ADOPTED LEVELS, GAMMAS for 184W

Author: Coral M. Baglin |  Citation: Nucl. Data Sheets 111,275 (2010) |  Cutoff date: 1-Oct-2009 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-1483 keV 5S(n)= 7411.66 keV 25S(p)= 7700.4 keV 18Q(α)= 1649.3 keV 20
Reference: 2012WA38

References:
  A  184Ta β- decay  B  184Re ε decay (35.4 d)
  C  184Re ε decay (169 d)  D  183W(n,γ) E=THERMAL
  E  183W(n,γ) E=7.6 EV  F  183W(n,γ) E=2 KEV
  G  183W(n,γ) E=300 EV  H  184W(n,n’)
  I  184W(n,n’γ)  J  184W(d,d’)
  K  Coulomb Excitation  L  186W(p,t)
  M  183W(d,p)  N  182W(t,p)
  O  184W(γ,γ’)  P  184W(γ,γ):MOSSBAUER
  Q  184W(p,p),(p,p’),(pol p,p’)  R  186W(12C,14C)
  S  muonic atom  T  198Pt(136Xe,xγ)
  U  183W(n,γ) E=THERMAL: γγ COIN  V  183W(n,γ) E=RES
  W  184W(α,α’)  X  186W(n,3nγ)
  Y  184W(γ,X)  Z  184W(12C,12C’), (18O,18O’)

General Comments:

Other Reactions:

184W(e,e) (1973Ka44): E=42, 60, 65 MeV; deduced charge distribution parameters.

For isotope shift and/or hfs data see, for example, 1985Bo33, 1988Au04 1994Ji02, 1994Ji07, 1995Au08.

Q-value: Note: Current evaluation has used the following Q record -1481 4 7411.6026 7700.2 17 1657.0 20 2003Au03,2009AuZZ










E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
     0.0ABCDEFGHIJKLMNOPQ STUVW  Z 0+ STABLE      
   111.2174 4 ABCDEFGHIJKLMNOPQ STUVWX Z 2+ 1.251 ns 12      111.2174 4 
    100
E2
     0.0
0+
   364.069 8 ABCDE  HIJKLMN  Q  TU WX Z 4+ 46.3 ps +25-13      252.845 10 
    100
E2
   111.2174
2+
   748.320 12 A CDE  HIJKL N  Q  T  WX   6+ 5.75 ps 18      384.250 12 
    100
E2
   364.069
4+
   903.307 9 ABCDEFGHIJKLMN  Q   UVW    2+ 1.80 ps 4      539.220 25 
    792.067 22 
    903.282 19 
      0.83 3 
     98.5 11 
    100.0 11 
E2
M1+E2
E2
   364.069
   111.2174
     0.0
4+
2+
0+
  1002.49 4    DEFGHIJ L N  Q   UV     0+       891.27 4 
    100
[E2]
   111.2174
2+
  1005.971 10 ABCDEF  I K         U      3+       641.915 20 
    894.760 19 
     12.40 18 
    100.0 14 
M1+E2
M1+E2
   364.069
   111.2174
4+
2+
  1121.440 14  B DEFGHIJKLMN      UVW    2+ 56 ps 7      757.328 24 
   1010.245 21 
   1121.422 24 
     70 4 
    100 4 
     38.0 20 
E2
M1+E2+E0
E2
   364.069
   111.2174
     0.0
4+
2+
0+
  1130.045 9 ABCDEFG I                  (2)-       124.067 12 
    226.746 8 
   1018.83 9 
      9.0 7 
    100.0 21 
      5.6 3 
(E1)
E1+M2+E3
(E1)
  1005.971
   903.307
   111.2174
3+
2+
2+
  1133.850 10 ABCDE  HIJKLM   Q  T       4+ 2.30 ps 17      127.67 10 
    230.45 6 
    385.5
    769.778 17 
   1022.63 3 
      0.25 10 
      2.2 3 
     <0.83
    100 3 
     74 3 
E2(+M1)
E2
[E2]
M1+E2
E2
  1005.971
   903.307
   748.320
   364.069
   111.2174
3+
2+
6+
4+
2+
  1221.308 8 A CDE GHIJKL N        W    3- 45 ps 5       87.452 10 
     91.270 10 
    215.326 12 
    318.008 10 
    857.23 3 
   1110.08 3 
   1221.29 4 
      4.15 19 
      4.35 24 
     48.9 13 
    100.0 12 
      2.84 7 
      9.88 25 
      0.36 3 
E1
M1+E2
E1
E1+M2
E1
E1+M2
(E3)
  1133.850
  1130.045
  1005.971
   903.307
   364.069
   111.2174
     0.0
4+
(2)-
3+
2+
4+
2+
0+
  1252.2 7           K        T   X   8+ 1.49 ps 3      503.6
    100
E2
   748.320
6+
  1282.71 10       G IJ                 (1,2)-       161.27 10 ?
    100

  1121.440
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  1284.997 8 A CDE   IJ                 5- 8.33 µs 18       63.6890 14 
    151.134 20 
    279.0S
    381.82 14 
    536.674 15 
    920.933 21 
   1173.77 3 
      5.47 25 
      0.57 5 
     <0.010
      0.69 6 
     40.4 6 
    100.0 14 
     14.9 6 
E2
[E1]
[M2]
[E3]
E1+M2+E3
E1+M2+E3
(E3)
  1221.308
  1133.850
  1005.971
   903.307
   748.320
   364.069
   111.2174
3-
4+
3+
2+
6+
4+
2+
  1294.94 10 A  D    I K MN             5+       930.87 10 
    100

   364.069
4+
  1322.152 22    DEFGHIJ           V     (0)+       418.847 20 
   1211.0 10 
    100 50 
     <7.5
[E2]

   903.307
   111.2174
2+
2+
  1345.37 3 A  DE   I                  (4-)       211.63 5 
    215.21 10 
    339.34 4 
    981.1 5 
     27 7 
   <232
    100 20 
     15 5 
[E1]

[E1]

  1133.850
  1130.045
  1005.971
   364.069
4+
(2)-
3+
4+
  1360.38 19        HIJ  M              (4+)       238.8 6 
    996.3 2 
   1249.8 10 
    100 28 
   <500
    <44



  1121.440
   364.069
   111.2174
2+
4+
2+
  1386.296 13  B DEFGHIJK M       UV     2+ 1.08 ps 10      380.34 4 
    482.92 3 
   1275.11 3 
   1386.302 17 
      3.9 10 
     15.8 18 
    100 5 
     81 3 
M1+E2
M1+E2
M1+E2
E2
  1005.971
   903.307
   111.2174
     0.0
3+
2+
2+
0+
  1425.003 16 AB DE  HI   M              (3)+       203.56 10 
    294.962 15 
   1060.85 15 
   1313.79 4 
     13.1 24 
    100 5 
     11.4 15 
     58 6 
[E1]
E1
E2
E2
  1221.308
  1130.045
   364.069
   111.2174
3-
(2)-
4+
2+
  1431.02 5  B DEFGHIJK         UV     2+ > 5 ps     424.36 15 ?
   1319.84 6 
   1430.97 6 
      8.3 19 
    100 6 
     79 6 

M1+E2+E0
E2
  1005.971
   111.2174
     0.0
3+
2+
0+
  1446.266 13 A C    HI   M              6-       161.269 15 
    100
M1+E2
  1284.997
5-
  1476.9 5          JK MN     T       6+ 1.82 ps 9      224.7
    343.1
    728.6
   1112.9
 
 
 
 
E2
E2
M1+E2
E2
  1252.2
  1133.850
   748.320
   364.069
8+
4+
6+
4+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  1492 4          J                 (5-)        
  1501.545 13 A C                        7- 2.35 ns 10       55.2790 8 
    216.547 12 
     24.5 25 
    100.0 21 
M1+E2
E2
  1446.266
  1284.997
6-
5-
  1523.27 8    DE  HI   M              (3+)      1412.05 8 
    100

   111.2174
2+
  1536.66 16 A  D   HIJ  MN             (4+)       112?
    191.0 5 
    315.4 4 
   1172.1 5 
   1425.54 20 
 
     12 5 
    100 24 
     83 24 
     56 5 

[E1]



  1425.003
  1345.37
  1221.308
   364.069
   111.2174
(3)+
(4-)
3-
4+
2+
  1570.2 3    DE                      (2+)       145.6 8 ?
   1570.19 25 
      2.6E2 13 
    100 40 


  1425.003
     0.0
(3)+
0+
  1581.46 9 A       I   M              (6-)       296.46 10 
    100

  1284.997
5-
  1613.512 20    D FG I           UV     (1+)       607.620 25 
    710.08 3 
   1502.35 8 
    100 6 
     94 10 
     24 12 



  1005.971
   903.307
   111.2174
3+
2+
2+
  1614.3 5       G I  L               0+        
  1614.90 6    DE G I           UV     (1,2)+       711.58 6 
   1503.74 15 
   1614.6
    100 10 
     54 14 
      3.9 14 



   903.307
   111.2174
     0.0
2+
2+
0+
  1627.71 3    DEFG     M       UV     (1)+       241.46 6 
    724.39 3 
      4.9 10 
    100 5 
[M1]

  1386.296
   903.307
2+
2+
  1637 4             M              (7-)        
  1661.09 19        HI            V           526.8 4 
    655.5 3 
    757.6 3 
   1550.4 10 
    100 31 
   <300
  <1000
    <38




