ADOPTED LEVELS, GAMMAS for 180Hf

Author: E.A. Mccutchan |  Citation: Nucl. Data Sheets 126, 151 (2015) |  Cutoff date: 1-Feb-2015 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-846 keV 3S(n)= 7387.76 keV 15S(p)= 8010 keV 5Q(α)= 1283.0 keV 18
Reference: 2012WA38

References:
  A  180Lu β- decay  B  180Ta ε decay
  C  180Hf IT decay (5.53 H)  D  178Hf(t,p)
  E  179Hf(n,γ) E=RES: AV  F  179Hf(n,γ) E=THERMAL
  G  179Hf(d,p)  H  180Hf(γ,γ’)
  I  180Hf(n,n’γ)  J  Coulomb Excitation
  K  180Hf(pol p,p’)  L  180Hf(136Xe,136Xe’γ)
  M  180Hf(238U,238U’γ) 

General Comments:

Other reactions:

174Yb(18O,12C): 2001Sa29

180Hf(γ,γ’); Mossbauer: 1966Ge08, 1968Sn02, 1970Ch27, 1972BoYJ, 1971Ko29, 1973Ka31, 1973PeZE, 1973Zi02, 1980Da12.

180Hf(e,e’): 1988Ma47.

180Hf(p,p’γ): 1966Ha48, 2011Ta22

180Hf(pol p,p): 1998Do16.

180Hf(p,γ), IAR: 1968Ca17.

180Hf(16O,16O’γ): 1973Kl08.

181Ta(γ,p): 1973DaYV, 1974AlYH, 1974Da08, 1987Da29, 2000Gr12, 2012Is03, 2012KaZV

181Ta(e,e’p): 1972ShYD, 1972ShYE, 1972SuZT, 1973SuZW, 1976Su01, 1976Su02, 1989Ge04, 1992Ga02, 1992Pa03.

181Ta(μ-,γ): 1971KeZQ.

181Hf(pol n,np): 1991WhZZ, 1992WhZY

181Ta(n,d): 2000Be62, 2002BeZR, 2007Sh15, 2008SeZT, 2009Lu09

181Ta(d,3He): 1996Fa06, 2009He15

181Ta(12C,13N), 181Ta(14N,15O): 1967Vo01.

183W(n,α): 1975Qa01, 2006Av01

Q-value: S(2n)=13486.75 17; S(2p)=14666 10 (2012Wa38)










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     0.0ABCDEFGHIJKLM 0+ STABLE      
    93.3240 20 ABCDEFGHIJKLM 2+ 1.519 ns 10      93.324 2 
   100
E2
     0.0
0+
   308.576 3 A CDEFG IJKLM 4+ 71 ps 10     215.252 2 
   100
E2
    93.3240
2+
   640.849 11   CDEFG IJKLM 6+ 10.0 ps 7     332.271 10 
   100
E2
   308.576
4+
  1084.006 15   C  FG IJKLM 8+ 2.18 ps 11     443.162 15 
   100
E2
   640.849
6+
  1101.9 5    D F  I     0+     1008.6 5 
   100
E2
    93.3240
2+
  1141.552 15   C  FG    LM 8- 5.53 h 2 
% IT = 99.69 8
% β- = 0.31 8
    57.538 17 
   500.697 15 
   100.0 20 
    29.6 8 
E1
M2+E3
  1084.006
   640.849
8+
6+
  1164.11 5      F            1070.7 5 
   100

    93.3240
2+
  1183.36 13 A       I KL  2+      875.3 3 
  1089.9 2 
  1183.2 8 
    19 4 
   100 7 
     3.3 8 

M1(+E2)

   308.576
    93.3240
     0.0
4+
2+
0+
  1192.60 6     EF        (6+)      551.75 6 
   884.7 7 
  <240
   100 70 


   640.849
   308.576
6+
4+
  1199.72 5 A  DEFG IJKL  2+ 0.51 ps 5     890.9 4 
  1106.00 15 
  1199.7 2 
     3.0 3 
    94 4 
   100 7 
[E2]
M1+E2
(E2)
   308.576
    93.3240
     0.0
4+
2+
0+
  1260.70 5     EF        (2+)       96.589 10 
   952.2 7 
  1167.0 10 ?
  1260.8 3 
     0.45 13 
    <1.3
    <3.7
   100 13 




  1164.11
   308.576
    93.3240
     0.0

4+
2+
0+
  1291.15 5 A   EF  I  L  3+      982.1 3 
  1197.8 3 
    19.9 12 
   100 7 
M1+E2
M1+E2
   308.576
    93.3240
4+
2+
  1300.37 6     EF  I K   (2+)     1300.5 4 
   100

     0.0
0+
  1315.7 5    D    I     0+     1222.4 5 
   100
E2
    93.3240
2+
  1354.1 3 ?        I     (1-,2-,3-)     1260.8 3 ?
   100
(E1)
    93.3240
2+
  1369.65 8     EF  I KL  (4+)      186.6 5 
   728.1 3 
  1061.0 3 
  1276.5 4 
 
     4 2 
   100 20 
     6 2 




  1183.36
   640.849
   308.576
    93.3240
2+
6+
4+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1374.36 4 A   EFG I  LM (4-) 0.57 µs 2     113.66 2 
  1065.77 5 
  1281.7 2 
     0.21 4 
   100 1 
     4.42 21 
[M2]
E1(+M2)
[M2]
  1260.70
   308.576
    93.3240
(2+)
4+
2+
  1381.58 5     EF        (3+,2+,4+)       81.21 2 
  1072.6 5 
  1288.7 5 
   100 7 
    93 67 
  <215



  1300.37
   308.576
    93.3240
(2+)
4+
2+
  1384.6 4            LM 9-      242.9 5 
   100

  1141.552
8-
  1409.26 7 A   EFG I  L  (4+)      209.51 7 
   768.1 6 
  1100.60 15 
  1316.4 3 
     1.6 12 
     4.9 16 
   100 5 
    70.0 21 


M1+E2
(E2)
  1199.72
   640.849
   308.576
    93.3240
2+
6+
4+
2+
  1409.36 19    D  G I     (2+)     1100.7 5 
  1316.1 8 
  1409.3
   100 50 
    29 15 
    12 3 
(E2)
(E2)

   308.576
    93.3240
     0.0
4+
2+
0+
  1420.6 10      F            1112
   100

   308.576
4+
  1429.82 5     EF  I     (3-)       55.449 3 ?
  1121.7 5 
  1336.8 10 
    47 11 
   100 17 
    61 25 



  1374.36
   308.576
    93.3240
(4-)
4+
2+
  1444 6           K   (5-)        
  1472.40 6     EF        (6+)      181.26 4 ?
   388.45 14 
   830.8 4 
  1163.9 10 
    24 12 
   100 16 
    72 20 
    52 28 




  1291.15
  1084.006
   640.849
   308.576
3+
8+
6+
4+
  1482.67 4    DEFG I  LM (5-)      108.308 2 
  1389.0 7 
   100 4 
     8 3 
M1+E2

  1374.36
    93.3240
(4-)
2+
  1484.48 6     EF  I          223.76 6 
  1391.1 10 
   100 70 
  <130


  1260.70
    93.3240
(2+)
2+
  1508 2       G I         1416.6 4 ?
   100

    93.3240
2+
  1525 4       G              
  1539.29 5     EF  I     (3-)      109.476 3 
   900.5?
  1231.9 5 
  1446.9 10 
   100 10 
 
    55 10 
   <21




  1429.82
   640.849
   308.576
    93.3240
(3-)
6+
4+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1557.33 22     EF  I  L  (5+)      266.1 7 
   915.8 4 
  1249.1 3 
     7 3 
    21 3 
   100 3 



  1291.15
   640.849
   308.576
3+
6+
4+
  1559.29 4      F    K   (4+)       76.624 3 
   177.71 3 
   258.90 3 ?
   100 10 
    35 6 
   <21
D


  1482.67
  1381.58
  1300.37
(5-)
(3+,2+,4+)
(2+)
  1597.53 11     EF  I     (4+,5+)      125.26 3 
   306.40 10 
   956.3 5 
  1288.7
    22 13 
    47 6 
    50 25 
   100 25 




  1472.40
  1291.15
   640.849
   308.576
(6+)
3+
6+
4+
  1607.67 5 A  D F  I     (4)+      177.86 3 
   198.3 2 
   233.33 8 
   316.50 3 
   407.94 2 
   424.4 2 
  1299.3 2 
  1514.4 2 
    12 3 
     2.57 13 
    14 3 
    30.0 9 
   100.0 19 
     2.8 4 
    31.3 13 
    20.0 20 

[E2]

E2
E2
E2
(E2)
[E2]
  1429.82
  1409.36
  1374.36
  1291.15
  1199.72
  1183.36
   308.576
    93.3240
(3-)
(2+)
(4-)
3+
2+
2+
4+
2+
  1609.38 4 A   EFG I     (3-)      235.024 6 
   409.61 8 
  1300.3
  1516.5 4 
   100.0 25 
     4.0 7 
    50 7 
     4.7 13 
M1+E2

(E1)

  1374.36
  1199.72
   308.576
    93.3240
(4-)
2+
4+
2+
  1613.09 4     EFG I  LM (6-)       53.800 1 
   129.7 5 
   238.1 5 
   243.40 10 
    41 4 
    58 3 
   100 8 
    13 6 




  1559.29
  1482.67
  1374.36
  1369.65
(4+)
(5-)
(4-)
(4+)
  1631.0 3          J LM 10+ 0.79 ps 4     547.3 5 
   100
E2
  1084.006
8+
  1633.43 17         I     (2+,3,4+)      224.1 8 
   342.3 3 
   433.7 2 
    45 20 
   100 25 
  <225


