ADOPTED LEVELS, GAMMAS for 200Tl

Authors: F.G. Kondev, S. Lalkovski |  Citation: Nucl. Data Sheets 108,1471 (2007) |  Cutoff date: 1-Aug-2006 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-797 keV 13S(n)= 7.06×103 keV 3S(p)= 4790 keV 6Q(α)= 1667 keV 7
Reference: 2012WA38

References:
  A  200Tl IT decay  B  200Pb ε decay
  C  198Pt(6Li,4nγ) 








E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     0ABC 2- 26.1 h 1 
% ε = 100
     
   147.634 21  B  0- 7.10 ns 15    147.63 3 
  100 30 
E2
     0
2-
   257.183 22  B  1-     109.54 4 
  257.19 3 
   10.8 15 
  100 3 
M1
M1+E2
   147.634
     0
0-
2-
   289.24 5  B  (2)-     289.24 15 
  100 10 
M1
     0
2-
   289.92 3  B  1-      32.74 3 
  142.28 3 
  289.92 10 
    0.89 15 
  100 5 
   55 11 

M1
M1
   257.183
   147.634
     0
1-
0-
2-
   323.70 17   C (3)-     323.7 2 
  100

     0
2-
   450.56 4  B  1-     161.32 4 
  193.39 10 
  302.93 5 
  450.56 5 
    9.1 10 
    1.0 4 
    5.0 10 
  100
M1

(M1)
M1
   289.24
   257.183
   147.634
     0
(2)-
1-
0-
2-
   525.54 3  B  1-     235.62 4 
  268.36 3 
  377.92 5 
  525.54 6 
  100 3 
   92 4 
    0.62 23 
    9.8 8 
M1
M1


   289.92
   257.183
   147.634
     0
1-
1-
0-
2-
   540.90 17 A C 4-     217.2 2 
  540.9 2 
    7.6 11 
  100 15 
M1(+E2)
E2
   323.70
     0
(3)-
2-
   605.45 4  B  1-     155.29 10 ?
  315.60 8 
  348.23 8 
  457.80 7 
  605.44 6 
    8 3 
   40 6 
   28 9 
   21 4 
  100 7 

(M1)


M1
   450.56
   289.92
   257.183
   147.634
     0
1-
1-
1-
0-
2-
   753.60 24 A C 7+ 34.0 ms 9 
% IT = 100
  212.7 2 
  100
E3
   540.90
4-
   762.00 24   C 5+ 0.33 µs 5    221.1 2 
  100
E1
   540.90
4-
   886.1 3   C (6)+     132.4 2 
  100
M1
   753.60
7+
  1023.6 3   C 6+     261.6 2 
  100
M1(+E2)
   762.00
5+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1173.8 3   C (6,7,8)+     287.7 2 
  420.3 2 
   43 6 
  100 15 
M1,E2
M1+E2
   886.1
   753.60
(6)+
7+
  1244.0 3   C 7- 4.8 ns 2    220.4 2 
  357.9 2 
  490.4 2 
    5 1 
   43 6 
  100 15 
[E1]
E1
E1
  1023.6
   886.1
   753.60
6+
(6)+
7+
  1247.4 3 ?  C (8-)       3.4 4 S
  493.8 2 
    0.7 3 
  100 33 


  1244.0
   753.60
7-
7+
  1322.9 4   C (9,10)-      75.5 2 
  100

  1247.4
(8-)
  1349.4 4   C     175.6 2 
  100

  1173.8
(6,7,8)+
  1442.1 5   C (10,11)-     119.2 2 
  100
M1(+E2)
  1322.9
(9,10)-
  1659.3 5   C (11,12)-     217.2 2 
  100
M1(+E2)
  1442.1
(10,11)-
  1889.1 5   C (12,13)-     229.8 2 
  447.6
  100
 
M1(+E2)

  1659.3
  1442.1
(11,12)-
(10,11)-
  2070.3 5   C     411.0 2 
  100

  1659.3
(11,12)-
  2237.4 6   C (13,14)-     348.3 2 
  578.1
  100
 
M1+E2

  1889.1
  1659.3
(12,13)-
(11,12)-
  2548.1 6   C (14,15)-     310.7 2 
  658.6
  100
 
M1(+E2)

  2237.4
  1889.1
(13,14)-
(12,13)-

E(level): From a least-squares fit to Eγ

M(γ): From γ(θ) and the apparent ΔJ=1 band structure in 198Pt(6Li,4nγ), unless otherwise specified