  1133.850
  1005.971
   903.307
   111.2174
4+
3+
2+
2+
  1676.42 12 A      HI   M              (5+)       331.06 12 
    381.6 5 
   1312.2 4 
     74 17 
    100 52 
     61 17 



  1345.37
  1294.94
   364.069
(4-)
5+
4+
  1683.4 5         I                       1319.6 5 
   1571.5 8 
   <670
    100 50 


   364.069
   111.2174
4+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  1699.04 4 A           M              (5)+      ≈162
   ≈253
    274.07 7 
    354.0 2 
    414.01 5 
   1334.9 3 
      2.3 10 
      6.8 20 
      0.60 6 
      0.20 8 
    100
      0.07 2 
[M1]
[E1]
[E2]
[E1]
E1

  1536.66
  1446.266
  1425.003
  1345.37
  1284.997
   364.069
(4+)
6-
(3)+
(4-)
5-
4+
  1713.47 10    D FG I           U      (0)+       810.16 10 
    100

   903.307
2+
  1722 4             M        V     (1+)        
  1746.03 4 A       I                  (6)+       244.44 6 
    299.79 9 
    461.06 5 
     33 4 
      4.4 5 
    100 3 
[E1]
[E1]
E1
  1501.545
  1446.266
  1284.997
7-
6-
5-
  1755 3          J  MN             (4+)        
  1774.5 5            L               0+        
  1775.34 3    DEFG I   M              (2)+       769.44 3 
    871.56 8 
   1412.4 5 ?
     51 24 
    100 21 
 



  1005.971
   903.307
   364.069
3+
2+
4+
  1795.8 5            LM        V     0+        
  1808.27 6    DEFG I   MN      UV     (2+)       586.94 7 ?
    678.17 6 
    802.53 20 
   1444.5 3 
   1697.5 3 
   1808.5 4 
     44 4 
    100 9 
     41 9 
     79 21 
     91 15 
     68 15 






  1221.308
  1130.045
  1005.971
   364.069
   111.2174
     0.0
3-
(2)-
3+
4+
2+
0+
  1846.6 15 ?    E                             
  1860.8 9           K  N             10+ 0.570 ps +24-31      608.6
    100
E2
  1252.2
8+
  1876.71 9    D FG I           U      (2)+       655.38 12 
    746.59 15 
   1765.6 4 
   1877.3 4 
     26 5 
     47 11 
    100 29 
     92 18 




  1221.308
  1130.045
   111.2174
     0.0
3-
(2)-
2+
0+
  1894.3 4         IJ  M              (2+,3)       763.6 6 
   1530.5 8 
   1783.6 6 
    100 39 
     16 8 
     37 11 



  1130.045
   364.069
   111.2174
(2)-
4+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  1921 5             M                     
  1925.4 7           K        T       8+        64.6
    448.7
    673
   1177.3
 
 
 
 
E2
E2
M1+E2
E2
  1860.8
  1476.9
  1252.2
   748.320
10+
6+
8+
6+
  1995.4 3    D FG I     O     U      1(-)      1995.35 25 
    100
D
     0.0
0+
  2012.94 10    D FG             U      (2)+       882.75 15 
   1007.03 12 
   1901.9 3 
   <185
   <235
    100 31 



  1130.045
  1005.971
   111.2174
(2)-
3+
2+
  2029.83 6 A           M              (5-,6,7-)       528.28 6 
    100

  1501.545
7-
  2031.3 4    D FG    L        U      0+      1920.1 4 
    100

   111.2174
2+
  2035.56 18    D FG I           U      1+,2+      1132.36 20 
   2035.1 4 
     17 3 
    100 20 


   903.307
     0.0
2+
0+
  2044 6             M        V            
  2056.41 17    D  G I     O     UV     (1)- 26 fs 5     1945.3 3 
   2056.34 20 
    100 15 
     76
[E1]
[E1]
   111.2174
     0.0
2+
0+
  2060.8 3    DEF  I   M       UV           635.92 8 ?
   1949.60 25 
     27 4 
    100 15 


  1425.003
   111.2174
(3)+
2+
  2063.4 3       G     M              (0,2)+        
  2074.0 6       G      N             (0,2)-        
  2084.8 5       G                    (0,2)-        
  2089.5 5    D  G                    (1)-        
  2097.7 3    D FG I     O     UV     (1)+ 31 fs 4     1986.6 4 
   2097.6 4 
     81 17 
    100 14 

[M1]
   111.2174
     0.0
2+
0+
  2104.20 8    D FG     M       U      (2)+       782.2 3 
    982.44 18 
   1098.28 8 
     26 9 
     41 9 
    100 9 



  1322.152
  1121.440
  1005.971
(0)+
2+
3+
  2111.2 6       G    L               0+        
  2112.49 18    D FG                          982.44 18 
    100

  1130.045
(2)-
  2124.6 7       G     M       UV     (1,2+)      1121.4
   1222.0
     47 18 
    100 9 


  1002.49
   903.307
0+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  2126.07 5    DEFG IJ  M       UV           996.06 5 
   1004.47 8 
   2015.32 20 
     52 5 
     44 5 
    100 10 



  1130.045
  1121.440
   111.2174
(2)-
2+
2+
  2168.19 5    DEFG I   M       UV     (1)+       743.19 4 
    782.2 3 ?
    846.21 25 
   1046.4 3 
  ≈1264.7
   2056.5 5 
   2168.0 5 
     66 14 
    <28
     34 10 
     34 8 
     20 4 
    100 4 
     10 4 







  1425.003
  1386.296
  1322.152
  1121.440
   903.307
   111.2174
     0.0
(3)+
2+
(0)+
2+
2+
2+
0+
  2182 5              N             (0+)        
  2194.7 10      F                            
  2221.77 22    D FG     MN       V     (LE4)       446.64 25 
   2110.0 4 
     21 6 
    100 26 


  1775.34
   111.2174
(2)+
2+
  2222.8 5     EFG     MN             (2+,3,4+)     ≈1319.5?
   1858.7 5 
 
 


   903.307
   364.069
2+
4+
  2228.30 7 ?   D                       (2-,3,4-)       882.75 15 
   1007.03 12 
   1098.28 8 
     60 12 
     82 9 
    100 10 



  1345.37
  1221.308
  1130.045
(4-)
3-
(2)-
  2246.3 3    DEFG     M       UV     (2)+      2135.1 3 
  ≈2245
    100 41 
     38 16 


   111.2174
     0.0
2+
0+
  2294.61 7    D FG     M       UV     (2)+      1173.1
   1391.23 8 
   2183.62 15 
   2294.5
      8.4 16 
     46 5 
    100 15 
      4.9 22 




  1121.440
   903.307
   111.2174
     0.0
2+
2+
2+
0+
  2309.6 7            L         V     0+        
  2320.4 3    D  G     M       U      (1-,2-)      1417.1
    100

   903.307
2+
  2328.7 5 ?    E       M              (1,2+)      2328.7 5 
    100

     0.0
0+
  2349.9 5             M       U           2349.9
    100

     0.0
0+
  2352.2 2    D FG     M              (1)-        
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  2370.1 3    D FG     M       UV     (1)+      2258.6 4 
   2370.4 4 
    100 26 
     93 14 


   111.2174
     0.0
2+
0+
  2389.14 12 A  D        M              (4-,5,6-)       359.2 3 
    807.68 10 
    942.9 4 
   1043.1 8 
   1093.8 10 
   1104.4 3 
     22 6 
    100 12 
     21 4 
     ≈1.5
      4 3 
      9 4 






  2029.83
  1581.46
  1446.266
  1345.37
  1294.94
  1284.997
(5-,6,7-)
(6-)
6-
(4-)
5+
5-
  2390.3 2       G     M       UV     (1)+      2279.1
   2390.3
     27 9 
    100 16 


   111.2174
     0.0
2+
0+
  2392.3 3      F      M        V            
  2395.8 4    D  G  J  M       UV     (1)+       782.2 3 ?
   1274.3
   2031.7
   2284.2 4 
   2395.9 5 
    <14
     20.6 18 
     16 3 
    100 6 
     48 4 





  1613.512
  1121.440
   364.069
   111.2174
     0.0
(1+)
2+
4+
2+
0+
  2401.8 6      F      M                     
  2404.2 3    D  G    L        U      0+      1500.9
   2292.9
    100 13 
     49 12 


   903.307
   111.2174
2+
2+
  2421.5 7      F   J  MN             (0+)        
  2429.6 11    D                 V            
  2439.8 2    D F      M       U           2328.6
    100

   111.2174
2+
  2458.4 2    D F        O     U      1 62 fs 12     2347.1
   2458.4
     19 4 
    100 9 

D
   111.2174
     0.0
2+
0+
  2468.9 7            L         V     (0+)        
  2471.7 12           K                10+ 0.82 ps +15-4      546.3
    100
[E2]
  1925.4
8+
  2479.3 9                    T       (8-,9,10+)       554
   1227
 
 


  1925.4
  1252.2
8+
8+
  2485.3 12    D F                            
  2492.67 10 A    F      M              (4-,5,6)      1046.4 6 
   1207.67 10 
     15 5 
    100 10 


  1446.266
  1284.997
6-
5-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  2509.4 2    D F              UV          1606.1
   2398.1
     22 7 
    100 13 