M1+E2
  1409.26
  1291.15
  1199.72
(4+)
3+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1637.33 14     EF  I     (2+)      255.34 3 ?
   346.25 14 
  1328.4 10 
  1543.8 5 
  1636.8 5 
    22 3 
   100 24 
    62 14 
    27 14 
   <38





  1381.58
  1291.15
   308.576
    93.3240
     0.0
(3+,2+,4+)
3+
4+
2+
0+
  1650 4       G   K   (3-)        
  1652.7 4            LM (10-)      268.1 5 
   511.2 5 
   100.0 16 
    10.5 16 


  1384.6
  1141.552
9-
8-
  1657.98 10      F     L  (6+)      288.4 5 
  1017.1 1 
  1350 1 
 
 
 

(D+Q)

  1369.65
   640.849
   308.576
(4+)
6+
4+
  1686.9 8       G I         1593.6 8 
   100

    93.3240
2+
  1700.84 4     EF  I  LM (6+) < 5 ns    141.55 1 
  1061.0 3 
  1391.1 10 
 
    78 5 
   100 13 



  1559.29
   640.849
   308.576
(4+)
6+
4+
  1709.1 5    DEF    K   (5-)     1400.5 5 
   100

   308.576
4+
  1724.47 25         I  L  (6+)      314.8 5 
  1082.8 5 
  1416.6 4 
    38 4 
    97.1 21 
   100.0 14 

(M1)
(E2)
  1409.26
   640.849
   308.576
(4+)
6+
4+
  1724.88 9     EF  I     (2+,3+,4+)      355.2 1 
   433.71 12 
  1416.7 3 
  1631.4 7 
    20 6 
    67 6 
   100 12 
    24 10 

M1+E2


  1369.65
  1291.15
   308.576
    93.3240
(4+)
3+
4+
2+
  1738.8 10      F             256.1
   100

  1482.67
(5-)
  1742.67 15 A       I K   (5)+      135.0 2 
   333.0 5 
   451.6 2 
  1434.1 2 ?
    90 13 
    60 7 
    45.8 21 
   100 10 
(M1)



  1607.67
  1409.26
  1291.15
   308.576
(4)+
(4+)
3+
4+
  1743.38 7      F  I K   (2+)      258.90 3 
   313.50 10 
   452.53 16 
  1650.2 7 
  1743.2 2 
    48 5 
    62 5 
    76 14 
    67 33 
   100 29 





  1484.48
  1429.82
  1291.15
    93.3240
     0.0

(3-)
3+
2+
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1756   D                 
  1765.1 3            LM (7-)      152.2 5 
   282.3 5 
    28 4 
   100 4 


  1613.09
  1482.67
(6-)
(5-)
  1787.7 10      FG       (6-)      303.2
   100

  1484.48

  1813.91 8     EF    K   (3-)      207.0
   254.61 9 
   274.6 1 
   331.1
  1721.0 7 
 
   100 5 
    84 11 
 
    37 32 





  1607.67
  1559.29
  1539.29
  1482.67
    93.3240
(4)+
(4+)
(3-)
(5-)
2+
  1818.60 4     EF        (5-)      205.51 1 
  1510.5 7 
   100 4 
     8 4 
M1

  1613.09
   308.576
(6-)
4+
  1820.97 17    D  G I     (3-)      208.5 3 ?
   446.8 3 
   451?
   529.0 3 
   621.3 5 
    75 30 
   100 25 
   <10
    75 20 
    90 25 





  1613.09
  1374.36
  1369.65
  1291.15
  1199.72
(6-)
(4-)
(4+)
3+
2+
  1828.4 10      F            1519.8
   100

   308.576
4+
  1839 6           K   3-        
  1862.4 10       G I         1553.8 10 
   100

   308.576
4+
  1889 3       G              
  1892.7 4            LM (7+)      192.0 5 
   100

  1700.84
(6+)
  1901.9 8            L      1261 1 
   100

   640.849
6+
  1904.0 7            L      1263 1 
   100

   640.849
6+
  1904.2 6    D    I     (1,2+)     1810.9 8 
  1904.1 8 
   100 43 
    57 29 


    93.3240
     0.0
2+
0+
  1909.72 9    DEFG       (4+,3)      302.06 8 
   536.2
   709.8 4 
   100 30 
 
    70 35 



  1607.67
  1374.36
  1199.72
(4)+
(4-)
2+
  1926.4 8       G I K   3-     1926.4 8 
   100

     0.0
0+
  1928.7 4            L  (7+)      371.2 5 
   844.9 5 
  1288 1 
    51 3 
     7.0 10 
   100 5 


M1
  1557.33
  1084.006
   640.849
(5+)
8+
6+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1931.9 10      F             322.5
   100

  1609.38
(3-)
  1937.2 10    D F             329.5
   100

  1607.67
(4)+
  1938.2 4            LM (8-)      173.0 5 
   325.3 5 
    26 4 
   100 7 


  1765.1
  1613.09
(7-)
(6-)
  1945.23 13      F        (2+)      385.84 14 
   654.9 6 
   745.4 4 
  1636.8 5 
  1853.0 7 ?
  1946.5 7 
    43 9 
    30 5 
    32 14 
   <32
    18 16 
   100 11 






  1559.29
  1291.15
  1199.72
   308.576
    93.3240
     0.0
(4+)
3+
2+
4+
2+
0+
  1945.7 5            LM (11-)      293.0 5 
   560.9 5 
   100.0 17 
    14 3 


  1652.7
  1384.6
(10-)
9-
  1948.6 8         I         1948.6 8 
   100

     0.0
0+
  1971 3       G              
  2022.6 10      FG           1714.0
   100

   308.576
4+
  2034.43 7     EF             551.75 6 
   743.4 2 
  1941.0 7 
   100 17 
  <100
    42 25 



  1482.67
  1291.15
    93.3240
(5-)
3+
2+
  2046.9 4            L  (8+)      388.1 5 
   962.9 5 
   100 9 
    53 6 


  1657.98
  1084.006
(6+)
8+
  2059.0 10      F             576.3
 

  1482.67
(5-)
  2075.3 8       G I K       1982.0 8 
   100

    93.3240
2+
  2078.34 12      F    K        465.25 11 
   703.3 5 ?
  1767.6 2 
  1986.7
   100 9 
    31 15 
   100 25 
 




  1613.09
  1374.36
   308.576
    93.3240
(6-)
(4-)
4+
2+
  2110.9 4            LM (8+)      218.3 5 
   409.9 5 
   100 4 
    17 4 


  1892.7
  1700.84
(7+)
(6+)
  2120.1 10 ?   D   H  K   1,2 0.46 ps 22    2120.1
   100
(D+Q)
     0.0
0+
  2133.6 4            L  (8+)      409.0 5 
  1050 1 
  1493 1 
    76 4 
    65.9 15 
   100.0 15 

(M1)
(E2)
  1724.47
  1084.006
   640.849
(6+)
8+
6+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2134.2 4            LM (9-)      196.2 5 
   369.1 5 
    16 4 
   100 16 


  1938.2
  1765.1
(8-)
(7-)
  2147.1 10      FG           1838.5
   100

   308.576
4+
  2151.48 6     EF             538.39 4 
   890.9 4 
   952.2 7 
  2058.3 17 
   100 6 
   <43
    <8
    15 9 




  1613.09
  1260.70
  1199.72
    93.3240
(6-)
(2+)
2+
2+
  2174.0 3      FG   K   3-      799.9 3 
  1864.8 5 
   100 21 
    26 16 


  1374.36
   308.576
(4-)
4+
  2183.1 3 A                 1874.5 3 
   100

   308.576
4+
  2196.91 22 A                  997.1 3 
  1888.4 3 
    15 5 
   100 17 


  1199.72
   308.576
2+
4+
  2201.0 10      F    K        826.6
   100

  1374.36
(4-)
  2215.9 10      FG           1575.0
   100

   640.849
6+
  2242.6 10      FG            868.2
   100

  1374.36
(4-)
  2246.1 10      F            1937.5
   100

   308.576
4+
  2252.9 10      F    K        643.5
   100

  1609.38
(3-)
  2261.8 7      F    K       1620.5
  1953.6
 
 


   640.849
   308.576
6+
4+
  2262.3 5            LM (12-)      316.9 5 
   610.0 5 
   100 4 
    37 4 


  1945.7
  1652.7
(11-)
(10-)
  2271 3       G              
  2273.0 8            L       371.1 5 
  1189 1 
    11 3 
   100 6 


  1901.9
  1084.006

8+
  2274.3 4          J L  12+ 0.37 ps 3     643.4 5 
   100
(E2)
  1631.0
10+
  2276.4 10      F             667.0
   100

  1609.38
(3-)
  2293.0 10      F    K       1984.4
   100

   308.576
4+
  2300.9 7            L       396.8 5 
  1217 1 
 
 


  1904.0
  1084.006

8+
  2303   D                 
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2316.71 10     EF        (4-,5-)      282.28 8 
   703.3 5 
   707.3 5 
  2008.3 17 
   100 14 
    26 14 
    21 12 
    36 14 




  2034.43
  1613.09
  1609.38
   308.576

(6-)
(3-)
4+
  2320.8 7      F             946.6
  2012.1
 
 


  1374.36
   308.576
(4-)
4+
  2334.98 21      F             725.6 2 
   100

  1609.38
(3-)
  2341.4 10      F            2032.8
   100

   308.576
4+
  2348   D                 
  2350.4 5            LM (10-)      216.2 5 
   412.2 5 
 
 


