2078.90
  1621.70
(8+,9+)
(8+)
(7)+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2646 8       GH  (4+,5+)        
  2708 8       GH  (1,2,3)-        
  2728 8        H         
  2807 8       GH  (1,2,3)-        
  2828 7         I        
  2868 7        HI 3+,4+,5+        
  2896 7        HI        
  2936 9        H  (5+,6+,7+)        
  2977 9        H         
  3014 7        HI        
  3024 9       GH         
  3046 9        H  (0-,1-,2-)        
  3106 9        H         
  3123 9        H         
  3181 10        H         
  3225 10        H         
  3278 10        H  (3+,4+,5+)        
  3330 10        H         
  3363 7         I        
  3424 7         I        
  3452 7         I        
  3538 7         I        
  3564 7         I        
  3638 7         I        
  3717 7         I        
  3784 7         I        
  3874 7       G I (3-,4-,5-)        
  3900 7         I        
  3938 7         I        
  3976 7         I        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  4126 7         I        
  4200 7         I        
  4238 7         I (3+)        
  4273 7         I (2+)        
  4426 7         I (1+)        
  4491 7         I (0+)        
  4555 7         I        
  4622 7         I        
  4680 7         I        
  4739 7         I        
  4775 7         I        
  4879 7         I        
  4904 7         I        
  4941 7         I        
  5015 7         I        
  5055 7         I        
  5091 7         I        
  5140 7         I        

E(level): From a least-square fit to Eγ, unless otherwise specified

Jπ(level): From deduced γ-ray transition multipolarities using α(K)exp, α(L)exp and subshell ratios in 210Bi α decay (3.04×106 y) and L values in 208Pb(d,α), 205Tl(d,p) and 207Pb(t,α) reactions.

M(γ): From α(K)exp, α(L)exp and subshell ratios in 210Bi α decay (3.04×106 y) (1976TuZY, see also 1961Ru02), unless otherwise specified

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Additional Gamma Data:













E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityConversion
Coefficient
Additional Data
   265.832 2- 2.29 ns 14     265.832 5 E20.1602B(E2)(W.u.)=2.22 14, α=0.1602, α(K)=0.0855 12, α(L)=0.0561 8, α(M)=0.01440 21, α(N)=0.00361 5, α(O)=0.000639 9, α(P)=3.09E-5 5, α(N+)=0.00428 6
   304.896 1- 4.2 ps 14     304.896 6 M10.375B(M1)(W.u.)=0.13 5, α=0.375, α(K)=0.307 5, α(L)=0.0519 8, α(M)=0.01210 17, α(N)=0.00306 5, α(O)=0.000594 9, α(P)=5.62×10-5 8, α(N+)=0.00371 6
   635.02 2- 4.0 ps 9     330.13 6 M10.302B(M1)(W.u.)=0.07 3, α=0.302, α(K)=0.248 4, α(L)=0.0417 6, α(M)=0.00973 14, α(N)=0.00246 4, α(O)=0.000477 7, α(P)=4.52×10-5 7, α(N+)=0.00298 5
2- 4.0 ps 9     369.18 7 M10.223B(M1)(W.u.)=0.032 12, α=0.223, α(K)=0.183 3, α(L)=0.0308 5, α(M)=0.00717 10, α(N)=0.00181 3, α(O)=0.000352 5, α(P)=3.33×10-5 5, α(N+)=0.00220 3
2- 4.0 ps 9     634.3 7 [E2]0.01624B(E2)(W.u.)=0.13 4, α=0.01624, α(K)=0.01226 18, α(L)=0.00302 5, α(M)=0.000735 11, α(N)=0.000185 3, α(O)=3.44E-5 5, α(P)=2.57E-6 4, α(N+)=0.000222 4
   649.42 1-      344.52 17 M10.269α=0.269, α(K)=0.221 4, α(L)=0.0371 6, α(M)=0.00866 13, α(N)=0.00219 3, α(O)=0.000425 6, α(P)=4.02×10-5 6, α(N+)=0.00265 4
1-      384.0 10 [M1]0.201α=0.201 4, α(K)=0.165 3, α(L)=0.0277 5, α(M)=0.00645 11, α(N)=0.00163 3, α(O)=0.000316 5, α(P)=2.99×10-5 5, α(N+)=0.00197 3
1-      649.42 5 M10.0501α=0.0501, α(K)=0.0412 6, α(L)=0.00681 10, α(M)=0.001584 23, α(N)=0.000400 6, α(O)=7.77×10-5 11, α(P)=7.38E-6 11, α(N+)=0.000485 7
   801.36 (3)- 2.4 ps 7     535.53 4 [M1]0.0830B(M1)(W.u.)=0.055 16, α=0.0830, α(K)=0.0682 10, α(L)=0.01133 16, α(M)=0.00264 4, α(N)=0.000666 10, α(O)=0.0001295 19, α(P)=1.228×10-5 18, α(N+)=0.000808 12
   952.17 4- 42 ps 10     686.31 6 [E2]0.01368B(E2)(W.u.)=1.2 3, α=0.01368, α(K)=0.01047 15, α(L)=0.00244 4, α(M)=0.000591 9, α(N)=0.0001486 21, α(O)=2.78E-5 4, α(P)=2.13E-6 3, α(N+)=0.0001785 25
  1405.47 (5)+ 78 ns 1     453.28 5 [E1]0.01136B(E1)(W.u.)=2.45E-8 21, α=0.01136, α(K)=0.00940 14, α(L)=0.001508 22, α(M)=0.000349 5, α(N)=8.76E-5 13, α(O)=1.672E-5 24, α(P)=1.438E-6 21, α(N+)=0.0001058 15
(5)+ 78 ns 1     604.3 2 [M2]0.1663B(M2)(W.u.)=0.0014 10, α=0.1663, α(K)=0.1318 19, α(L)=0.0263 4, α(M)=0.00629 9, α(N)=0.001595 23, α(O)=0.000309 5, α(P)=2.83×10-5 4, α(N+)=0.00193 3
(5)+ 78 ns 1    1139.9 3 [E3]0.01089B(E3)(W.u.)=0.15 5, α=0.01089, α(K)=0.00831 12, α(L)=0.00196 3, α(M)=0.000476 7, α(N)=0.0001200 17, α(O)=2.26E-5 4, α(P)=1.85E-6 3, α(N+)=0.0001447 21
  1621.70 (7)+ 10.1 ns 6     216.26 8 [E2]0.313B(E2)(W.u.)=1.25 8, α=0.313, α(K)=0.1404 20, α(L)=0.1292 19, α(M)=0.0335 5, α(N)=0.00838 12, α(O)=0.001471 21, α(P)=6.35E-5 9, α(N+)=0.00992 14
  2643.10 (12-) 3.74 m 3 
% IT = 100
   316.8 2 [M4]13.63B(M4)(W.u.)≈7.6, α=13.63, α(K)=4 4, α(L)=2.6 24, α(M)=0.7 7, α(N)=0.19 17, α(O)=0.03 4, α(P)=0.0020 19, α(N+)=0.22 21
(12-) 3.74 m 3 
% IT = 100
   564.2 1 M41.164B(M4)(W.u.)≈0.31, α=1.164, α(K)=0.775 11, α(L)=0.290 4, α(M)=0.0756 11, α(N)=0.0193 3, α(O)=0.00363 5, α(P)=0.000268 4, α(N+)=0.0232 4
(12-) 3.74 m 3 
% IT = 100
  1021.5 2 [E5]0.0617B(E5)(W.u.)=16.6 21, α=0.0617, α(K)=0.0383 6, α(L)=0.01753 25, α(M)=0.00452 7, α(N)=0.001146 16, α(O)=0.000211 3, α(P)=1.488E-5 21, α(N+)=0.001372 20