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   147.634 0- 7.10 ns 15    147.63 3 E2 1.231B(E2)(W.u.)=7.33 17, α=1.231, α(K)=0.333 5, α(L)=0.671 10, α(M)=0.1757 25, α(N)=0.0440 7, α(O)=0.00762 11, α(P)=0.000274 4, α(N+)=0.0519 8
   257.183 1-     109.54 4 M1 6.62α=6.62, α(K)=5.41 8, α(L)=0.930 13, α(M)=0.217 3, α(N)=0.0549 8, α(O)=0.01066 15, α(P)=0.001006 15, α(N+)=0.0665 10
1-     257.19 3 M1+E21.17 120.355α=0.355 23, α(K)=0.260 22, α(L)=0.0719 15, α(M)=0.0177 3, α(N)=0.00444 8, α(O)=0.000822 17, α(P)=5.8×10-5 3, α(N+)=0.00532 10
   289.24 (2)-     289.24 15 M1 0.433α=0.433, α(K)=0.355 5, α(L)=0.0600 9, α(M)=0.01399 20, α(N)=0.00353 5, α(O)=0.000686 10, α(P)=6.49×10-5 10, α(N+)=0.00428 6
   289.92 1-     142.28 3 M1 3.14α=3.14, α(K)=2.57 4, α(L)=0.439 7, α(M)=0.1026 15, α(N)=0.0259 4, α(O)=0.00503 7, α(P)=0.000475 7, α(N+)=0.0314 5
1-     289.92 10 M1 0.430α=0.430, α(K)=0.353 5, α(L)=0.0596 9, α(M)=0.01390 20, α(N)=0.00351 5, α(O)=0.000682 10, α(P)=6.45×10-5 9, α(N+)=0.00426 6
   450.56 1-     161.32 4 M1 2.20α=2.20, α(K)=1.80 3, α(L)=0.307 5, α(M)=0.0717 10, α(N)=0.0181 3, α(O)=0.00352 5, α(P)=0.000332 5, α(N+)=0.0220 3
1-     302.93 5 (M1) 0.382α=0.382, α(K)=0.313 5, α(L)=0.0528 8, α(M)=0.01232 18, α(N)=0.00311 5, α(O)=0.000604 9, α(P)=5.72×10-5 8, α(N+)=0.00377 6
1-     450.56 5 M1 0.1311α=0.1311, α(K)=0.1076 15, α(L)=0.0180 3, α(M)=0.00419 6, α(N)=0.001057 15, α(O)=0.000205 3, α(P)=1.95×10-5 3, α(N+)=0.001282 18
   525.54 1-     235.62 4 M1 0.762α=0.762, α(K)=0.624 9, α(L)=0.1058 15, α(M)=0.0247 4, α(N)=0.00624 9, α(O)=0.001212 17, α(P)=0.0001145 16, α(N+)=0.00756 11
1-     268.36 3 M1 0.532α=0.532, α(K)=0.436 7, α(L)=0.0737 11, α(M)=0.01721 24, α(N)=0.00435 6, α(O)=0.000844 12, α(P)=7.98×10-5 12, α(N+)=0.00527 8
   540.90 4-     217.2 2 M1(+E2) 0.6α=0.6 4, α(K)=0.5 4, α(L)=0.130 4, α(M)=0.0319 11, α(N)=0.00803 24, α(O)=0.00148 5, α(P)=0.00010 4, α(N+)=0.00962 19
4-     540.9 2 E2 0.0233α=0.0233, α(K)=0.01703 24, α(L)=0.00477 7, α(M)=0.001173 17, α(N)=0.000295 5, α(O)=5.44×10-5 8, α(P)=3.81E-6 6, α(N+)=0.000353 5
   605.45 1-     315.60 8 (M1) 0.341α=0.341, α(K)=0.280 4, α(L)=0.0472 7, α(M)=0.01101 16, α(N)=0.00278 4, α(O)=0.000540 8, α(P)=5.11×10-5 8, α(N+)=0.00337 5
1-     605.44 6 M1 0.0602α=0.0602, α(K)=0.0495 7, α(L)=0.00819 12, α(M)=0.00191 3, α(N)=0.000481 7, α(O)=9.35×10-5 13, α(P)=8.88E-6 13, α(N+)=0.000584 9
   753.60 7+ 34.0 ms 9 
% IT = 100
  212.7 2 E3 2.77B(E3)(W.u.)=0.203 6, α=2.77, α(K)=0.390 6, α(L)=1.76 3, α(M)=0.479 8, α(N)=0.1209 18, α(O)=0.0210 4, α(P)=0.000851 13, α(N+)=0.1428 22
   762.00 5+ 0.33 µs 5    221.1 2 E1 0.0594B(E1)(W.u.)=5.2E-8 8, α=0.0594, α(K)=0.0485 7, α(L)=0.00837 12, α(M)=0.00195 3, α(N)=0.000488 7, α(O)=9.15E-5 13, α(P)=7.19E-6 11, α(N+)=0.000587 9
   886.1 (6)+     132.4 2 M1 3.85α=3.85, α(K)=3.15 5, α(L)=0.539 8, α(M)=0.1260 19, α(N)=0.0318 5, α(O)=0.00618 9, α(P)=0.000584 9, α(N+)=0.0386 6
  1023.6 6+     261.6 2 M1(+E2) 0.37α=0.37 21, α(K)=0.28 19, α(L)=0.069 10, α(M)=0.0169 16, α(N)=0.0043 5, α(O)=0.00079 12, α(P)=6.E-5 3, α(N+)=0.0051 6
  1173.8 (6,7,8)+     287.7 2 M1,E2 0.28α=0.28 16, α(K)=0.22 15, α(L)=0.051 10, α(M)=0.0124 19, α(N)=0.0031 5, α(O)=0.00058 12, α(P)=4.5×10-5 21, α(N+)=0.0037 6
(6,7,8)+     420.3 2 M1+E2 0.10α=0.10 6, α(K)=0.08 5, α(L)=0.016 6, α(M)=0.0038 12, α(N)=0.0010 3, α(O)=0.00018 7, α(P)=1.5×10-5 8, α(N+)=0.0012 4
  1244.0 7- 4.8 ns 2    220.4 2 [E1] 0.0599B(E1)(W.u.)=1.3E-7 3, α=0.0599, α(K)=0.0489 7, α(L)=0.00844 12, α(M)=0.00197 3, α(N)=0.000492 7, α(O)=9.23E-5 13, α(P)=7.24E-6 11, α(N+)=0.000591 9
7- 4.8 ns 2    357.9 2 E1 0.0191B(E1)(W.u.)=2.6E-7 5, α=0.0191, α(K)=0.01574 23, α(L)=0.00258 4, α(M)=0.000600 9, α(N)=0.0001503 22, α(O)=2.85E-5 4, α(P)=2.39E-6 4, α(N+)=0.000181 3
7- 4.8 ns 2    490.4 2 E1 0.00961B(E1)(W.u.)=2.3E-7 5, α=0.00961, α(K)=0.00796 12, α(L)=0.001268 18, α(M)=0.000294 5, α(N)=7.36E-5 11, α(O)=1.408E-5 20, α(P)=1.220E-6 18, α(N+)=8.89E-5 13
  1442.1 (10,11)-     119.2 2 M1(+E2) 4.0α=4.0 12, α(K)=2.4 19, α(L)=1.2 6, α(M)=0.32 15, α(N)=0.08 4, α(O)=0.014 6, α(P)=0.00073 7, α(N+)=0.09 5
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  1659.3 (11,12)-     217.2 2 M1(+E2) 0.6α=0.6 4, α(K)=0.5 4, α(L)=0.130 4, α(M)=0.0319 11, α(N)=0.00803 24, α(O)=0.00148 5, α(P)=0.00010 4, α(N+)=0.00962 19
  1889.1 (12,13)-     229.8 2 M1(+E2) 0.5α=0.5 3, α(K)=0.4 3, α(L)=0.107 7, α(M)=0.0262 5, α(N)=0.00660 13, α(O)=0.00122 8, α(P)=9.E-5 4, α(N+)=0.00791 23
  2237.4 (13,14)-     348.3 2 M1+E2 0.17α=0.17 10, α(K)=0.13 9, α(L)=0.028 8, α(M)=0.0068 17, α(N)=0.0017 5, α(O)=0.00032 9, α(P)=2.6×10-5 13, α(N+)=0.0021 6