  2134.2
  1938.2
(9-)
(8-)
  2351.8 5            LM (9+)      241.0 5 
   459.0 5 
   100 5 
    42 5 


  2110.9
  1892.7
(8+)
(7+)
  2369.0 10      F             759.6
   100

  1609.38
(3-)
  2377.7 10        H      1 0.29 ps 7    2377.7
   100
D
     0.0
0+
  2389.0 6         I     (1,2+)     2295.2 8 
  2389.4 8 
   100 67 
   100 67 


    93.3240
     0.0
2+
0+
  2391 6           K   4+        
  2398.9 5            L  (9+)      470.4 5 
   767 1 
  1315 1 
    48 5 
 
   100 5 


(M1)
  1928.7
  1631.0
  1084.006
(7+)
10+
8+
  2413.5 10      F            2104.9
   100

   308.576
4+
  2425.2 12             M (10+) < 2 ns    481 3 
   771.7 22 
  1040.8 15 
   ≈10
  ≈100
   ≈20
[E1]
[E1]
[E1]
  1945.7
  1652.7
  1384.6
(11-)
(10-)
9-
  2447 6           K   5-        
  2465.7 10      F             856.3
   100

  1609.38
(3-)
  2472.4 7      F             865.2
  2163.4
 
 


  1607.67
   308.576
(4)+
4+
  2477.11 10      F        (4,5)      160.40 3 
   864.2 3 
   917.4 5 
   937.8 5 
  1185.8 6 
  1835.8 10 
    48 12 
    56 16 
   100 32 
    64 32 
    48 24 
    28 24 






  2316.71
  1613.09
  1559.29
  1539.29
  1291.15
   640.849
(4-,5-)
(6-)
(4+)
(3-)
3+
6+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2482 6           K   3-        
  2485.5 5             M 12+ 0.94 µs 11     223.3 2 
   539.5 3 
   832.4 15 
  1101.1 7 
     2.8 3 
   100 5 
     1.3 5 
    37 3 
[E1]
[E1]
[M2]
[E3]
  2262.3
  1945.7
  1652.7
  1384.6
(12-)
(11-)
(10-)
9-
  2493.5 7        H      1 62 fs 13    2400.3
  2493.3
   100
    35 17 

D
    93.3240
     0.0
2+
0+
  2504.8 10      F            2196.2
   100

   308.576
4+
  2532.8 4            L  (10+)      485.2 5 
   902.4 5 
   100 21 
    71 7 


  2046.9
  1631.0
(8+)
10+
  2533 20           K   3-        
  2537.4 10             M (14+) > 10 µs     52
   100
[E2]
  2485.5
12+
  2549.4 10      F            1175.0
   100

  1374.36
(4-)
  2561.2 7      F            1079.4
  1185.9
 
 


  1482.67
  1374.36
(5-)
(4-)
  2582.5 7        H      1 10 fs 3    2489.3
  2582.3
    61 27 
   100

D
    93.3240
     0.0
2+
0+
  2588.0 7            LM (11-)      453.8 5 
   100

  2134.2
(9-)
  2591 20           K   4+        
  2603.1 6            L  (13-)      340.6 5 
   657.5 5 
   100 7 
    43 7 


  2262.3
  1945.7
(12-)
(11-)
  2613.9 4            L  (10+)      480.3 5 
   983.0 5 
  1530 1 
   100 8 
    34 6 
    89 8 


(E2)
  2133.6
  1631.0
  1084.006
(8+)
10+
8+
  2614.8 6            LM (10+)      263.0 5 
   504.0 5 
   100 9 
    64 9 


  2351.8
  2110.9
(9+)
(8+)
  2617.2 7        H      1 9.5 fs 8    2523.9
  2617.2
   100
    49 7 

D
    93.3240
     0.0
2+
0+
  2623.6 8             M (13+)      138
   100

  2485.5
12+
  2680.04 14      F        4+,5-      363.32 10 
   979.7 7 
  1140.8 8 
  1488.0 10 
    76 14 
  <104
   100 29 
    29 24 




  2316.71
  1700.84
  1539.29
  1192.60
(4-,5-)
(6+)
(3-)
(6+)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2682.4 7      F            1073.3
  1199.4
 
 


  1609.38
  1482.67
(3-)
(5-)
  2706.2 10      F            2397.6
   100

   308.576
4+
  2712.5 7        H      1 12.4 fs 24    2619.3
  2712.3
    56 11 
   100

D
    93.3240
     0.0
2+
0+
  2730.7 4            L       456.7 5 
   596.7 5 
  1098 1 
    47 3 
    19 3 
   100 7 


(D+Q)
  2273.0
  2133.6
  1631.0

(8+)
10+
  2741.5 5      F            1131.0
  1262.0
  1367.7
  2430.1
 
 
 
 




  1609.38
  1482.67
  1374.36
   308.576
(3-)
(5-)
(4-)
4+
  2771.9 10      F            1397.5
   100

  1374.36
(4-)
  2784.0 10      F            1301.3
   100

  1482.67
(5-)
  2796.0 7            L       495.1 5 
  1165 1 
 
 


  2300.9
  1631.0

10+
  2797.1 6      F            1316.9
  1419.4
  2489.4
 
 
 



  1482.67
  1374.36
   308.576
(5-)
(4-)
4+
  2806.0 10      F            1431.6
   100

  1374.36
(4-)
  2807.0 6             M (14+)      183.4 6 
   270.0 20 
   321.5 3 
    57 11 
    41 23 
   100 16 



  2623.6
  2537.4
  2485.5
(13+)
(14+)
12+
  2812.4 10        H      1 0.16 ps 3    2812.4
   100

     0.0
0+
  2839.2 5      F            1231.6
  1356.4
  1469.6 7 
 
 
 



  1607.67
  1482.67
  1369.65
(4)+
(5-)
(4+)
  2848.4 7            LM (12-)      498.0 5 
   100

  2350.4
(10-)
  2850.3 6      F            1239.7
  1365.4
  2543.2
 
 
 



  1609.38
  1484.48
   308.576
(3-)

4+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2858.7 7      F            1249.3
  2550.2
 
 


  1609.38
   308.576
(3-)
4+
  2873.4 10      F            2564.8
   100

   308.576
4+
  2879.8 10        H      1,2 0.25 ps 7    2879.8
   100
(D+Q)
     0.0
0+
  2892.3 7        H      1 20.0 fs 21    2799.1
  2892.1
   100
    47 11 

D
    93.3240
     0.0
2+
0+
  2896.9 6            LM (11+)      282.0 5 
   545.0 5 
    80 20 
   100 20 


  2614.8
  2351.8
(10+)
(9+)
  2913.6 10      F            2272.7
   100

   640.849
6+
  2948.0 7        H      1 13.0 fs 9    2854.8
  2947.8
   100
    40 5 

D
    93.3240
     0.0
2+
0+
  2960.7 6            L  (11+)      561.7 5 
  1330 1 
    48 5 
   100 10 


  2398.9
  1631.0
(9+)
10+
  2965.4 6            L  (14-)      362.3 5 
   703.0 5 
   100 17 
    83 17 


  2603.1
  2262.3
(13-)
(12-)
  2993.1 10        H      1 47 fs 5    2993.1
   100
D
     0.0
0+
  3000.1 10      F            2691.5
   100

   308.576
4+
  3005.4 5            L  14+      730.9 5 
   100
(E2)
  2274.3
12+
  3011.3 7        H      1 30 fs 6    2918.1
  3011.1
   100
    80 26 

D
    93.3240
     0.0
2+
0+
  3022.6 6      F            1540.5
  2711.5
  2931.1
 
 
 



  1482.67
   308.576
    93.3240
(5-)
4+
2+
  3049.7 6      F            1437.4
  2406.9
  2742.1
 
 
 



  1613.09
   640.849
   308.576
(6-)
6+
4+
  3058.6 10      F            2750.0
   100

   308.576
4+
  3068.8 7        H      1 14.1 fs 13    2975.6
  3068.6
   100
    77 12 

D
    93.3240
     0.0
2+
0+
  3081.5 10        H      1 0.17 ps 5    3081.5
   100
D
     0.0
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3083.6 10      F            2442.7
   100

   640.849
6+
  3086.0 10        H      1 0.14 ps 3    3086.0
   100
D
     0.0
0+
  3089.8 7      F            1715.4
  2781.2
 
 


  1374.36
   308.576
(4-)
4+
  3100.8 10      F            2792.2
   100

   308.576
4+
  3100.8 9             M (15+)      293.9 8 
   100

  2807.0
(14+)
  3110.6 5            L  (12+)      577.8 5 
   836.3 5 
    60 30 
   100 14 


  2532.8
  2274.3
(10+)
12+
  3123.4 8            LM (13-)      535.4 5 
   100

  2588.0
(11-)
  3124.1 10      F            2815.5
   100

   308.576
4+
  3125.6 7        H      1 29 fs 3    3032.4
  3125.4
   100
    33 9 

D
    93.3240
     0.0
2+
0+
  3129.2 5            L  (12+)      515.4 5 
  1498 1 
    61 7 
   100 7 

(E2)
  2613.9
  1631.0
(10+)
10+
  3131.7 7      F            1521.7
  2823.8
 
 


  1609.38
   308.576
(3-)
4+
  3150.7 7        H      1 10 fs 4    3057.5
  3150.5
    33 12 
   100

D
    93.3240
     0.0
2+
0+
  3153.1 10      F            1670.4
   100

  1482.67
(5-)
  3163.2 10      F            2854.6
   100

   308.576
4+
  3174.4 10      F            3081.0
   100

    93.3240
2+
  3184.0 7      F            1809.9
  2542.9
 
 


  1374.36
   640.849
(4-)
6+
  3191.4 7            LM (12+)      294.5 5 
   576.7 5 
 
 


  2896.9
  2614.8
(11+)
(10+)
  3200.4 10      F            2891.8
   100

   308.576
4+
  3215.3 10      F            2906.7
   100

   308.576
4+
  3253.1 10      F            3159.7
   100

    93.3240
2+
  3254.3 7        H      1 32 fs 8    3161.1
  3254.1
   100
    91 35 

D
    93.3240
     0.0
2+
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3257.7 10      F            2616.8
   100

   640.849
6+
  3300.4 5            L       569.8 5 
   686.8 5 
  1026 1 
  1669 1 
   100 11 
    50 11 
 
 




  2730.7
  2613.9
  2274.3
  1631.0

(10+)
12+
10+
  3303.7 10      F            1694.3
   100

  1609.38
(3-)
  3317.0 5      F            1836.6
  1947.1
  2672.9
  3009.6
 
 
 
 




  1482.67
  1369.65
   640.849
   308.576
(5-)
(4+)
6+
4+
  3330.1 10        H      1 95 fs 20    3330.1
   100
D
     0.0
0+
  3330.3 7      F            1956.6
  3021.0
 
 


  1374.36
   308.576
(4-)
4+
  3338.7 10      F            1729.3
   100

  1609.38
(3-)
  3350.2 7            L  (15-)      384.8 5 
   747.2 5 
   100 30 
  ≈100


  2965.4
  2603.1
(14-)
(13-)
  3384.0 9            L       588.0 5 
  1110 1 ?
 