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     0.00- 4.202 m 11 
% β- = 100
Main configuration=((π s1/2)-1(ν p1/2)-1); model calculations of 1985To20 give 88% configuration=((π s1/2)-1(ν p1/2)-1), 7% configuration=((π d3/2)-1(ν p3/2)-1) and 4% configuration=((π d5/2)-1(ν f5/2)-1); 1971KuZM, as quoted in 1972Se27, give 90% configuration=((π s1/2)-1(ν p1/2)-1) and 7% configuration=((π d3/2)-1(ν p3/2)-1).
   265.8322- 2.29 ns 14  Main configuration=((π d3/2)-1(ν p1/2)-1); model calculations of 1971KuZM, as quoted in 1972Se27, give 74% configuration=((π d3/2)-1(ν p1/2)-1) ,10% configuration=((π s1/2)-1(ν f5/2)-1), 7% configuration=((π s1/2)-1(ν p3/2)-1) and 5% configuration=((π d3/2)-1(ν f5/2)-1).
E(level): Main configuration=((π d3/2)-1(ν p1/2)-1); model calculations of 1971KuZM, as quoted in 1972Se27, give 74% configuration=((π d3/2)-1(ν p1/2)-1) ,10% configuration=((π s1/2)-1(ν f5/2)-1), 7% configuration=((π s1/2)-1(ν p3/2)-1) and 5% configuration=((π d3/2)-1(ν f5/2)-1).
   304.8961- 4.2 ps 14  Main configuration=((π s1/2)-1(ν p1/2)-1).
   635.022- 4.0 ps 9  Main configuration=((π s1/2)-1(ν p3/2)-1); model calculations of 1971KuZM, as quoted in 1972Se27, give 50% configuration=((π s1/2)-1(ν p3/2)-1) and 41% configuration=((π s1/2)-1(ν f5/2)-1).
   649.421-   Main configuration=((π d3/2)-1(ν p1/2)-1);.
   801.36(3)- 2.4 ps 7  Main configuration=((π s1/2)-1(ν f5/2)-1).
   952.174- 42 ps 10  Main configuration=((π d3/2)-1(ν f5/2)-1).
   998.172-,3-   Model calculations of 1971KuZM, as quoted in 1972Se27, give 32% configuration=((π s1/2)-1(ν f5/2)-1), 28% configuration=((π s1/2)-1(ν p3/2)-1) and 19% configuration=((π d3/2)-1(ν p1/2)-1).
  1206   E(level): From 205Tl(n,γ) E=th.
  1257   E(level): From 207Pb(t,α).
  13331-,2-   E(level): From 208Pb(d,α).
  1400   E(level): From 205Tl(n,γ) E=th.
  1405.47(5)+ 78 ns 1  μ=4.27 6
Main configuration=((π h11/2)-1(ν p1/2)-1); model calculations of 1971KuZM, as quoted in 1972Se27, give 77% configuration=((π h11/2)-1(ν p1/2)-1), 9% configuration=((π d3/2)-1(ν i13/2)-1), and 7% configuration=((π h11/2)-1(ν f5/2)-1).
  1453   E(level): From 205Tl(n,γ) E=th.
  1473   E(level): From 208Pb(d,α).
  1489.8(1,2,3)-   XREF: γ(1485).
  1621.70(7)+ 10.1 ns 6  μ<2.45
Main configuration=((π s1/2)-1(ν i13/2)-1); model calculations of 1971KuZM, as quoted in 1972Se27, give 71% configuration=((π s1/2)-1(ν i13/2)-1), 11% configuration=((π d3/2)-1(ν i13/2)-1), and 8% configuration=((π h11/2)-1(ν p3/2)-1).
  1631(2-)   E(level): From 205Tl(n,γ) E=th.
  1649(1,2)-   E(level): From 208Pb(d,α).
  1710.53(5,6)+   Main configuration=((π h11/2)-1(ν p1/2)-1); model calculations of 1971KuZM, as quoted in 1972Se27, give 71% configuration=((π h11/2)-1(ν p1/2)-1), 10% configuration=((π h11/2)-1(ν f5/2)-1), and 7% configuration=((π s1/2)-1(ν i13/2)-1).
  1800(3+)   Main configuration=((π h11/2)-1(ν f5/2)-1) (1971KuZM).
E(level): From 208Pb(d,α).
  18441-,2-   E(level): From 205Tl(n,γ) E=th.
  1983(5)+   Model calculations of 1971KuZM, as quoted in 1972Se27, suggest 74% configuration=((π d3/2)-1(ν i13/2)-1), and 17% configuration=((π h11/2)-1(ν p3/2)-1).
E(level): Model calculations of 1971KuZM, as quoted in 1972Se27, suggest 74% configuration=((π d3/2)-1(ν i13/2)-1), and 17% configuration=((π h11/2)-1(ν p3/2)-1). From 208Pb(d,α).
  1988   E(level): From 205Tl(n,γ) E=th.