   903.307
   111.2174
2+
2+
  2512.7 7            L         V     0+        
  2518.9 3    D F      M        V            
  2520.7 3                     U           2409.5
    100

   111.2174
2+
  2532.4 6      F      M                     
  2546.1 7               O            1 65 fs 15     2435
   2546 1 
     44 11 
    100

D
   111.2174
     0.0
2+
0+
  2555.0 2    D F   J          U           2443.8
    100

   111.2174
2+
  2557.0 14           K                12+ 0.265 ps +21-24      696.2
    100
E2
  1860.8
10+
  2567.9 7            L               (0+)        
  2573.4 3    D F      M       U           2462.2
    100

   111.2174
2+
  2582.0 23      F      M                     
  2592.5 6    D F      M                     
  2613.3 3    D F              U           1710.0
   2502.1
    100 26 
     54 21 


   903.307
   111.2174
2+
2+
  2618.8 3    D F              U           2618.8
    100

     0.0
0+
  2630.7 7    D F      M                   2519.4
   2630.7
     34 9 
    100 17 


   111.2174
     0.0
2+
0+
  2649.0 3    D                UV          2537.8
    100

   111.2174
2+
  2652.1 5      F   J           V            
  2655.8 4                     UV          2544.5
   2655.8
     39 16 
    100 26 


   111.2174
     0.0
2+
0+
  2675.5 7      F   J  M        V            
  2694.4 3      F        O     UV     1      2694.4
    100
D
     0.0
0+
  2704.5 9      F                            
  2706.7 4    D                U           1803.4
   2595.5
   2706.7
    100 14 
     32 11 
     26 13 



   903.307
   111.2174
     0.0
2+
2+
0+
  2713                     V     LE3        
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  2719.8 2    D F              U           1816.5
    100

   903.307
2+
  2732.5 6    D                U           2621.3
    100

   111.2174
2+
  2739.3 14                    T             260
 

  2479.3
(8-,9,10+)
  2757.6 2    D                UV          2646.4
    100

   111.2174
2+
  2763.2 2    D          O     UV     1 28 fs 6     2397.1
   2651.9
   2763.2
     20 5 
     82 12 
    100 12 


D
   364.069
   111.2174
     0.0
4+
2+
0+
  2767.6 6      F              UV          2656.3
   2767.6
    100 16 
     25 9 


   111.2174
     0.0
2+
0+
  2798.2 4    D                UV          2798.2
    100

     0.0
0+
  2802.7 1    D     J           V          2691.5
    100

   111.2174
2+
  2813 1               O                 2813 1 
    100

     0.0
0+
  2815.0 2    D F              U           2450.9
   2703.7
     25 5 
    100 10 


   364.069
   111.2174
4+
2+
  2825.1 3            L        U      0+      1921.8
   2713.9
     63 25 
    100 28 


   903.307
   111.2174
2+
2+
  2836.9 4                     U           2725.7
    100

   111.2174
2+
  2845.4 11      F   J                        
  2849.2 8 ?   D                              
  2853.6 6      F                            
  2855.6 10 ?   D     J                        
  2870.5 2    D     J L        U      (0+)      1967.2
    100

   903.307
2+
  2892.1 2      F        O     U      1 31 fs 6     2780.9
   2892.1
     35 12 
    100

D
   111.2174
     0.0
2+
0+
  2902.0 8    D                              
  2905.8 7                     U           2000.8
   2905.8
    100 25 
     49 25 


   903.307
     0.0
2+
0+
  2919.5 2    D F              U           2808.3
    100

   111.2174
2+
  2927.7 7            L               (0+)        
  2939.6 7      F     L               (0+)        
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  2946.8 4                     U           2043.5
   2835.5
    100 47 
     91 47 


   903.307
   111.2174
2+
2+
  2948.7 5      F                            
  2951.0 5    D          O     U      1 33 fs 6     2839.7
   2951.0
     56 11 
    100

D
   111.2174
     0.0
2+
0+
  2968.7 2    D F              UV     (1+)      2857.4
   2968.7
     33 7 
    100 24 


   111.2174
     0.0
2+
0+
  2981.4   D F               V     5        
  2983.6 4    D                UV          2983.6
    100

     0.0
0+
  3004.1 11    D                              
  3017.1 1    D                U           3017.1
    100

     0.0
0+
  3022.9 3                     U           2911.6
   3022.9
     71 29 
    100 20 


   111.2174
     0.0
2+
0+
  3026.8 5    D F                            
  3029.0 1                     U           2917.8
    100

   111.2174
2+
  3037.1 6    D                UV     (1+)      1915.7
   2925.9
   3037.1
    100 22 
     78 24 
     90 31 



  1121.440
   111.2174
     0.0
2+
2+
0+
  3053.4 2                     U           2942.2
    100

   111.2174
2+
  3060.3 17                    T             321
    581?
 
 


  2739.3
  2479.3

(8-,9,10+)
  3068.5 3    D F              U           2957.3
    100

   111.2174
2+
  3071.2 3      F        O     U      1      3071.2
    100
D
     0.0
0+
  3084.0 10      F        O            1      3084 1 
    100
D
     0.0
0+
  3088 1               O            1      3088 1 
    100
D
     0.0
0+
  3104.2 3    D F              U           2200.9
   2992.9
   3104.2
     42 7 
     28 7 
    100 12 



   903.307
   111.2174
     0.0
2+
2+
0+
  3108.8 16 ?          K                (12+) 0.35 ps +14-3      637.1?
    100
[E2]
  2471.7
10+
  3112.1 8    D                              
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  3124 1               O            1      3124 1 
    100
D
     0.0
0+
  3133 1               O            1      3133 1 
    100
D
     0.0
0+
  3134.6 5    D F              U           2231.3
    100

   903.307
2+
  3136.8 4                     U           3136.8
    100

     0.0
0+
  3164.1 8                     U           3052.9
   3164.1
     78 32 
    100 28 


   111.2174
     0.0
2+
0+
  3166.2 8                     U           3055.0
    100

   111.2174
2+
  3169.1 2    D                U           3057.9
    100

   111.2174
2+
  3177.9 5                     U           3177.9
    100

     0.0
0+
  3183.8 1    D F              U           3072.6
    100

   111.2174
2+
  3187.1 3                     U           3075.9
    100

   111.2174
2+
  3193.3 3    D                U           3082.1
    100

   111.2174
2+
  3201.8 6    D  G             UV          3090.6
    100

   111.2174
2+
  3215.5 7      F                            
  3220.6 9    D                              
  3224.6 7                     U           3113.4
    100

   111.2174
2+
  3226.3 5    D F              U           2323.0
    100

   903.307
2+
  3233.7 8                     U           2330.4
   3122.4
     78 40 
    100 36 


   903.307
   111.2174
2+
2+
  3244.6 8    D                              
  3248.8 3    D F              U           3137.6
    100

   111.2174
2+
  3262.6 8      F               V            
  3264.0 5    D                UV          3264.0
    100

     0.0
0+
  3266.4 5                     UV          3155.2
    100

   111.2174
2+
  3288.3 6                     U           2385.0
    100

   903.307
2+
  3290.0 4    D F              U           3290.0
    100

     0.0
0+
  3293.5 6                     U           3293.5
    100

     0.0
0+
  3304.3 4                     U           2401.4
    100

   903.307
2+
  3307.4 5    D                U           3196.2
    100

   111.2174
2+
  3314.4 6      F                            
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  3316.6 9    D                              
  3318.5 4                     U           3207.3
    100

   111.2174
2+
  3319.9 17           K                14+ 0.140 ps +25-10      762.9
    100
[E2]
  2557.0
12+
  3329.2 3    D                U           3218.0
    100

   111.2174
2+
  3341.4 5                     U           3230.2
    100

   111.2174
2+
  3345.1 2                     U           2223.7
    100

  1121.440
2+
  3349.1 6                     U           3237.9
    100

   111.2174
2+
  3352.6 6    D                U           3241.4
   3352.6
     68 23 
    100 29 


   111.2174
     0.0
2+
0+
  3364.7 20    D                              
  3369.9 9    D F                            
  3372.9 5                     U           3261.7
    100

   111.2174
2+
  3377.5 3    D                U           3266.3
    100

   111.2174
2+
  3384.3 6    D                U           3273.1
    100

   111.2174
2+
  3392.0 9      F              U           3280.8
   3392.0
     84 38 
    100 46 


   111.2174
     0.0
2+
0+
  3399.9 7      F                            
  3413.7 5                     U           3302.5
    100

   111.2174
2+
  3420.8 9      F                            
  3422.4 4               O     U      16 fs 10     3311.2
   3422.4
    100
     81 28 


   111.2174
     0.0
2+
0+
  3427.2 4    D                U           3316.0
    100

   111.2174
2+
  3441.3 20                    T             381
    702?
 