 


  2796.0
  2274.3

12+
  3417.2 5      F            1804.2
  1936.3
  2775.9
  3107.2
 
 
 
 




  1613.09
  1482.67
   640.849
   308.576
(6-)
(5-)
6+
4+
  3428.7 10      F            1946.0
   100

  1482.67
(5-)
  3432.1 9            L  (14-)      583.7 5 
 

  2848.4
(12-)
  3442.9 10      F            3134.3
   100

   308.576
4+
  3446.9 9             M (16+)      346.1 1 
   639.4 15 
   100 40 
    80 30 


  3100.8
  2807.0
(15+)
(14+)
  3468.6 10      F            2827.7
   100

   640.849
6+
  3483.4 10      F            2109.0
   100

  1374.36
(4-)
  3489.2 10      F            3180.6
   100

   308.576
4+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3499.9 10      F            3191.3
   100

   308.576
4+
  3506.8 10        H      1,2 77 fs 16    3506.8
   100
(D+Q)
     0.0
0+
  3515.7 10      F            3207.1
   100

   308.576
4+
  3526.7 10      F            3218.1
   100

   308.576
4+
  3528.9 13             M      427.9 16 
   722.0 15 
 
 


  3100.8
  2807.0
(15+)
(14+)
  3559.6 7        H      1 12.8 fs 23    3466.4
  3559.4
   100
    95 29 

D
    93.3240
     0.0
2+
0+
  3569.5 7        H      1 30 fs 6    3476.3
  3569.3
   100
    39 19 

D
    93.3240
     0.0
2+
0+
  3584.2 7        H      1 7.3 fs 19    3491.0
  3584.0
    66 18 
   100

D
    93.3240
     0.0
2+
0+
  3592.5 7        H      1 16 fs 4    3499.3
  3592.3
   100
   101 44 

D
    93.3240
     0.0
2+
0+
  3596.5 10      F            2222.1
   100

  1374.36
(4-)
  3597.5 10             M (18-) 90 µs 10     150.6 5 
   100
(M2)
  3446.9
(16+)
  3606.5 7            L  (13+)      645.8 5 
  1332 1 
    83 17 
   100 17 


  2960.7
  2274.3
(11+)
12+
  3615.1 7        H      1 13.0 fs 13    3521.9
  3614.9
   100
    16 6 

D
    93.3240
     0.0
2+
0+
  3625.4 10      F            3316.8
   100

   308.576
4+
  3627.1 10        H      1 51 fs 12    3627.1
   100
D
     0.0
0+
  3640.7 10      F            3332.1
   100

   308.576
4+
  3653.8 10      F            3560.4
   100

    93.3240
2+
  3672.2 7      F            3363.4
  3579.0
 
 


   308.576
    93.3240
4+
2+
  3678.1 6            L  (14+)      548.9 5 
   673
  1404 1 
 
 
 



  3129.2
  3005.4
  2274.3
(12+)
14+
12+
  3681.2 10      F            3372.6
   100

   308.576
4+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3734.0 10            L  (15-)      610.6 5 
   100

  3123.4
(13-)
  3751.3 7      F            3442.4
  3658.3
 
 


   308.576
    93.3240
4+
2+
  3755.4 7            L  (16-)      405.4 5 
   790.0 5 
 
 


  3350.2
  2965.4
(15-)
(14-)
  3766.6 7        H      1 10.0 fs 14    3673.4
  3766.4
   100
    43 13 

D
    93.3240
     0.0
2+
0+
  3774.3 7        H      1 4.7 fs 19    3681.1
  3774.1
    35 14 
   100

D
    93.3240
     0.0
2+
0+
  3781.5 6            L  (14+)      670.8 5 
   776.1 5 
 
 


  3110.6
  3005.4
(12+)
14+
  3786.2 7        H      1 8.6 fs 18    3693.0
  3786.0
   100
    99 35 

D
    93.3240
     0.0
2+
0+
  3804.1 7        H      1 16 fs 3    3710.9
  3803.9
   100
    41 16 

D
    93.3240
     0.0
2+
0+
  3813.5 7            L  16+      807.9 5 
   100
(E2)
  3005.4
14+
  3818.0 10        H      1 40 fs 8    3818.0
 
D
     0.0
0+
  3829.6 10        H      1 25 fs 5    3829.6
 
D
     0.0
0+
  3836.5 7        H      1 14.7 fs 24    3743.3
  3836.3
   100
    27 8 

D
    93.3240
     0.0
2+
0+
  3848.3 6      F            3208.6
  3539.7
  3753.6
 
 
 



   640.849
   308.576
    93.3240
6+
4+
2+
  3851.7 7        H      1 7.0 fs 14    3758.5
  3851.5
   100
    85 30 

D
    93.3240
     0.0
2+
0+
  3855.6 10      F            2246.2
   100

  1609.38
(3-)
  3862.2 10        H      1,2 69 fs 22    3862.2
   100
(D+Q)
     0.0
0+
  3869.2 7      F            2388.0
  3226.9
 
 


  1482.67
   640.849
(5-)
6+
  3880.3 10      F            3239.4
   100

   640.849
6+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3889.4 10        H      1 12.6 fs 16    3889.4
   100
D
     0.0
0+
  3908.5 10      F            3267.6
   100

   640.849
6+
  3926.5 7      F            2317.7
  3617.2
 
 


  1609.38
   308.576
(3-)
4+
  3928.0 10        H      1 22 fs 4    3928.0
   100
D
     0.0
0+
  3948.1 10        H      1 25 fs 6    3948.1
   100
D
     0.0
0+
  3957.6 7      F            3648.6
  3864.6
 
 


   308.576
    93.3240
4+
2+
  3967.8 10        H      1 18 fs 4    3967.8
   100
D
     0.0
0+
  3971.3 6            L       671.0 5 
   965.7 5 
 
 


  3300.4
  3005.4

14+
  3975.3 7      F            2489.5
  3667.9
 
 


  1484.48
   308.576

4+
  3978.4 7        H      1 1.8 fs 9    3885.2
  3978.2
    28 14 
   100

D
    93.3240
     0.0
2+
0+
  3987.6 10      F            2504.9
   100

  1482.67
(5-)
  3992.3 10      F            2382.9
   100

  1609.38
(3-)
  4003.1 7      F            2627.9
  3695.4
 
 


  1374.36
   308.576
(4-)
4+
  4091.3 10            L  (16-)      659.2 5 
   100

  3432.1
(14-)
  4137.7 10      F            2763.3
   100

  1374.36
(4-)
  4180.1 8            L  (17-)      424.8 5 
   829.8 5 
 
 


  3755.4
  3350.2
(16-)
(15-)
  4270.2 7            L  (16+)      456
   592.3 5 
  1265
 
 
 



  3813.5
  3678.1
  3005.4
16+
(14+)
14+
  4323.5 12            L  (15+)      717
   100

  3606.5
(13+)
  4331.9 10      F            2722.5
   100

  1609.38
(3-)
  4356.0 10      F            2746.6
   100

  1609.38
(3-)
  4413.1 11            L  (17-)      679.1 5 
   100

  3734.0
(15-)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  4423.1 7      F            2813.9
  4329.6
 
 


  1609.38
    93.3240
(3-)
2+
  4682.0 9            L  18+      868.5 5 
   100

  3813.5
16+
  4808.5 7      F            3201.2
  4499.5
 
 


  1607.67
   308.576
(4)+
4+
  4852.8 7      F            3245.2
  4759.3
 
 


  1607.67
    93.3240
(4)+
2+
  4916.3 5      F            3437.3
  3541.9
  4272.8
  4606.5
 
 
 
 




  1482.67
  1374.36
   640.849
   308.576
(5-)
(4-)
6+
4+
  4924.2 12            L  (18+)      654
   100

  4270.2
(16+)
  4965.4 6      F            3479.3
  3590.4
  4659.0
 
 
 



  1484.48
  1374.36
   308.576

(4-)
4+
  5048.3 7      F            3566.6
  4953.8
 
 


  1482.67
    93.3240
(5-)
2+
  5057.6 6      F            3576.0
  4748.5 6 
 
 


  1482.67
   308.576
(5-)
4+
  5554.0 13            L  20+      872
   100

  4682.0
18+
  5629.2 16            L  (20+)      705
   100

  4924.2
(18+)
  5666.0 13            L  (20+)      984
   100

  4682.0
18+

E(level): From least-squares fit to Eγ, by evaluator.