  20582-,3-   E(level): From 208Pb(d,α).
E(level)Jπ(level)T1/2(level)Comments
  2078.90(8+)   Probably a mixture of configuration=((π h11/2)-1(ν f5/2)-1) and configuration=((π d3/2)-1(ν i13/2)-1). Model calculations of 1971KuZM, as quoted in 1972Se27, suggest 98% configuration=((π h11/2)-1(ν p3/2)-1).
  21265+,6+   Model calculations of 1971KuZM, as quoted in 1972Se27, suggest 71% configuration=((π s1/2)-1(ν i13/2)-1), 16% configuration=((π d3/2)-1(ν i13/2)-1) and 10% configuration=((π h11/2)-1(ν p3/2)-1).
E(level): From 208Pb(d,α).
  2170   E(level): From 208Pb(d,α).
  22172-,3-,4-   E(level): From 208Pb(d,α).
  2243(5+,6+,7+)   E(level): From 208Pb(d,α).
  22645+,6+   XREF: γ(2250).
E(level): From 207Pb(t,α).
  2411(5+,6+)   E(level): From 208Pb(d,α).
  2442   E(level): From 208Pb(d,α).
  24622-,3-   E(level): From 208Pb(d,α).
  24951-,2-   E(level): From 208Pb(d,α).
  2530   E(level): From 208Pb(d,α).
  2581(4+,5+)   Probably configuration=((π s1/2)-1(ν g9/2)+1) (1965Er02,1969Wh05).
E(level): From 205Tl(d,p).
  2594(4+,5+)   Probably configuration=((π s1/2)-1(ν g9/2)+1) (1965Er02,1969Wh05).
E(level): From 205Tl(d,p).
  2643.10(12-) 3.74 m 3 
% IT = 100
Configuration=((π h11/2)-1(ν i13/2)-1).
  2708(1,2,3)-   XREF: γ(2717).
E(level): From 208Pb(d,α).
  2728   E(level): From 208Pb(d,α).
  2807(1,2,3)-   XREF: γ(2813).
E(level): From 208Pb(d,α).
  2828   E(level): From 205Tl(d,p).
  28683+,4+,5+   E(level): From 205Tl(d,p).
  2896   E(level): From 205Tl(d,p).
  2936(5+,6+,7+)   E(level): From 208Pb(d,α).
  2977   E(level): From 208Pb(d,α).
  3014   E(level): From 205Tl(d,p).
  3024   E(level): From 208Pb(d,α).
  3046(0-,1-,2-)   E(level): From 208Pb(d,α).
E(level)Jπ(level)T1/2(level)Comments
  3106   E(level): From 208Pb(d,α).
  3123   E(level): From 208Pb(d,α).
  3181   E(level): From 208Pb(d,α).
  3225   E(level): From 208Pb(d,α).
  3278(3+,4+,5+)   E(level): From 208Pb(d,α).
  3330   E(level): From 208Pb(d,α).
  3363   E(level): From 205Tl(d,p).
  3424   E(level): From 205Tl(d,p).
  3452   E(level): From 205Tl(d,p).
  3538   E(level): From 205Tl(d,p).
  3564   E(level): From 205Tl(d,p).
  3638   E(level): From 205Tl(d,p).
  3717   E(level): From 205Tl(d,p).
  3784   E(level): From 205Tl(d,p).
  3874(3-,4-,5-)   E(level): From 205Tl(d,p).
  3900   E(level): From 205Tl(d,p).
  3938   E(level): From 205Tl(d,p).
  3976   E(level): From 205Tl(d,p).
  4126   E(level): From 205Tl(d,p).
  4200   E(level): From 205Tl(d,p).
  4238(3+)   Probably configuration=((π s1/2)-1(ν d5/2)+1) (1965Er02).
E(level): From 205Tl(d,p).
  4273(2+)   Probably configuration=((π s1/2)-1(ν d5/2)+1) (1965Er02).
E(level): From 205Tl(d,p).
  4426(1+)   Probably configuration=((π s1/2)-1(ν s1/2)+1) (1965Er02).
E(level): From 205Tl(d,p).
  4491(0+)   Probably configuration=((π s1/2)-1(ν s1/2)+1) (1965Er02).
E(level): From 205Tl(d,p).
  4555   E(level): From 205Tl(d,p).
E(level)Jπ(level)T1/2(level)Comments
  4622   E(level): From 205Tl(d,p).
  4680   E(level): From 205Tl(d,p).
  4739   E(level): From 205Tl(d,p).
  4775   E(level): From 205Tl(d,p).
  4879   E(level): From 205Tl(d,p).
  4904   E(level): From 205Tl(d,p).
  4941   E(level): From 205Tl(d,p).
  5015   E(level): From 205Tl(d,p).
  5055   E(level): From 205Tl(d,p).
  5091   E(level): From 205Tl(d,p).
  5140   E(level): From 205Tl(d,p).