 


  3060.3
  2739.3


  3442.3 10      F                            
  3448.2 3    D                U           3337.0
    100

   111.2174
2+
  3455.6 7    D F              U           3344.4
   3455.6
    100 36 
     98 38 


   111.2174
     0.0
2+
0+
  3466.2 6      F        O     U      1 5.0 fs 12     3355
   3466.2
    100
     76 13 

D
   111.2174
     0.0
2+
0+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  3473.3 5                     U           3362.1
   3473.3
     94 42 
    100 45 


   111.2174
     0.0
2+
0+
  3488.2 4    D                U           3377.0
    100

   111.2174
2+
  3500.7 4    D                U           3389.5
   3500.7
     98 33 
    100 38 


   111.2174
     0.0
2+
0+
  3507.1 7      F        O            (1) 12 fs 4     3396
   3507 1 
     70 20 
    100

(D)
   111.2174
     0.0
2+
0+
  3516.2 6    D                U           3405.0
    100

   111.2174
2+
  3522.5 4                     U           3411.3
    100

   111.2174
2+
  3546.9 6    D                              
  3571.1 7    D          O            (1) 4.1 fs 17     3460
   3571 1 
    100
     56 12 

(D)
   111.2174
     0.0
2+
0+
  3618.1 5    D                U           3618.1
    100

     0.0
0+
  3633.1 7               O            1 4.7 fs 17     3522
   3633 1 
     45 12 
    100

D
   111.2174
     0.0
2+
0+
  3634.7 3    D                U           3523.5
   3634.7
    100 24 
     80 24 


   111.2174
     0.0
2+
0+
  3649.2 4    D                U           3538.0
    100

   111.2174
2+
  3654.2 3    D                U           3543.0
    100

   111.2174
2+
  3670.3 5                     U           3559.1
    100

   111.2174
2+
  3682.1 7               O            (1) 8 fs 5     3571
   3682 1 
     46 14 
    100

(D)
   111.2174
     0.0
2+
0+
  3684.5 4      F              U           3573.3
    100

   111.2174
2+
  3686.3 6    D                              
  3703.2 7    D                              
  3706.6 5                     U           3595.4
    100

   111.2174
2+
  3715.3 22                    T             274
    100

  3441.3

  3715.6 4    D                U           3604.4
    100

   111.2174
2+
  3743.9 6    D                              
  3770.6 5    D                              
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  3782.3 7    D                              
  3807.0 5    D                              
  3863.2 25                    T       (14-,15,17-) 188 ns 38      148
    100
(M1)
  3715.3

  3882.8 11    D                              
  3930.2 13    D                              
  3962.4 2    D                U           3851.2
   3962.4
     37 13 
    100 20 


   111.2174
     0.0
2+
0+
  3971.9 6    D                              
  4061.6 6    D                              
  4116.9 20           K                16+ 0.125 ps +32-13      797.0
    100
[E2]
  3319.9
14+
  4278.8 3                     U           4167.5
   4278.8
     51 18 
    100 25 


   111.2174
     0.0
2+
0+
  6543.5 2                     U           6543.5
    100

     0.0
0+
  6556.1 10               O                 5433
   6444
   6555
     28 17 
     64 32 
    100



  1121.440
   111.2174
     0.0
2+
2+
0+
  6580.8 2                     U           6580.8
    100

     0.0
0+
  6622.7 4                     U           6511.5
    100

   111.2174
2+
  6760.1 10               O            1+      6648
   6760
     71 25 
    100

M1
   111.2174
     0.0
2+
0+
    11.90E3 17                         Y  2.90 MeV 17       
    14.80E3 22                         Y  4.70 MeV 22       

E(level): From least-squares fit to adopted Eγ, except as noted, whenever γ’s are observed; from weighted average of values in reaction dataset(s) otherwise.

Back to top

Band Transitions:

E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - Kπ=0+ β band.
  1002.49 4  0+        
  1121.440 14  2+ 56 ps 7      757.328 24 
   1010.245 21 
   1121.422 24 
     70 4 
    100 4 
     38.0 20 
E2
M1+E2+E0
E2
   364.069
   111.2174
     0.0
4+
2+
0+
  1360.38 19  (4+)       238.8 6 
    996.3 2 
   1249.8 10 
    100 28 
   <500
    <44



  1121.440
   364.069
   111.2174
2+
4+
2+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - Kπ=0+ ground state band.
     0.0 0+ STABLE      
   111.2174 4  2+ 1.251 ns 12      111.2174 4 
    100
E2
     0.0
0+
   364.069 8  4+ 46.3 ps +25-13      252.845 10 
    100
E2
   111.2174
2+
   748.320 12  6+ 5.75 ps 18      384.250 12 
    100
E2
   364.069
4+
  1252.2 7  8+ 1.49 ps 3      503.6
    100
E2
   748.320
6+
  1860.8 9  10+ 0.570 ps +24-31      608.6
    100
E2
  1252.2
8+
  2557.0 14  12+ 0.265 ps +21-24      696.2
    100
E2
  1860.8
10+
  3319.9 17  14+ 0.140 ps +25-10      762.9
    100
[E2]
  2557.0
12+
  4116.9 20  16+ 0.125 ps +32-13      797.0
    100
[E2]
  3319.9
14+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - Kπ=2+ γ band.
   903.307 9  2+ 1.80 ps 4       
  1005.971 10  3+       641.915 20 
    894.760 19 
     12.40 18 
    100.0 14 
M1+E2
M1+E2
   364.069
   111.2174
4+
2+
  1133.850 10  4+ 2.30 ps 17      127.67 10 
    230.45 6 
    385.5
    769.778 17 
   1022.63 3 
      0.25 10 
      2.2 3 
     <0.83
    100 3 
     74 3 
E2(+M1)
E2
[E2]
M1+E2
E2
  1005.971
   903.307
   748.320
   364.069
   111.2174
3+
2+
6+
4+
2+
  1294.94 10  5+       930.87 10 
    100

   364.069
4+
  1476.9 5  6+ 1.82 ps 9      224.7
    343.1
    728.6
   1112.9
 
 
 
 
E2
E2
M1+E2
E2
  1252.2
  1133.850
   748.320
   364.069
8+
4+
6+
4+
  1925.4 7  8+        64.6
    448.7
    673
   1177.3
 
 
 
 
E2
E2
M1+E2
E2
  1860.8
  1476.9
  1252.2
   748.320
10+
6+
8+
6+
  2471.7 12  10+ 0.82 ps +15-4      546.3
    100
[E2]
  1925.4
8+
  3108.8 16  (12+) 0.35 ps +14-3      637.1?
    100
[E2]
  2471.7
10+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - Kπ=2- octupole band.
  1130.045 9  (2)-        
  1221.308 8  3- 45 ps 5       87.452 10 
     91.270 10 
    215.326 12 
    318.008 10 
    857.23 3 
   1110.08 3 
   1221.29 4 
      4.15 19 
      4.35 24 
     48.9 13 
    100.0 12 
      2.84 7 
      9.88 25 
      0.36 3 
E1
M1+E2
E1
E1+M2
E1
E1+M2
(E3)
  1133.850
  1130.045
  1005.971
   903.307
   364.069
   111.2174
     0.0
4+
(2)-
3+
2+
4+
2+
0+
  1345.37 3  (4-)       211.63 5 
    215.21 10 
    339.34 4 
    981.1 5 
     27 7 
   <232
    100 20 
     15 5 
[E1]

[E1]

  1133.850
  1130.045
  1005.971
   364.069
4+
(2)-
3+
4+
  1492 4  (5-)     
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 5 - sequence based on 2479 (8-,9,10+) LEVEL.
  2479.3 9  (8-,9,10+)        
  2739.3 14        260
 

  2479.3
(8-,9,10+)
  3060.3 17        321
    581?
 
 


  2739.3
  2479.3

(8-,9,10+)
  3441.3 20        381
    702?
 
 


  3060.3
  2739.3


E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 6 - K=0 band.
  1322.152 22  (0)+        
  1431.02 5  2+ > 5 ps     424.36 15 ?
   1319.84 6 
   1430.97 6 
      8.3 19 
    100 6 
     79 6 

M1+E2+E0
E2
  1005.971
   111.2174
     0.0
3+
2+
0+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 7 - Kπ=2+ (ν 3/2[512])+(ν 1/2[510]) band.
  1386.296 13  2+ 1.08 ps 10       
  1523.27 8  (3+)      1412.05 8 
    100

   111.2174
2+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 8 - Kπ=3+ (ν 7/2[503])-(ν 1/2[510]) band.
  1425.003 16  (3)+        
  1536.66 16  (4+)       112?
    191.0 5 
    315.4 4 
   1172.1 5 
   1425.54 20 
 
     12 5 
    100 24 
     83 24 
     56 5 

[E1]



  1425.003
  1345.37
  1221.308
   364.069
   111.2174
(3)+
(4-)
3-
4+
2+
  1676.42 12  (5+)       331.06 12 
    381.6 5 
   1312.2 4 
     74 17 
    100 52 
     61 17 



  1345.37
  1294.94
   364.069
(4-)
5+
4+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 9 - Kπ=5- (ν 11/2[615])-(ν 1/2[510]) band.
  1284.997 8  5- 8.33 µs 18       
  1637 4  (7-)     
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 10 - Kπ=7- (ν 11/2[615])+(ν 3/2[512]) band.
  1501.545 13  7- 2.35 ns 10       
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 11 - Kπ=6- (ν 11/2[615])+(ν 1/2[510]) band.
  1446.266 13  6-        

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Additional Gamma Data:















E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   111.2174 2+ 1.251 ns 12      111.2174 4 E2 2.57B(E2)(W.u.)=119.8 17, α=2.57
   364.069 4+ 46.3 ps +25-13      252.845 10 E2 0.1437B(E2)(W.u.)=166 +5-9, α=0.1437
   748.320 6+ 5.75 ps 18      384.250 12 E2 0.0418B(E2)(W.u.)=181 6, α=0.0418
   903.307 2+ 1.80 ps 4      539.220 25 E2 0.01744B(E2)(W.u.)=0.459 20, α=0.01744
2+ 1.80 ps 4      792.067 22 M1+E2-16.8 50.00733B(E2)(W.u.)=7.94 21, B(M1)(W.u.)=4.3E-5 3, α=0.00733
2+ 1.80 ps 4      903.282 19 E2 0.00554B(E2)(W.u.)=4.19 11, α=0.00554 8
  1002.49 0+       891.27 4 [E2] 0.00575α=0.00575
  1005.971 3+       641.915 20 M1+E2-8.5 80.01183α=0.01183 18
3+       894.760 19 M1+E2-13.2 90.00569α=0.00569 8
  1121.440 2+ 56 ps 7      757.328 24 E2 0.00803B(E2)(W.u.)=0.22 3, α=0.00803
2+ 56 ps 7     1010.245 21 M1+E2+E0 0.0139α=0.0139 10
2+ 56 ps 7     1121.422 24 E2 0.00359B(E2)(W.u.)=0.0166 23, α=0.00359
  1130.045 (2)-       124.067 12 (E1) 0.214α=0.214
(2)-       226.746 8 E1+M2+E3 0.059α=0.059 5
  1133.850 4+ 2.30 ps 17      127.67 10 E2(+M1)2.8 GT1.57B(E2)(W.u.)>86, B(M1)(W.u.)<0.0010, α=1.57 6
4+ 2.30 ps 17      230.45 6 E2 0.193B(E2)(W.u.)=75 12, α=0.193
4+ 2.30 ps 17      385.5[E2] 0.0414B(E2)(W.u.)=1.1 11, α=0.0414
4+ 2.30 ps 17      769.778 17 M1+E2-6.3 +20-320.0080B(E2)(W.u.)=8.0 7, B(M1)(W.u.)=0.00029 18, α=0.0080 4
4+ 2.30 ps 17     1022.63 3 E2 0.00431B(E2)(W.u.)=1.46 13, α=0.00431 6
  1221.308 3- 45 ps 5       87.452 10 E1 0.529B(E1)(W.u.)=0.000142 18, α=0.529
3- 45 ps 5       91.270 10 M1+E20.62 46.03B(E2)(W.u.)=190 30, B(M1)(W.u.)=0.0099 13, α=6.03
3- 45 ps 5      215.326 12 E1 0.0519B(E1)(W.u.)=0.000112 13, α=0.0519
3- 45 ps 5      318.008 10 E1+M2-0.020 100.0202B(E1)(W.u.)=7.1E-5 8, α=0.0202 5
3- 45 ps 5      857.23 3 E1 0.00238B(E1)(W.u.)=1.03E-7 12, α=0.00238 4
3- 45 ps 5     1110.08 3 E1+M2+0.08 30.00159B(E1)(W.u.)=1.64E-7 19, B(M2)(W.u.)=0.004 3, α=0.00159 10
3- 45 ps 5     1221.29 4 (E3) 0.00639B(E3)(W.u.)=5.9 9, α=0.00639 9
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
  1252.2 8+ 1.49 ps 3      503.6E2 0.0206B(E2)(W.u.)=185 5, α=0.0206
  1284.997 5- 8.33 µs 18       63.6890 14 E2 25.7B(E2)(W.u.)=0.0188 11, α=25.7
5- 8.33 µs 18      151.134 20 [E1] 0.1286B(E1)(W.u.)=1.37E-11 13, α=0.1286
5- 8.33 µs 18      279.0[M2] 1.111B(M2)(W.u.)=1.1×10-6 +12-11, α=1.111
5- 8.33 µs 18      381.82 14 [E3] 0.1579B(E3)(W.u.)=0.139 13, α=0.1579
5- 8.33 µs 18      536.674 15 E1+M2+E3 0.0068α=0.0068 1
5- 8.33 µs 18      920.933 21 E1+M2+E3 0.0030α=0.0030 2
5- 8.33 µs 18     1173.77 3 (E3) 0.00698B(E3)(W.u.)=0.00116 6, α=0.00698 10
  1322.152 (0)+       418.847 20 [E2] 0.0331α=0.0331
  1345.37 (4-)       211.63 5 [E1] 0.0542α=0.0542
(4-)       339.34 4 [E1] 0.0170α=0.0170 3
  1386.296 2+ 1.08 ps 10      380.34 4 M1+E21.3 +23-60.070B(E2)(W.u.)=13 +18-13, B(M1)(W.u.)=0.003 +6-3, α=0.070 22
2+ 1.08 ps 10      482.92 3 M1+E2 0.042α=0.042 20
2+ 1.08 ps 10     1275.11 3 M1+E2+3 GEB(E2)(W.u.)>0.98, B(M1)(W.u.)<0.00054
2+ 1.08 ps 10     1386.302 17 E2 0.00242B(E2)(W.u.)=0.66 7, α=0.00242 4
  1425.003 (3)+       203.56 10 [E1] 0.0599α=0.0599
(3)+       294.962 15 E1 0.0238α=0.0238
(3)+      1060.85 15 E2 0.00401α=0.00401 6
(3)+      1313.79 4 E2 0.00266α=0.00266 4
  1431.02 2+ > 5 ps    1430.97 6 E2 0.00230B(E2)(W.u.)<0.13, α=0.00230 4
  1446.266 6-       161.269 15 M1+E20.53 71.09α=1.09 3
  1476.9 6+ 1.82 ps 9      224.7E2 0.210B(E2)(W.u.)=2.5 +18-4, α=0.210
6+ 1.82 ps 9      343.1E2 0.0574B(E2)(W.u.)=179 +8-10, α=0.0574
6+ 1.82 ps 9      728.6M1+E2-4 +1-150.0095B(E2)(W.u.)=10.5 5, α=0.0095 8
6+ 1.82 ps 9     1112.9E2 0.00364B(E2)(W.u.)=1.13 7, α=0.00364 6
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
  1501.545 7- 2.35 ns 10       55.2790 8 M1+E20.051 174.68B(E2)(W.u.)=1.8 13, B(M1)(W.u.)=0.0052 7, α=4.68 12
7- 2.35 ns 10      216.547 12 E2 0.237B(E2)(W.u.)=3.09 23, α=0.237
  1536.66 (4+)       191.0 5 [E1] 0.0704α=0.0704 11
  1627.71 (1)+       241.46 6 [M1] 0.396α=0.396
  1699.04 (5)+      ≈162[M1] 1.202α=1.202
(5)+      ≈253[E1] 0.0347α=0.0347
(5)+       274.07 7 [E2] 0.1118α=0.1118
(5)+       354.0 2 [E1] 0.01544α=0.01544
(5)+       414.01 5 E1 0.01078α=0.01078
  1746.03 (6)+       244.44 6 [E1] 0.0378α=0.0378
(6)+       299.79 9 [E1] 0.0229α=0.0229
(6)+       461.06 5 E1 0.00848α=0.00848 12
  1860.8 10+ 0.570 ps +24-31      608.6E2 0.01309B(E2)(W.u.)=189 +11-8, α=0.01309
  1925.4 8+        64.6E2 24.0B(E2)(W.u.)=2.2 +22-13, α=24.0
8+       448.7E2 0.0276B(E2)(W.u.)=221 +14-9, α=0.0276
8+       673M1+E2-2.3 +42-40.0129B(E2)(W.u.)=11.0 +8-26, α=0.0129 10
8+      1177.3E2 0.00327B(E2)(W.u.)=0.63 +6-11, α=0.00327 5
  2056.41 (1)- 26 fs 5     1945.3 3 [E1] B(E1)(W.u.)=0.00062 16
(1)- 26 fs 5     2056.34 20 [E1] B(E1)(W.u.)=0.00040 9
  2097.7 (1)+ 31 fs 4     2097.6 4 [M1] B(M1)(W.u.)=0.043 10
  2471.7 10+ 0.82 ps +15-4      546.3[E2] 0.0169B(E2)(W.u.)=224 +12-41, α=0.0169
  2557.0 12+ 0.265 ps +21-24      696.2E2 0.00965B(E2)(W.u.)=208 +19-17, α=0.00965 14
  3108.8 (12+) 0.35 ps +14-3      637.1[E2] 0.01178B(E2)(W.u.)=245 +21-97, α=0.01178
  3319.9 14+ 0.140 ps +25-10      762.9[E2] 0.0079B(E2)(W.u.)=250 +18-44, α=0.0079
  3863.2 (14-,15,17-) 188 ns 38      148(M1) 1.552B(M1)(W.u.)=1.4×10-5 3, α=1.552
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
  4116.9 16+ 0.125 ps +32-13      797.0[E2] 0.00720B(E2)(W.u.)=225 +23-58, α=0.00720 10