T1/2(level): From 180Hf(γ,γ’), except where noted.

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+ GS ROTATIONAL band
     0.0 0+ STABLE      
    93.3240 20  2+ 1.519 ns 10      93.324 2 
   100
E2
     0.0
0+
   308.576 3  4+ 71 ps 10     215.252 2 
   100
E2
    93.3240
2+
   640.849 11  6+ 10.0 ps 7     332.271 10 
   100
E2
   308.576
4+
  1084.006 15  8+ 2.18 ps 11     443.162 15 
   100
E2
   640.849
6+
  1631.0 3  10+ 0.79 ps 4     547.3 5 
   100
E2
  1084.006
8+
  2274.3 4  12+ 0.37 ps 3     643.4 5 
   100
(E2)
  1631.0
10+
  3005.4 5  14+      730.9 5 
   100
(E2)
  2274.3
12+
  3813.5 7  16+      807.9 5 
   100
(E2)
  3005.4
14+
  4682.0 9  18+      868.5 5 
   100

  3813.5
16+
  5554.0 13  20+      872
   100

  4682.0
18+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - 2 quasiparticle band on 1374 keV (4-)
  1374.36 4  (4-) 0.57 µs 2       
  1482.67 4  (5-)      108.308 2 
  1389.0 7 
   100 4 
     8 3 
M1+E2

  1374.36
    93.3240
(4-)
2+
  1613.09 4  (6-)       53.800 1 
   129.7 5 
   238.1 5 
   243.40 10 
    41 4 
    58 3 
   100 8 
    13 6 




  1559.29
  1482.67
  1374.36
  1369.65
(4+)
(5-)
(4-)
(4+)
  1765.1 3  (7-)      152.2 5 
   282.3 5 
    28 4 
   100 4 


  1613.09
  1482.67
(6-)
(5-)
  1938.2 4  (8-)      173.0 5 
   325.3 5 
    26 4 
   100 7 


  1765.1
  1613.09
(7-)
(6-)
  2134.2 4  (9-)      196.2 5 
   369.1 5 
    16 4 
   100 16 


  1938.2
  1765.1
(8-)
(7-)
  2350.4 5  (10-)      216.2 5 
   412.2 5 
 
 


  2134.2
  1938.2
(9-)
(8-)
  2588.0 7  (11-)      453.8 5 
   100

  2134.2
(9-)
  2848.4 7  (12-)      498.0 5 
   100

  2350.4
(10-)
  3123.4 8  (13-)      535.4 5 
   100

  2588.0
(11-)
  3432.1 9  (14-)      583.7 5 
 

  2848.4
(12-)
  3734.0 10  (15-)      610.6 5 
   100

  3123.4
(13-)
  4091.3 10  (16-)      659.2 5 
   100

  3432.1
(14-)
  4413.1 11  (17-)      679.1 5 
   100

  3734.0
(15-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - 2 quasiparticle band on 1703 keV (6+)
  1700.84 4  (6+) < 5 ns      
  1892.7 4  (7+)      192.0 5 
   100

  1700.84
(6+)
  2110.9 4  (8+)      218.3 5 
   409.9 5 
   100 4 
    17 4 


  1892.7
  1700.84
(7+)
(6+)
  2351.8 5  (9+)      241.0 5 
   459.0 5 
   100 5 
    42 5 


  2110.9
  1892.7
(8+)
(7+)
  2614.8 6  (10+)      263.0 5 
   504.0 5 
   100 9 
    64 9 


  2351.8
  2110.9
(9+)
(8+)
  2896.9 6  (11+)      282.0 5 
   545.0 5 
    80 20 
   100 20 


  2614.8
  2351.8
(10+)
(9+)
  3191.4 7  (12+)      294.5 5 
   576.7 5 
 
 


  2896.9
  2614.8
(11+)
(10+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - 2 quasiparticle 8- band
  1141.552 15  8- 5.53 h 2 
% IT = 99.69 8 % β- = 0.31 8
     
  1384.6 4  9-      242.9 5 
   100

  1141.552
8-
  1652.7 4  (10-)      268.1 5 
   511.2 5 
   100.0 16 
    10.5 16 


  1384.6
  1141.552
9-
8-
  1945.7 5  (11-)      293.0 5 
   560.9 5 
   100.0 17 
    14 3 


  1652.7
  1384.6
(10-)
9-
  2262.3 5  (12-)      316.9 5 
   610.0 5 
   100 4 
    37 4 


  1945.7
  1652.7
(11-)
(10-)
  2603.1 6  (13-)      340.6 5 
   657.5 5 
   100 7 
    43 7 


  2262.3
  1945.7
(12-)
(11-)
  2965.4 6  (14-)      362.3 5 
   703.0 5 
   100 17 
    83 17 


  2603.1
  2262.3
(13-)
(12-)
  3350.2 7  (15-)      384.8 5 
   747.2 5 
   100 30 
  ≈100


  2965.4
  2603.1
(14-)
(13-)
  3755.4 7  (16-)      405.4 5 
   790.0 5 
 
 


  3350.2
  2965.4
(15-)
(14-)
  4180.1 8  (17-)      424.8 5 
   829.8 5 
 
 


  3755.4
  3350.2
(16-)
(15-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 5 - 4 quasiparticle 12+ band
  2485.5 5  12+ 0.94 µs 11       
  2623.6 8  (13+)      138
   100

  2485.5
12+
  2807.0 6  (14+)      183.4 6 
   270.0 20 
   321.5 3 
    57 11 
    41 23 
   100 16 



  2623.6
  2537.4
  2485.5
(13+)
(14+)
12+
  3100.8 9  (15+)      293.9 8 
   100

  2807.0
(14+)
  3446.9 9  (16+)      346.1 1 
   639.4 15 
   100 40 
    80 30 


  3100.8
  2807.0
(15+)
(14+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 6 - Kπ=0+ ROTATIONAL band
  1101.9 5  0+        
  1183.36 13  2+      875.3 3 
  1089.9 2 
  1183.2 8 
    19 4 
   100 7 
     3.3 8 

M1(+E2)

   308.576
    93.3240
     0.0
4+
2+
0+
  1369.65 8  (4+)      186.6 5 
   728.1 3 
  1061.0 3 
  1276.5 4 
 
     4 2 
   100 20 
     6 2 




  1183.36
   640.849
   308.576
    93.3240
2+
6+
4+
2+
  1657.98 10  (6+)      288.4 5 
  1017.1 1 
  1350 1 
 
 
 

(D+Q)

  1369.65
   640.849
   308.576
(4+)
6+
4+
  2046.9 4  (8+)      388.1 5 
   962.9 5 
   100 9 
    53 6 


  1657.98
  1084.006
(6+)
8+
  2532.8 4  (10+)      485.2 5 
   902.4 5 
   100 21 
    71 7 


  2046.9
  1631.0
(8+)
10+
  3110.6 5  (12+)      577.8 5 
   836.3 5 
    60 30 
   100 14 


  2532.8
  2274.3
(10+)
12+
  3781.5 6  (14+)      670.8 5 
   776.1 5 
 
 


  3110.6
  3005.4
(12+)
14+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 7 - Kπ=0+ ROTATIONAL band
  1315.7 5  0+        
  1409.36 19  (2+)     1100.7 5 
  1316.1 8 
  1409.3
   100 50 
    29 15 
    12 3 
(E2)
(E2)

   308.576
    93.3240
     0.0
4+
2+
0+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 8 - Kπ=2+ γ VIBRATIONAL band
  1199.72 5  2+ 0.51 ps 5       
  1291.15 5  3+      982.1 3 
  1197.8 3 
    19.9 12 
   100 7 
M1+E2
M1+E2
   308.576
    93.3240
4+
2+
  1409.26 7  (4+)      209.51 7 
   768.1 6 
  1100.60 15 
  1316.4 3 
     1.6 12 
     4.9 16 
   100 5 
    70.0 21 


M1+E2
(E2)
  1199.72
   640.849
   308.576
    93.3240
2+
6+
4+
2+
  1557.33 22  (5+)      266.1 7 
   915.8 4 
  1249.1 3 
     7 3 
    21 3 
   100 3 



  1291.15
   640.849
   308.576
3+
6+
4+
  1724.47 25  (6+)      314.8 5 
  1082.8 5 
  1416.6 4 
    38 4 
    97.1 21 
   100.0 14 

(M1)
(E2)
  1409.26
   640.849
   308.576
(4+)
6+
4+
  1928.7 4  (7+)      371.2 5 
   844.9 5 
  1288 1 
    51 3 
     7.0 10 
   100 5 


M1
  1557.33
  1084.006
   640.849
(5+)
8+
6+
  2133.6 4  (8+)      409.0 5 
  1050 1 
  1493 1 
    76 4 
    65.9 15 
   100.0 15 

(M1)
(E2)
  1724.47
  1084.006
   640.849
(6+)
8+
6+
  2398.9 5  (9+)      470.4 5 
   767 1 
  1315 1 
    48 5 
 
   100 5 


(M1)
  1928.7
  1631.0
  1084.006
(7+)
10+
8+
  2613.9 4  (10+)      480.3 5 
   983.0 5 
  1530 1 
   100 8 
    34 6 
    89 8 


(E2)
  2133.6
  1631.0
  1084.006
(8+)
10+
8+
  2960.7 6  (11+)      561.7 5 
  1330 1 
    48 5 
   100 10 


  2398.9
  1631.0
(9+)
10+
  3129.2 5  (12+)      515.4 5 
  1498 1 
    61 7 
   100 7 