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Additional Gamma Comments:

E(level)E(gamma)Comments
   304.896   304.896E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   635.02   634.3E(γ): only reported in 210Bi α decay (3.0×106 y).. From 210Bi α decay (3.04×106 y) (1976TuZY)
I(γ): From 210Bi α decay (3.04×106 y) (1976TuZY)
   649.42   344.52I(γ): From 206Hg β- decay (1970As05)
   939.91   304.896E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   952.17   149E(γ): only reported and placed by 1975Do12 in 205Tl(17O,16Oγ) study.
  1079.6   278.2E(γ): From 205Tl(n,γ) E=th
I(γ): From 205Tl(n,γ) E=th
  1117.5   851.4E(γ): From 210Bi α decay (3.04×106 y) (1976TuZY)
I(γ): From 210Bi α decay (3.04×106 y) (1976TuZY)
  1120.0E(γ): From 210Bi α decay (3.04×106 y) (1976TuZY)
  1360.3   711.0E(γ): From 205Tl(n,γ) E=th
I(γ): From 205Tl(n,γ) E=th
  1055.2E(γ): From 205Tl(n,γ) E=th
I(γ): From 205Tl(n,γ) E=th
  1405.47   604.3E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
  1139.9E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
  1489.8   840.4E(γ): From 205Tl(n,γ) E=th
I(γ): From 205Tl(n,γ) E=th
  1710.53    88.5E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
   304.9E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
  2078.90   368.2E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
   457.2E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
  2326.16   247.2E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
   616.3E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
   704.6E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
  2643.10   316.8E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
   564.2E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)
M(γ): From α(exp) in 206Tl IT decay (1976Ha44)
  1021.5E(γ): From 206Tl IT decay (3.74 min)
I(γ): From 206Tl IT decay (3.74 min)

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