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     0.00+ STABLE Δ<r2>(186W,184W)=0.085 4, Δ<r2>(184W,182W)=0.099 5 (1994Ji02). Δ<r2>(186W,184W)=0.084 7 (1988Au04).
E(level): Δ<r2>(186W,184W)=0.085 4, Δ<r2>(184W,182W)=0.099 5 (1994Ji02). Δ<r2>(186W,184W)=0.084 7 (1988Au04). Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
   111.21742+ 1.251 ns 12  μ=+0.578 14 (1984Al06), Q=-1.87 20 (1977RuZV)
Isomer shift δ<r2>/<r2> =+0.19×10-4 12 (1971HaWV), ≈+0.13×10-4 (1971WaYS). δ<r2>/δ<r2>(182W)=-0.8 7 (1971HaWV), -0.81 22 (1971WaYS).
E(level): Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
   364.0694+ 46.3 ps +25-13  μ=+1.17 9
Other T1/2: 40 ps 5 from RDM in Coulomb excitation.
E(level): Other T1/2: 40 ps 5 from RDM in Coulomb excitation. Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
   748.3206+ 5.75 ps 18  μ=+1.79 26
Other T1/2: 5.2 ps 6 from RDM in Coulomb excitation.
E(level): Other T1/2: 5.2 ps 6 from RDM in Coulomb excitation. Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
   903.3072+ 1.80 ps 4  μ=+0.25 8 (1985St18), Q=+0.1 +4-3 (1977Ob02,1977Ob01)
From g/g(364 level)=0.42 14 if g(364 level)=0.293 23. Method: transient field.
E(level): From g/g(364 level)=0.42 14 if g(364 level)=0.293 23. Method: transient field. From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1002.490+   Other E: 1003.3 4 in (p,t).
E(level): Other E: 1003.3 4 in (p,t). Kπ=0+ β band.
  1005.9713+   E(level): From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ.
  1121.4402+ 56 ps 7  E(level): Kπ=0+ β band.
  1130.045(2)-   E(level): Kπ=2- octupole band.
  1133.8504+ 2.30 ps 17  Other T1/2: 2.6 ps 3 from RDM in Coulomb excitation.
E(level): Other T1/2: 2.6 ps 3 from RDM in Coulomb excitation. From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1221.3083- 45 ps 5  E(level): Kπ=2- octupole band.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1252.28+ 1.49 ps 3  μ=+2.9 6 (1985St18)
μ: from g/g(364 level)=1.22 24 if g(364 level)=0.293 23; transient field.
E(level): μ: from g/g(364 level)=1.22 24 if g(364 level)=0.293 23; transient field. Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1284.9975- 8.33 µs 18  E(level): Kπ=5- (ν 11/2[615])-(ν 1/2[510]) band.
  1294.945+   E(level): From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ. From band assignment and arguments given.
  1322.152(0)+   XREF: V(1310).
E(level): From ε decay (169 d). K=0 band.
  1345.37(4-)   E(level): Kπ=2- octupole band.
Jπ(level): From band assignment and arguments given.
  1360.38(4+)   E(level): Kπ=0+ β band.
Jπ(level): From band assignment and arguments given.
  1386.2962+ 1.08 ps 10  E(level): Kπ=2+ (ν 3/2[512])+(ν 1/2[510]) band.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1425.003(3)+   E(level): Kπ=3+ (ν 7/2[503])-(ν 1/2[510]) band.
  1431.022+ > 5 ps E(level): From ε decay (169 d). K=0 band.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1446.2666-   E(level): Kπ=6- (ν 11/2[615])+(ν 1/2[510]) band.
  1476.96+ 1.82 ps 9  E(level): From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ. From band assignment and arguments given.
  1492(5-)   E(level): Kπ=2- octupole band.
Jπ(level): From band assignment and arguments given.
  1501.5457- 2.35 ns 10  E(level): From (n,n’γ). Kπ=7- (ν 11/2[615])+(ν 3/2[512]) band.
  1523.27(3+)   E(level): Kπ=2+ (ν 3/2[512])+(ν 1/2[510]) band.
Jπ(level): From band assignment and arguments given.
E(level)Jπ(level)T1/2(level)Comments
  1536.66(4+)   E(level): Kπ=3+ (ν 7/2[503])-(ν 1/2[510]) band.
Jπ(level): From band assignment and arguments given.
  1637(7-)   E(level): Kπ=5- (ν 11/2[615])-(ν 1/2[510]) band.
Jπ(level): From band assignment and arguments given.
  1661.09   XREF: V(1651).
  1676.42(5+)   E(level): Kπ=3+ (ν 7/2[503])-(ν 1/2[510]) band.
  1699.04(5)+   Possible configuration: (ν 7/2[503])+(ν 3/2[512]) (1984Bu37).
E(level): Possible configuration: (ν 7/2[503])+(ν 3/2[512]) (1984Bu37).
  1746.03(6)+   Possible configuration: (π 5/2[402])+(π 7/2[404]) (1984Bu37).
E(level): Possible configuration: (π 5/2[402])+(π 7/2[404]) (1984Bu37).
  1860.810+ 0.570 ps +24-31  E(level): Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
  1894.3(2+,3)   XREF: M(1901).
  1925.48+   E(level): From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ.
  2029.83(5-,6,7-)   XREF: M(2022).
  2056.41(1)- 26 fs 5  K=(0) based on branching in (γ,γ’).
E(level): K=(0) based on branching in (γ,γ’).
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2097.7(1)+ 31 fs 4  XREF: V(2090).
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2320.4(1-,2-)   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2349.9   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2390.3(1)+   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2395.8(1)+   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2404.20+   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2429.6   XREF: V(2420).
  2439.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2458.41 62 fs 12  E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2471.710+ 0.82 ps +15-4  E(level): From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ.
T1/2(level): From measured B(E2) in Coulomb excitation.
  2479.3(8-,9,10+)   E(level): sequence based on 2479 (8-,9,10+) LEVEL.
  2485.3   XREF: d(2486.7)F(2484.3).
  2509.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2520.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
E(level)Jπ(level)T1/2(level)Comments
  2546.11 65 fs 15  K=1 based on branching in (γ,γ’) (1993He15).
E(level): K=1 based on branching in (γ,γ’) (1993He15).
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2555.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2557.012+ 0.265 ps +21-24  E(level): Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
  2573.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2613.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2618.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2649.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2655.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2675.5   XREF: V(2688).
  2694.41   XREF: F(2693.4).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
  2706.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2719.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2732.5   XREF: d(2730.3).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2739.3   E(level): sequence based on 2479 (8-,9,10+) LEVEL. Energy may differ from value shown because it depends on unestablished order of γ cascade above the 2480 level in (136Xe,Xγ) (2004Wh02).
  2757.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2763.21 28 fs 6  XREF: d(2764.0).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2767.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2798.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2802.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2815.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2825.10+   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2836.9   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2870.5(0+)   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2892.11 31 fs 6  Other E: 2893 1 from (γ,γ’).
E(level): Other E: 2893 1 from (γ,γ’). From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2905.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
E(level)Jπ(level)T1/2(level)Comments
  2919.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2946.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2951.01 33 fs 6  K=1 based on branching in (γ,γ’).
E(level): K=1 based on branching in (γ,γ’). From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  2968.7(1+)   XREF: V(2960).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  2983.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3017.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3022.9   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3029.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3037.1(1+)   XREF: d(3035.5).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3053.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3060.3   E(level): sequence based on 2479 (8-,9,10+) LEVEL. Energy may differ from value shown because it depends on unestablished order of γ cascade above the 2480 level in (136Xe,Xγ) (2004Wh02).
  3068.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3071.21   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
  3084.01   Jπ(level): d γ to 0+ g.s..
  30881   Jπ(level): d γ to 0+ g.s..
  3104.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3108.8(12+) 0.35 ps +14-3  E(level): From β- decay. Kπ=2+ γ band.
Jπ(level): Definite Jπ is assigned to J|<10 members of γ band based on smooth progression of level spacings and independently established Jπ for 2+ member (903 keV) and E2 multipolarity for J=4 to 2, 230γ.
T1/2(level): From measured B(E2) in Coulomb excitation.
  31241   Jπ(level): d γ to 0+ g.s..
  31331   Jπ(level): d γ to 0+ g.s..
  3134.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3136.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3164.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3166.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3169.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3177.9   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
E(level)Jπ(level)T1/2(level)Comments
  3183.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3187.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3193.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3201.8   XREF: d(3200.3).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3224.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3226.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3233.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3248.8   XREF: d(3251.1).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3264.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3266.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3288.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3290.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3293.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3304.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3307.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3318.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3319.914+ 0.140 ps +25-10  E(level): Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
  3329.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3341.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3345.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3349.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3352.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3369.9   XREF: d(3371.5).
  3372.9   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3377.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
E(level)Jπ(level)T1/2(level)Comments
  3384.3   Other E: 3386.1 7 from (n,γ) E=thermal.
E(level): Other E: 3386.1 7 from (n,γ) E=thermal. From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3392.0   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3413.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3422.4 16 fs 10  E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  3427.2   XREF: d(3428.5).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3441.3   E(level): sequence based on 2479 (8-,9,10+) LEVEL. Energy may differ from value shown because it depends on unestablished order of γ cascade above the 2480 level in (136Xe,Xγ) (2004Wh02).
  3448.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3455.6   XREF: d(3454.3).
  3466.21 5.0 fs 12  E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  3473.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3488.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3500.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3507.1(1) 12 fs 4  K=(1) based on branching (1993He15).
E(level): K=(1) based on branching (1993He15).
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  3516.2   XREF: d(3517.8).
E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3522.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3571.1(1) 4.1 fs 17  K=(0) based on branching (1993He15).
E(level): K=(0) based on branching (1993He15).
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  3618.1   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3633.11 4.7 fs 17  K=1 based on branching (1993He15).
E(level): K=1 based on branching (1993He15).
Jπ(level): d γ to 0+ g.s..
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  3634.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3649.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3654.2   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3670.3   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3682.1(1) 8 fs 5  K=(1) based on branching (1993He15).
E(level): K=(1) based on branching (1993He15).
T1/2(level): Deduced from measured Γγ02/Γ in (γ,γ’)and adopted Γγ1γ0, assuming Γ=Γγ1γ0. Thus, deduced T1/2 will Be an upper limit if branches exist to levels other than the g.s. and the 111-keV level.
  3684.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3706.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
E(level)Jπ(level)T1/2(level)Comments
  3715.3   E(level): Energy may differ from value shown because it depends on unestablished order of γ cascade above the 2480 level in (136Xe,Xγ) (2004Wh02).
  3715.6   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  3962.4   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  4116.916+ 0.125 ps +32-13  E(level): Kπ=0+ ground state band.
Jπ(level): Definite Jπ is assigned to members of g.s. band based on smooth progression of level spacings and independently established Jπ for g.s. and E2 multipolarity for J=2 to 0 transition.
T1/2(level): From measured B(E2) in Coulomb excitation.
  4278.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  6543.5   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  6580.8   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  6622.7   E(level): From (n,γ) E=thermal: γγ coin. From (n,γ) E=thermal: γγ coin.
  6760.11+   Jπ(level): M1 γ to 0+.