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     02- 26.1 h 1 
% ε = 100
μ=0.04 1 (1976Ek03,2005St24)
Configuration=((π s1/2)(ν f5/2)).
   540.904-   Configuration=((π d3/2)(ν f5/2)).
   753.607+ 34.0 ms 9 
% IT = 100
Configuration=((π s1/2)(ν i13/2)).
  1244.07- 4.8 ns 2  Configuration=((π h9/2)(ν i13/2)).
  1247.4(8-)   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.
  1322.9(9,10)-   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.
  1442.1(10,11)-   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.
  1659.3(11,12)-   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.
  1889.1(12,13)-   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.
  2237.4(13,14)-   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.
  2548.1(14,15)-   E(level): ΔJ=1 band structure with a possible configuration=((π h9/2)(ν i13/2)). The assignment is tentative.

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Additional Gamma Comments:

E(level)E(gamma)Comments
   147.634   147.63E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   257.183   109.54E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   257.19E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   289.24   289.24E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   289.92    32.74E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   142.28E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   289.92E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   450.56   161.32E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   193.39E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   302.93E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   450.56E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   525.54   235.62E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   268.36E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   377.92E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   525.54E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   540.90   540.9M(γ): K/L in 200Tl IT decay
   605.45   155.29E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   315.60E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   348.23E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   457.80E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
   605.44E(γ): From 200Pb ε decay
I(γ): From 200Pb ε decay
M(γ): From α(K)exp, α(L)exp, α(M)exp and K/L in 200Pb ε decay
   753.60   212.7M(γ): From K/L in 200Tl IT decay
  1247.4     3.4E(γ): Transition not measured directly, but suggested by the authors in 198Pt(6Li,4nγ) (1981Kr03) in analogy with 198Tl

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