(E2)
  2613.9
  1631.0
(10+)
10+
  3606.5 7  (13+)      645.8 5 
  1332 1 
    83 17 
   100 17 


  2960.7
  2274.3
(11+)
12+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
  3678.1 6  (14+)      548.9 5 
   673
  1404 1 
 
 
 



  3129.2
  3005.4
  2274.3
(12+)
14+
12+
  4270.2 7  (16+)      456
   592.3 5 
  1265
 
 
 



  3813.5
  3678.1
  3005.4
16+
(14+)
14+
  4323.5 12  (15+)      717
   100

  3606.5
(13+)
  4924.2 12  (18+)      654
   100

  4270.2
(16+)
  5629.2 16  (20+)      705
   100

  4924.2
(18+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 9 - Low-K γ vibrational band. Suggested as even spin and
  1901.9 8         
  2273.0 8       371.1 5 
  1189 1 
    11 3 
   100 6 


  1901.9
  1084.006

8+
  2730.7 4       456.7 5 
   596.7 5 
  1098 1 
    47 3 
    19 3 
   100 7 


(D+Q)
  2273.0
  2133.6
  1631.0

(8+)
10+
  3300.4 5       569.8 5 
   686.8 5 
  1026 1 
  1669 1 
   100 11 
    50 11 
 
 




  2730.7
  2613.9
  2274.3
  1631.0

(10+)
12+
10+
  3971.3 6       671.0 5 
   965.7 5 
 
 


  3300.4
  3005.4

14+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 10 - Low-K γ vibrational band. Suggested as odd spin by 2008Ta28.
  1904.0 7         
  2300.9 7       396.8 5 
  1217 1 
 
 


  1904.0
  1084.006

8+
  2796.0 7       495.1 5 
  1165 1 
 
 


  2300.9
  1631.0

10+
  3384.0 9       588.0 5 
  1110 1 ?
 
 


  2796.0
  2274.3

12+

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
    93.3240 2+ 1.519 ns 10      93.324 2 E2 4.63B(E2)(W.u.)=154.8 21, α=4.63, α(K)=1.081 16, α(L)=2.70 4, α(M)=0.675 10, α(N+)=0.1760 25
   308.576 4+ 71 ps 10     215.252 2 E2 0.225B(E2)(W.u.)=2.3×102 4, α=0.225, α(K)=0.1364 19, α(L)=0.0678 10, α(M)=0.01659 24, α(N+)=0.00438 7
   640.849 6+ 10.0 ps 7     332.271 10 E2 0.0586B(E2)(W.u.)=219 16, α=0.0586, α(K)=0.0418 6, α(L)=0.01286 18, α(M)=0.00308 5, α(N+)=0.000823 12
  1084.006 8+ 2.18 ps 11     443.162 15 E2 0.0264B(E2)(W.u.)=245 13, α=0.0264, α(K)=0.0201 3, α(L)=0.00486 7, α(M)=0.001146 16, α(N+)=0.000309 5
  1101.9 0+     1008.6 5 E2 0.00402α=0.00402 6, α(K)=0.00332 5, α(L)=0.000539 8, α(M)=0.0001224 18, α(N+)=3.36×10-5 5
  1141.552 8- 5.53 h 2 
% IT = 99.69 8
% β- = 0.31 8
    57.538 17 E1 0.296B(E1)(W.u.)=3.46E-17 10, α=0.296, α(L)=0.230 4, α(M)=0.0523 8, α(N+)=0.01377 20
8- 5.53 h 2 
% IT = 99.69 8
% β- = 0.31 8
   500.697 15 M2+E3-5.3 20.0610B(E3)(W.u.)=7.11E-10 23, B(M2)(W.u.)=9.8E-15 8, α=0.0610, α(K)=0.0406 6, α(L)=0.01555 22, α(M)=0.00379 6, α(N+)=0.001018 15
  1183.36 2+     1089.9 2 M1(+E2)-0.3 40.0065α=0.0065 9, α(K)=0.0054 7, α(L)=0.00080 10, α(M)=0.000179 21, α(N+)=5.0×10-5 6
  1199.72 2+ 0.51 ps 5     890.9 4 [E2] 0.00518B(E2)(W.u.)=0.50 8, α=0.00518 8, α(K)=0.00426 6, α(L)=0.000717 10, α(M)=0.0001636 23, α(N+)=4.48E-5 7
2+ 0.51 ps 5    1106.00 15 M1+E29.6 +22-580.00338B(E2)(W.u.)=5.2 6, B(M1)(W.u.)=0.00016 8, α=0.00338 18, α(K)=0.00280 15, α(L)=0.000444 21, α(M)=0.000100 5, α(N+)=2.79E-5 13
2+ 0.51 ps 5    1199.7 2 (E2) 0.00285B(E2)(W.u.)=3.7 5, α=0.00285 4, α(K)=0.00237 4, α(L)=0.000369 6, α(M)=8.34E-5 12, α(N+)=2.76E-5 4
  1291.15 3+      982.1 3 M1+E2-5.0 +20-150.0044α=0.0044 3, α(K)=0.00365 24, α(L)=0.00059 4, α(M)=0.000134 8, α(N+)=3.69×10-5 20
3+     1197.8 3 M1+E2 0.0041α=0.0041 13, α(K)=0.0034 11, α(L)=0.00051 15, α(M)=0.00012 4, α(N+)=3.7×10-5 10
  1315.7 0+     1222.4 5 E2 0.00275α=0.00275 4, α(K)=0.00229 4, α(L)=0.000355 5, α(M)=8.01×10-5 12, α(N+)=2.91E-5 4
  1354.1 (1-,2-,3-)     1260.8 3 (E1) 0.001123α=0.001123 16, α(K)=0.000916 13, α(L)=0.0001264 18, α(M)=2.81×10-5 4, α(N+)=5.27E-5
  1374.36 (4-) 0.57 µs 2     113.66 2 [M2] 22.8B(M2)(W.u.)=0.17 4, α=22.8, α(K)=16.46 23, α(L)=4.85 7, α(M)=1.180 17, α(N+)=0.327 5
(4-) 0.57 µs 2    1065.77 5 E1(+M2)-0.12 300.0017B(E1)(W.u.)=2.85E-10 11, α=0.0017 22, α(K)=0.0014 18, α(L)=0.0002 3, α(M)=5.E-5 7, α(N+)=1.2E-5 19
(4-) 0.57 µs 2    1281.7 2 [M2] 0.01080B(M2)(W.u.)=1.99×10-5 12, α=0.01080, α(K)=0.00898 13, α(L)=0.001402 20, α(M)=0.000317 5, α(N+)=9.32E-5 13
  1409.26 (4+)     1100.60 15 M1+E2 0.0050α=0.0050 16, α(K)=0.0042 14, α(L)=0.00063 19, α(M)=0.00014 4, α(N+)=3.9×10-5 12
(4+)     1316.4 3 (E2) 0.00240α=0.00240 4, α(K)=0.00199 3, α(L)=0.000303 5, α(M)=6.84×10-5 10, α(N+)=3.98E-5 6
  1409.36 (2+)     1100.7 5 (E2) 0.00337α=0.00337 5, α(K)=0.00280 4, α(L)=0.000444 7, α(M)=0.0001006 15, α(N+)=2.79×10-5 4
(2+)     1316.1 8 (E2) 0.00240α=0.00240 4, α(K)=0.00199 3, α(L)=0.000304 5, α(M)=6.84×10-5 10, α(N+)=3.97E-5 6
  1482.67 (5-)      108.308 2 M1+E20.80 122.95α=2.95 6, α(K)=1.93 14, α(L)=0.78 7, α(M)=0.189 19, α(N+)=0.050 5
  1607.67 (4)+      198.3 2 [E2] 0.296α=0.296, α(K)=0.1712 25, α(L)=0.0950 14, α(M)=0.0233 4, α(N+)=0.00615 9
(4)+      316.50 3 E2 0.0675α=0.0675, α(K)=0.0476 7, α(L)=0.01532 22, α(M)=0.00368 6, α(N+)=0.000982 14
(4)+      407.94 2 E2 0.0329α=0.0329, α(K)=0.0247 4, α(L)=0.00636 9, α(M)=0.001506 21, α(N+)=0.000405 6
(4)+      424.4 2 E2 0.0296α=0.0296, α(K)=0.0223 4, α(L)=0.00559 8, α(M)=0.001320 19, α(N+)=0.000355 5
(4)+     1299.3 2 (E2) 0.00246α=0.00246 4, α(K)=0.00204 3, α(L)=0.000312 5, α(M)=7.03×10-5 10, α(N+)=3.72E-5 6
(4)+     1514.4 2 [E2] 0.00190α=0.00190 3, α(K)=0.001532 22, α(L)=0.000228 4, α(M)=5.13×10-5 8, α(N+)=8.86E-5 13
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  1609.38 (3-)      235.024 6 M1+E20.4 30.33α=0.33 4, α(K)=0.27 4, α(L)=0.0465 7, α(M)=0.0106 3, α(N+)=0.00292 6
(3-)     1300.3(E1) 0.001085α=0.001085 16, α(K)=0.000868 13, α(L)=0.0001196 17, α(M)=2.66×10-5 4, α(N+)=7.03E-5
  1631.0 10+ 0.79 ps 4     547.3 5 E2 0.01547B(E2)(W.u.)=238 12, α=0.01547, α(K)=0.01215 18, α(L)=0.00256 4, α(M)=0.000596 9, α(N+)=0.0001616 23
  1633.43 (2+,3,4+)      433.7 2 M1+E2+0.4 30.064α=0.064 8, α(K)=0.053 8, α(L)=0.0083 7, α(M)=0.00188 15, α(N+)=0.00052 5
  1724.47 (6+)     1082.8 5 (M1) 0.00684α=0.00684 10, α(K)=0.00575 8, α(L)=0.000844 12, α(M)=0.000189 3, α(N+)=5.24×10-5 8
(6+)     1416.6 4 (E2) 0.00211α=0.00211 3, α(K)=0.001733 25, α(L)=0.000261 4, α(M)=5.87×10-5 9, α(N+)=6.09E-5 9
  1724.88 (2+,3+,4+)      433.71 12 M1+E2 0.049α=0.049 21, α(K)=0.040 19, α(L)=0.0070 19, α(M)=0.0016 4, α(N+)=0.00044 11
  1742.67 (5)+      135.0 2 (M1) 1.700α=1.700, α(K)=1.416 21, α(L)=0.220 4, α(M)=0.0497 8, α(N+)=0.01375 21
  1818.60 (5-)      205.51 1 M1 0.523α=0.523, α(K)=0.436 7, α(L)=0.0673 10, α(M)=0.01519 22, α(N+)=0.00420 6
  1928.7 (7+)     1288 1 M1 0.00449α=0.00449 7, α(K)=0.00376 6, α(L)=0.000549 8, α(M)=0.0001232 18, α(N+)=5.54×10-5 8
  2133.6 (8+)     1050 1 (M1) 0.00738α=0.00738 11, α(K)=0.00620 9, α(L)=0.000911 13, α(M)=0.000205 3, α(N+)=5.66×10-5 8
(8+)     1493 1 (E2) 0.00194α=0.00194 3, α(K)=0.001572 22, α(L)=0.000235 4, α(M)=5.28×10-5 8, α(N+)=8.20E-5 12
  2274.3 12+ 0.37 ps 3     643.4 5 (E2) 0.01055B(E2)(W.u.)=227 19, α=0.01055, α(K)=0.00844 12, α(L)=0.001627 23, α(M)=0.000376 6, α(N+)=0.0001023 15
  2398.9 (9+)     1315 1 (M1) 0.00428α=0.00428 6, α(K)=0.00358 5, α(L)=0.000522 8, α(M)=0.0001170 17, α(N+)=5.98×10-5 9
  2425.2 (10+) < 2 ns    481 3 [E1] 0.00715B(E1)(W.u.)>7.2E-8, α=0.00715 14, α(K)=0.00602 12, α(L)=0.000877 18, α(M)=0.000196 4, α(N+)=5.38E-5 11
(10+) < 2 ns    771.7 22 [E1] 0.00268B(E1)(W.u.)>1.8E-7, α=0.00268 4, α(K)=0.00227 4, α(L)=0.000320 5, α(M)=7.15E-5 11, α(N+)=1.97E-5 3
(10+) < 2 ns   1040.8 15 [E1] 0.001521B(E1)(W.u.)>1.4E-8, α=0.001521 22, α(K)=0.001290 19, α(L)=0.000180 3, α(M)=4.00E-5 6, α(N+)=1.101E-5 1
  2485.5 12+ 0.94 µs 11     223.3 2 [E1] 0.0445B(E1)(W.u.)=4.0E-10 7, α=0.0445, α(K)=0.0372 6, α(L)=0.00572 9, α(M)=0.001288 19, α(N+)=0.000350 5
12+ 0.94 µs 11     539.5 3 [E1] 0.00557B(E1)(W.u.)=1.01E-9 14, α=0.00557 8, α(K)=0.00470 7, α(L)=0.000679 10, α(M)=0.0001520 22, α(N+)=4.17E-5 6
12+ 0.94 µs 11     832.4 15 [M2] 0.0342B(M2)(W.u.)=2.4×10-5 10, α=0.0342, α(K)=0.0282 5, α(L)=0.00465 7, α(M)=0.001059 16, α(N+)=0.000293 5
12+ 0.94 µs 11    1101.1 7 [E3] 0.00723B(E3)(W.u.)=0.089 14, α=0.00723 11, α(K)=0.00578 9, α(L)=0.001122 16, α(M)=0.000260 4, α(N+)=7.12E-5 10
  2537.4 (14+) > 10 µs     52[E2] 58.3B(E2)(W.u.)<0.046, α=58.3, α(L)=44.4 7, α(M)=11.07 16, α(N+)=2.88 4
  2613.9 (10+)     1530 1 (E2) 0.00187α=0.00187 3, α(K)=0.001503 22, α(L)=0.000223 4, α(M)=5.02×10-5 7, α(N+)=9.35E-5 14
  3005.4 14+      730.9 5 (E2) 0.00792α=0.00792 12, α(K)=0.00641 9, α(L)=0.001165 17, α(M)=0.000268 4, α(N+)=7.30×10-5 11
  3129.2 (12+)     1498 1 (E2) 0.00193α=0.00193 3, α(K)=0.001563 22, α(L)=0.000233 4, α(M)=5.24×10-5 8, α(N+)=8.35E-5 12
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  3597.5 (18-) 90 µs 10     150.6 5 (M2) 8.13B(M2)(W.u.)=0.0153 18, α=8.13 15, α(K)=6.08 11, α(L)=1.57 3, α(M)=0.378 8, α(N+)=0.1047 21
  3813.5 16+      807.9 5 (E2) 0.00637α=0.00637 9, α(K)=0.00520 8, α(L)=0.000907 13, α(M)=0.000208 3, α(N+)=5.67×10-5 8