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Additional Gamma Comments:

E(level)E(gamma)Comments
   111.2174   111.2174E(γ): From ε decay (35.4 d).
I(γ): From ε decay (35.4 d).
   364.069   252.845E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
   748.320   384.250E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
   903.307   539.220E(γ): from ε decay.
I(γ): weighted average of 0.80 4 in ε decay (169 d), 0.86 4 in ε decay (35.4 d), 0.77 10 in β- decay. Other Iγ: 1.3 3 in (n,γ) E=thermal; 2.2 2 for possibly contaminated γ in Coulomb excitation.
   792.067E(γ): from ε decay.
I(γ): weighted average of 98.9 22 in ε decay (169 d), 98.9 16 in ε decay (35.4 d), 97.1 24 in β- decay.
   903.282E(γ): from ε decay.
I(γ): weighted average from β- decay, ε decay (169 d) and ε decay (35.4 d).
  1005.971   641.915E(γ): from ε decay (35.4 d).
I(γ): weighted average of 12.1 5 in (n,γ) E=thermal, 10.8 20 in (n,n’γ), 12.42 22 in ε decay (35.4 d), 12.4 26 in (n,γ) E=7.6 eV, 12.5 4 in ε decay (169 d).
   894.760E(γ): from ε decay (35.4 d).
  1121.440   757.328E(γ): weighted average from ε decay and (n,γ) E=thermal.
I(γ): weighted average of 76 4 in (n,γ) E=thermal, 52 9 in (n,n’γ), 67 5 in ε decay (35.4 d), 66 14 in (n,γ) E=7.6 eV.
  1010.245E(γ): weighted average from ε decay and (n,γ) E=thermal.
  1121.422E(γ): weighted average from ε decay and (n,γ) E=thermal.
I(γ): weighted average of 38.8 28 in (n,γ) E=thermal, 22 9 in (n,n’γ), 38.5 28 in ε decay (35.4 d), 40 9 in (n,γ) E=7.6 eV.
  1130.045   124.067E(γ): weighted average of 124.071 15 in (n,γ) E=thermal and 124.060 20 in ε decay.
I(γ): weighted average of 9.7 10 in (n,γ) E=thermal, 10.1 5 in ε decay (169 d), 9.8 19 in ε decay (35.4 d), 7.6 5 in β- decay.
   226.746E(γ): weighted average of 226.743 12 in (n,γ) E=thermal and 226.748 10 in ε decay.
M(γ): δ(M2,E1)=0.0 4, δ(E3,E1)=+0.10 3 from ε decay.
  1018.83E(γ): weighted average of 1018.75 9 in β- decay, 1018.93 5 in ε decay and 1018.63 8 in (n,γ) E=thermal.
I(γ): weighted average of 4.9 5 in (n,γ) E=thermal, 6.4 7 in ε decay (169 d), 6.3 12 in ε decay (35.4 d), 5.7 5 in β- decay, 5.5 11 in (n,γ) E=7.6 eV.
  1133.850   127.67E(γ): from ε decay.
I(γ): based on ce(L2) data in ε decay; photons not observed.
   230.45E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
   385.5E(γ): from level energy difference.
I(γ): based on ce(K) data in ε decay; photons not observed.
   769.778E(γ): from ε decay.
  1022.63E(γ): from ε decay.
I(γ): weighted average of 70 5 in β- decay and 77 4 in ε decay (35.4 d).
  1221.308    87.452E(γ): from ε decay (169 d).
I(γ): weighted average of 4.1 6 in β- decay and 4.15 20 in ε decay (169 d).
    91.270E(γ): from ε decay (169 d).
I(γ): weighted average of 4.54 28 in β- decay, 4.42 20 in ε decay (169 d) and 3.3 5 in (n,γ) E=thermal.
   215.326E(γ): from ε decay (169 d).
I(γ): weighted average of 52 4 in (n,γ) E=thermal, 48.3 14 in ε decay (169 d), 50 5 in β- decay, 59 24 in (n,γ) E=7.6 eV.
   318.008E(γ): from ε decay (169 d).
   857.23E(γ): from ε decay (169 d).
I(γ): weighted average of 2.93 19 in β- decay and 2.82 8 in ε decay (169 d).
  1110.08E(γ): from ε decay (169 d).
I(γ): weighted average of 9.0 12 in (n,γ) E=thermal, 10.1 5 in ε decay (169 d), 9.8 3 in β- decay, 10.5 35 in (n,n’γ), 15 3 in (n,γ) E=7.6 eV.
  1221.29E(γ): from ε decay (169 d).
I(γ): weighted average of 0.41 6 in β- decay and 0.35 3 in ε decay (169 d).
E(level)E(gamma)Comments
  1282.71   161.27E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1284.997    63.6890E(γ): from ε decay (169 d).
I(γ): from β- decay.
   151.134E(γ): from ε decay (169 d).
I(γ): weighted average of 0.50 9 in β- decay and 0.60 6 in ε decay (169 d).
   279.0I(γ): from ε decay (169 d).
   381.82E(γ): from ε decay (169 d).
I(γ): weighted average of 0.65 7 in β- decay and 0.77 10 in ε decay (169 d).
   536.674E(γ): from ε decay (169 d).
I(γ): weighted average of 29 7 in (n,γ) E=thermal, 40.6 6 in ε decay (169 d), 39.9 14 in β- decay, 49 11 in (n,n’γ).
   920.933E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
M(γ): δ(M2,E1)=-0.14 4, δ(E3,E1)=-0.19 3
  1173.77E(γ): from ε decay (169 d).
I(γ): weighted average of 14.9 8 in ε decay (169 d), 14.9 11 in β- decay, 15 4 in (n,n’γ).
  1294.94   930.87E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1322.152   418.847I(γ): from (n,n’γ).
  1211.0E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1345.37   215.21E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
   981.1E(γ): from (n,n’γ).
I(γ): weighted average of 12 5 in (n,n’γ), 23 8 in β- decay.
  1360.38   238.8E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
   996.3E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1249.8E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1386.296   380.34E(γ): from ε decay (35.4 d).
   482.92I(γ): weighted average of 13.9 28 in (n,γ) E=7.6 eV, 11.8 25 in Coulomb excitation, 15.4 28 in ε decay (35.4 d), 19.5 20 in (n,γ) E=thermal.
M(γ): small E0 component suggested in ε decay.
  1275.11E(γ): From ε decay (35.4 d).
I(γ): From ε decay (35.4 d).
  1386.302I(γ): weighted average of 83 17 in (n,γ) E=7.6 eV, 70 7 in (n,n’γ), 86 4 in ε decay (35.4 d), 80 4 in (n,γ) E=thermal. Other Iγ: 84 in Coulomb excitation.
  1425.003  1060.85I(γ): weighted average of 13 3 in (n,γ) E=7.6 eV, 15 4 in β- decay, 11.9 23 in ε decay (35.4 d), 7 3 in (n,n’γ). Other: 36 4 in (n,γ) E=thermal.
  1313.79E(γ): from ε decay (35.4 d).
I(γ): weighted average of 57 11 in (n,γ) E=7.6 eV, 69 10 in β- decay, 51 4 in ε decay (35.4 d), 74 7 in (n,γ) E=thermal. Other Iγ: <43 in (n,n’γ).
  1446.266   161.269E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
  1476.9   224.7E(γ): from Coulomb excitation.
   343.1E(γ): from Coulomb excitation.
   728.6E(γ): from Coulomb excitation.
  1112.9E(γ): from Coulomb excitation.
E(level)E(gamma)Comments
  1501.545    55.2790E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
   216.547E(γ): From ε decay (169 d).
I(γ): From ε decay (169 d).
  1536.66   112E(γ): from β- decay.
   191.0E(γ): From β- decay.
I(γ): From β- decay.
   315.4E(γ): From β- decay.
I(γ): From β- decay.
  1172.1E(γ): From β- decay.
I(γ): From β- decay.
  1425.54E(γ): From β- decay.
I(γ): From β- decay.
  1570.2  1570.19I(γ): from (n,γ) E=7.6 eV.
  1581.46   296.46E(γ): From β- decay.
I(γ): From β- decay.
  1614.90  1614.6E(γ): γ reported only in (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  1661.09   526.8E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
   655.5E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
   757.6E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1550.4E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1676.42   331.06E(γ): From β- decay.
I(γ): From β- decay.
   381.6E(γ): From β- decay.
I(γ): From β- decay.
  1312.2E(γ): From β- decay.
I(γ): From β- decay.
  1683.4  1319.6E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1571.5E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1699.04   162E(γ): From β- decay.
I(γ): possibly overestimated; see comment on this γ in β- decay data set.. From β- decay.
   253E(γ): From β- decay.
I(γ): From β- decay.
   274.07E(γ): From β- decay.
I(γ): From β- decay.
   354.0E(γ): From β- decay.
I(γ): From β- decay.
   414.01E(γ): From β- decay.
I(γ): From β- decay.
M(γ): from 184Ta β- decay.
  1746.03   244.44E(γ): From β- decay.
I(γ): From β- decay.
   299.79E(γ): From β- decay.
I(γ): From β- decay.
   461.06E(γ): From β- decay.
I(γ): From β- decay.
M(γ): from 184Ta β- decay.
E(level)E(gamma)Comments
  1894.3   763.6E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1530.5E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1783.6E(γ): From (n,n’γ).
I(γ): From (n,n’γ).
  1925.4    64.6E(γ): from level energy difference.
   448.7E(γ): from Coulomb excitation.
   673E(γ): from 198Pt(136Xe,Xγ).
  1177.3E(γ): from Coulomb excitation.
  1995.4  1995.35M(γ): from γ anisotropy in (γ,γ’).
  2012.94   882.75E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1007.03E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  2029.83   528.28E(γ): From β- decay.
I(γ): From β- decay.
  2056.41  1945.3I(γ): from (γ,γ’).
  2056.34I(γ): from (γ,γ’).
  2104.20   782.2E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   982.44E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1098.28E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  2112.49   982.44E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  2168.19   743.19I(γ): from (n,γ) E=7.6 eV.
   782.2E(γ): Multiply placed with undivided intensity
I(γ): if I(1046γ)=34.. Multiply placed with undivided intensity
   846.21I(γ): if I(1046γ)=34.
  1046.4I(γ): from (n,γ) E=7.6 eV.
  2222.8  1319.5E(γ): from 183W(n,γ) 7.6 eV; doubly-placed γ.
  1858.7E(γ): from 183W(n,γ) 7.6 eV.
  2228.30   882.75E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1007.03E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1098.28E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
E(level)E(gamma)Comments
  2246.3  2135.1I(γ): from (n,γ) E=7.6 eV.
  2294.61  1173.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2294.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2320.4  1417.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2349.9  2349.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2389.14   359.2E(γ): From β- decay.
I(γ): From β- decay.
   807.68E(γ): From β- decay.
I(γ): From β- decay.
   942.9E(γ): From β- decay.
I(γ): From β- decay.
  1043.1E(γ): From β- decay.
I(γ): From β- decay.
  1093.8E(γ): From β- decay.
I(γ): From β- decay.
  1104.4E(γ): From β- decay.
I(γ): From β- decay.
  2390.3  2279.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2390.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2395.8   782.2E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1274.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2031.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2284.2I(γ): from (n,γ) E=thermal: γγ coin.
  2395.9I(γ): from (n,γ) E=thermal: γγ coin. Other: 37 14 in (n,γ) E=thermal.