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     0.00+ STABLE E(level): Kπ=0+ GS ROTATIONAL band.
    93.32402+ 1.519 ns 10  Q=-2.00 2, μ=+0.61 3, B(E2)=4.73 3
Δ<r2>178,180=0.072 fm2 4 (1992An17). Other: 1992Be07.
E(level): Δ<r2>178,180=0.072 fm2 4 (1992An17). Other: 1992Be07. Kπ=0+ GS ROTATIONAL band.
   308.5764+ 71 ps 10  μ=+1.44 16, B(E2)=2.1
E(level): Kπ=0+ GS ROTATIONAL band.
   640.8496+ 10.0 ps 7  μ=+2.0 4
E(level): Kπ=0+ GS ROTATIONAL band.
  1084.0068+ 2.18 ps 11  E(level): Kπ=0+ GS ROTATIONAL band.
  1101.90+   XREF: d(?)F(1107).
E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  1141.5528- 5.53 h 2 
% IT = 99.69 8
% β- = 0.31 8
Q=+4.6 3, μ=+8.7 10
-=0.023 3 to 177 (Jπ=8+) level in 180Ta (1985Ke02). %β-=0.29 5 (additional systematic uncertainty=0.06) to 77.1 (Jπ=9-) level in 180Ta (1992Ke04). See 1992Ke04 for discussions on the relevance of this decay branch to the nucleosynthesis of 180Ta (>1.2×1015 y) in stellar matter.
E(level): %β-=0.023 3 to 177 (Jπ=8+) level in 180Ta (1985Ke02). %β-=0.29 5 (additional systematic uncertainty=0.06) to 77.1 (Jπ=9-) level in 180Ta (1992Ke04). See 1992Ke04 for discussions on the relevance of this decay branch to the nucleosynthesis of 180Ta (>1.2×1015 y) in stellar matter. 2 quasiparticle 8- band.
  1183.362+   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  1199.722+ 0.51 ps 5  B(E2)=0.113 7
E(level): Kπ=2+ γ VIBRATIONAL band.
  1291.153+   E(level): Kπ=2+ γ VIBRATIONAL band.
  1300.37(2+)   XREF: K(1289).
  1315.70+   E(level): Kπ=0+ ROTATIONAL band.
  1369.65(4+)   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  1374.36(4-) 0.57 µs 2  E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  1384.69-   E(level): 2 quasiparticle 8- band.
  1409.26(4+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  1409.36(2+)   E(level): Kπ=0+ ROTATIONAL band.
  1482.67(5-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  1557.33(5+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  1613.09(6-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  1631.010+ 0.79 ps 4  E(level): Kπ=0+ GS ROTATIONAL band.
  1652.7(10-)   E(level): 2 quasiparticle 8- band.
  1657.98(6+)   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  1686.9   XREF: γ(1689).
  1700.84(6+) < 5 ns E(level): 2 quasiparticle band on 1703 keV (6+).
E(level)Jπ(level)T1/2(level)Comments
  1709.1(5-)   XREF: d(1716).
  1724.47(6+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  1765.1(7-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  1813.91(3-)   XREF: K(1804).
  1892.7(7+)   E(level): 2 quasiparticle band on 1703 keV (6+).
  1901.9   E(level): Low-K γ vibrational band. Suggested as even spin and.
  1904.0   E(level): Low-K γ vibrational band. Suggested as odd spin by 2008Ta28.
  1928.7(7+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  1938.2(8-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  1945.7(11-)   E(level): 2 quasiparticle 8- band.
  2046.9(8+)   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  2075.3   Jπ=4+ for 2067 level in (pol p,p’).
E(level): Jπ=4+ for 2067 level in (pol p,p’).
  2078.34   Jπ=4+ for 2067 level in (pol p,p’).
E(level): Jπ=4+ for 2067 level in (pol p,p’).
  2110.9(8+)   E(level): 2 quasiparticle band on 1703 keV (6+).
  2120.11,2 0.46 ps 22  XREF: d(2115)K(2125).
Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2133.6(8+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  2134.2(9-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  2147.1   XREF: γ(2143).
  2201.0   XREF: K(2205).
  2242.6   XREF: γ(2238).
  2262.3(12-)   E(level): 2 quasiparticle 8- band.
  2273.0   E(level): Low-K γ vibrational band. Suggested as even spin and.
  2274.312+ 0.37 ps 3  E(level): Kπ=0+ GS ROTATIONAL band.
  2300.9   E(level): Low-K γ vibrational band. Suggested as odd spin by 2008Ta28.
  2350.4(10-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
E(level)Jπ(level)T1/2(level)Comments
  2351.8(9+)   E(level): 2 quasiparticle band on 1703 keV (6+).
  2377.71 0.29 ps 7  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2398.9(9+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  2425.2(10+) < 2 ns Kπ=(10+). Configuration=ν9/2[624]~#ν11/2[615].
  2485.512+ 0.94 µs 11  Kπ=12+. Configuration=π28-~#ν9/2[624]~#ν1/2[510].
E(level): 4 quasiparticle 12+ band.
  2493.51 62 fs 13  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2532.8(10+)   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  2537.4(14+) > 10 µs Kπ=(14+). Configuration=π28-~#ν9/2[624]~#ν3/2[512].
  2582.51 10 fs 3  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2588.0(11-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  2603.1(13-)   E(level): 2 quasiparticle 8- band.
  2613.9(10+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  2614.8(10+)   E(level): 2 quasiparticle band on 1703 keV (6+).
  2617.21 9.5 fs 8  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2623.6(13+)   E(level): 4 quasiparticle 12+ band.
  2712.51 12.4 fs 24  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2730.7   E(level): Low-K γ vibrational band. Suggested as even spin and.
  2796.0   E(level): Low-K γ vibrational band. Suggested as odd spin by 2008Ta28.
  2807.0(14+)   E(level): 4 quasiparticle 12+ band.
  2812.41 0.16 ps 3  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2848.4(12-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  2879.81,2 0.25 ps 7  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2892.31 20.0 fs 21  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  2896.9(11+)   E(level): 2 quasiparticle band on 1703 keV (6+).
  2948.01 13.0 fs 9  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
E(level)Jπ(level)T1/2(level)Comments
  2960.7(11+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  2965.4(14-)   E(level): 2 quasiparticle 8- band.
  2993.11 47 fs 5  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3005.414+   E(level): Kπ=0+ GS ROTATIONAL band.
  3011.31 30 fs 6  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3068.81 14.1 fs 13  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3081.51 0.17 ps 5  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3086.01 0.14 ps 3  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3100.8(15+)   E(level): 4 quasiparticle 12+ band.
  3110.6(12+)   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  3123.4(13-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  3125.61 29 fs 3  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3129.2(12+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  3150.71 10 fs 4  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3191.4(12+)   E(level): 2 quasiparticle band on 1703 keV (6+).
  3254.31 32 fs 8  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3300.4   E(level): Low-K γ vibrational band. Suggested as even spin and.
  3330.11 95 fs 20  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3350.2(15-)   E(level): 2 quasiparticle 8- band.
  3384.0   E(level): Low-K γ vibrational band. Suggested as odd spin by 2008Ta28.
  3432.1(14-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  3446.9(16+)   E(level): 4 quasiparticle 12+ band.
  3506.81,2 77 fs 16  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3559.61 12.8 fs 23  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3569.51 30 fs 6  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
E(level)Jπ(level)T1/2(level)Comments
  3584.21 7.3 fs 19  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3592.51 16 fs 4  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3597.5(18-) 90 µs 10  Kπ=(18-). Configuration=π28-~#ν9/2[624]~#ν11/2[615].
  3606.5(13+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  3615.11 13.0 fs 13  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3627.11 51 fs 12  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3678.1(14+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  3734.0(15-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  3755.4(16-)   E(level): 2 quasiparticle 8- band.
  3766.61 10.0 fs 14  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3774.31 4.7 fs 19  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3781.5(14+)   E(level): From 180Hf(γ,γ’). Kπ=0+ ROTATIONAL band.
  3786.21 8.6 fs 18  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3804.11 16 fs 3  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3813.516+   E(level): Kπ=0+ GS ROTATIONAL band.
  3818.01 40 fs 8  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3829.61 25 fs 5  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3836.51 14.7 fs 24  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3851.71 7.0 fs 14  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3862.21,2 69 fs 22  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3889.41 12.6 fs 16  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3928.01 22 fs 4  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3948.11 25 fs 6  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3967.81 18 fs 4  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  3971.3   E(level): Low-K γ vibrational band. Suggested as even spin and.
E(level)Jπ(level)T1/2(level)Comments
  3978.41 1.8 fs 9  Jπ(level): From γ(θ) in 180Hf(γ,γ’).
  4091.3(16-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  4180.1(17-)   E(level): 2 quasiparticle 8- band.
  4270.2(16+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  4323.5(15+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  4413.1(17-)   E(level): From 180Lu β- decay. 2 quasiparticle band on 1374 keV (4-).
  4682.018+   E(level): Kπ=0+ GS ROTATIONAL band.
  4924.2(18+)   E(level): Kπ=2+ γ VIBRATIONAL band.
  5554.020+   E(level): Kπ=0+ GS ROTATIONAL band.
  5629.2(20+)   E(level): Kπ=2+ γ VIBRATIONAL band.