  2404.2  1500.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2292.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2439.8  2328.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2458.4  2347.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2458.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
M(γ): from anisotropy in (γ,γ’).
  2471.7   546.3E(γ): from Coulomb excitation.
  2479.3   554E(γ): from 198Pt(136Xe,Xγ).
  1227E(γ): from 198Pt(136Xe,Xγ).
E(level)E(gamma)Comments
  2492.67  1046.4E(γ): From β- decay.
I(γ): From β- decay.
  1207.67E(γ): From β- decay.
I(γ): From β- decay.
  2509.4  1606.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2398.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2520.7  2409.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2555.0  2443.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2573.4  2462.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2613.3  1710.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2502.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2618.8  2618.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2630.7  2519.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2630.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2649.0  2537.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2655.8  2544.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2655.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2694.4  2694.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
M(γ): from γ anisotropy in (γ,γ’).
  2706.7  1803.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2595.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2706.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2719.8  1816.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2732.5  2621.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2739.3   260E(γ): from 198Pt(136Xe,Xγ).
  2757.6  2646.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2763.2  2397.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2651.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2763.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
M(γ): from γ anisotropy in (γ,γ’).
E(level)E(gamma)Comments
  2767.6  2656.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2767.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2798.2  2798.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2802.7  2691.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2813  2813E(γ): from (γ,γ’).
  2815.0  2450.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2703.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2825.1  1921.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2713.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2836.9  2725.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2870.5  1967.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2892.1  2780.9E(γ): from (n,γ) E=thermal: γγ coin.
I(γ): from (γ,γ’). Other: 25 13 from (n,γ) E=thermal: γγ coin.
  2892.1E(γ): from (n,γ) E=thermal: γγ coin.
I(γ): from (γ,γ’).
M(γ): from γ anisotropy in (γ,γ’).
  2905.8  2000.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2905.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2919.5  2808.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2946.8  2043.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2835.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2951.0  2839.7E(γ): from (n,γ) E=thermal: γγ coin.
I(γ): from (γ,γ’). Other: 34 21 from (n,γ) E=thermal: γγ coin.
  2951.0E(γ): from (n,γ) E=thermal: γγ coin.
I(γ): from (γ,γ’).
M(γ): from γ anisotropy in (γ,γ’).
  2968.7  2857.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2968.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2983.6  2983.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3017.1  3017.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3022.9  2911.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3022.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
E(level)E(gamma)Comments
  3029.0  2917.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3037.1  1915.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2925.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3037.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3053.4  2942.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3060.3   321E(γ): from 198Pt(136Xe,Xγ).
   581E(γ): from 198Pt(136Xe,Xγ).
  3068.5  2957.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3071.2  3071.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
M(γ): from γ anisotropy in (γ,γ’).
  3084.0  3084M(γ): from γ anisotropy in (γ,γ’).
  3088  3088M(γ): from γ anisotropy in (γ,γ’).
  3104.2  2200.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  2992.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3104.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3108.8   637.1E(γ): from Coulomb excitation.
  3124  3124M(γ): from γ anisotropy in (γ,γ’).
  3134.6  2231.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3136.8  3136.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3164.1  3052.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3164.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3166.2  3055.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3169.1  3057.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3177.9  3177.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3183.8  3072.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3187.1  3075.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
E(level)E(gamma)Comments
  3193.3  3082.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3201.8  3090.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3224.6  3113.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3226.3  2323.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3233.7  2330.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3122.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3248.8  3137.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3264.0  3264.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3266.4  3155.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3288.3  2385.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3290.0  3290.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3293.5  3293.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3304.3  2401.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3307.4  3196.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3318.5  3207.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3319.9   762.9E(γ): from Coulomb excitation.
  3329.2  3218.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3341.4  3230.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3345.1  2223.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3349.1  3237.9E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3352.6  3241.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3352.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3372.9  3261.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3377.5  3266.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3384.3  3273.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
E(level)E(gamma)Comments
  3392.0  3280.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3392.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3413.7  3302.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3422.4  3311.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3422.4E(γ): from (n,γ) E=thermal: γγ coin.
I(γ): weighted average of 71 39 from (n,γ) E=thermal: γγ coin, 91 41 from (γ,γ’).
  3427.2  3316.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3441.3   381E(γ): from 198Pt(136Xe,Xγ).
   702E(γ): from 198Pt(136Xe,Xγ).
  3448.2  3337.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3455.6  3344.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3455.6E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3466.2  3355E(γ): from level energy difference.
  3466.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): from (γ,γ’).. From (n,γ) E=thermal: γγ coin.
  3473.3  3362.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3473.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3488.2  3377.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3500.7  3389.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3500.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3507.1  3396I(γ): from (γ,γ’).
  3507M(γ): from γ anisotropy in (γ,γ’).
  3516.2  3405.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3522.5  3411.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3571.1  3571I(γ): from (γ,γ’).
M(γ): from γ anisotropy in (γ,γ’).
  3618.1  3618.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3633.1  3522I(γ): from (γ,γ’).
  3633M(γ): from γ anisotropy in (γ,γ’).
E(level)E(gamma)Comments
  3634.7  3523.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3634.7E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3649.2  3538.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3654.2  3543.0E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3670.3  3559.1E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3682.1  3682M(γ): from γ anisotropy in (γ,γ’).
  3684.5  3573.3E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3706.6  3595.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3715.3   274E(γ): from 198Pt(136Xe,Xγ) (2004Wh02
  3715.6  3604.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3863.2   148E(γ): from 198Pt(136Xe,Xγ).
M(γ): α(exp)=4.3 24 in (136Xe,Xγ) favors M1, but uncertainty is large and authors do not rule out E2 and E1 which are within 2σ of deduced α(exp).
  3962.4  3851.2E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  3962.4E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  4116.9   797.0E(γ): from Coulomb excitation.
  4278.8  4167.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  4278.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  6543.5  6543.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  6580.8  6580.8E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.
  6622.7  6511.5E(γ): From (n,γ) E=thermal: γγ coin.. From (n,γ) E=thermal: γγ coin.
I(γ): From (n,γ) E=thermal: γγ coin.

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