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Additional Gamma Comments:

E(level)E(gamma)Comments
    93.3240    93.324M(γ): from ce data in 180Hf IT decay (5.53 h) and 179Hf(n,γ), E=thermal.
   308.576   215.252M(γ): from ce data in 180Hf IT decay (5.53 h) and 179Hf(n,γ), E=thermal.
   640.849   332.271M(γ): from ce data in 180Hf IT decay (5.53 h) and 179Hf(n,γ), E=thermal.
  1084.006   443.162E(γ): from 180Hf IT decay (5.53 h)
M(γ): from ce data in 180Hf IT decay (5.53 h) and 179Hf(n,γ), E=thermal.
  1101.9  1008.6E(γ): From 180Hf(n,n’γ).
  1141.552    57.538M(γ): K forbidden E1 transition. Multipolarity from ce data in 180Hf IT decay (5.53 h)
   500.697M(γ): from ce data in 180Hf IT decay (5.53 h)
  1183.36   875.3E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1089.9E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1183.2E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(n,n’γ).
  1192.60   551.75E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1199.72   890.9I(γ): from 180Lu β- decay. Other: <10 for multiply placed 891γ in 179Hf(n,γ), E=thermal.
  1106.00I(γ): weighted average of 98 4 in 180Lu β- decay and 90 4 in 179Hf(n,γ), E=thermal.
  1199.7E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1260.70   952.2E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1315.7  1222.4E(γ): From 180Hf(n,n’γ).
  1354.1  1260.8E(γ): Multiply placed with undivided intensity. From 180Hf(n,n’γ).
I(γ): Multiply placed with undivided intensity
  1369.65   186.6E(γ): From 180Hf(136Xe,136Xe’γ)
   728.1I(γ): From 180Hf(n,n’γ).
  1061.0I(γ): From 180Hf(n,n’γ).
  1276.5I(γ): From 180Hf(n,n’γ).
  1381.58  1288.7E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1384.6   242.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1409.36  1100.7E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(n,n’γ).
  1316.1E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(n,n’γ).
  1409.3E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(n,n’γ).
E(level)E(gamma)Comments
  1420.6  1112E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1472.40   181.26E(γ): questionable placement as level scheme would require M3 or E4 multipolarity for the transition
  1482.67   108.308M(γ): From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
  1484.48  1391.1E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1508  1416.6E(γ): Multiply placed. From 180Hf(n,n’γ).
  1539.29   900.5E(γ): questionable placement as level scheme would require E3 or M4 multipolarity for the transition. From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1557.33   266.1E(γ): From 180Hf(n,n’γ).
   915.8I(γ): other: 13.3 12 in 180Hf(136Xe,136Xe’γ).
  1559.29    76.624M(γ): From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
   258.90E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1597.53  1288.7E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1607.67   198.3E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
   316.50E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
M(γ): From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
   407.94M(γ): From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
   424.4E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1299.3E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1514.4E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1609.38   235.024M(γ): From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
  1300.3E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(n,n’γ).
  1613.09   129.7E(γ): an unplaced M1 130.26γ observed in 179Hf(n,γ), E=thermal could correspond to this placement.. From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   243.40I(γ): other: 100 3 in 180Hf(136Xe,136Xe’γ).
  1631.0   547.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ).
  1633.43   224.1E(γ): From 180Hf(n,n’γ).
   342.3E(γ): From 180Hf(n,n’γ).
   433.7E(γ): Multiply placed with undivided intensity. From 180Hf(n,n’γ).
I(γ): Multiply placed with undivided intensity
E(level)E(gamma)Comments
  1637.33  1636.8E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1652.7   268.1E(γ): From 180Hf(136Xe,136Xe’γ)
   511.2E(γ): From 180Hf(136Xe,136Xe’γ)
  1657.98   288.4E(γ): From 180Hf(136Xe,136Xe’γ)
  1017.1M(γ): stretched Q or unstretched D+Q from R(DCO) in 180Hf(136Xe,136Xe’γ). (D+Q) from assumed band assignment.
  1350E(γ): From 180Hf(136Xe,136Xe’γ)
  1686.9  1593.6E(γ): From 180Hf(n,n’γ).
  1700.84  1061.0E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity. From 180Hf(136Xe,136Xe’γ)
  1391.1E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity. From 180Hf(136Xe,136Xe’γ)
  1724.47   314.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1082.8E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): d from R(DCO) in 180Hf(136Xe,136Xe’γ), Δπ=no from level scheme.
  1416.6E(γ): From 180Hf(n,n’γ).
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ).
  1738.8   256.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1742.67   135.0E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
M(γ): from unplaced 135.09γ seen in 179Hf(n,γ), E=thermal.. From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
   333.0E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
   451.6E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1434.1E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1743.38   258.90E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1765.1   152.2E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   282.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1787.7   303.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1813.91   207.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
   331.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1818.60   205.51M(γ): From ce data in 179Hf(n,γ) E=thermal (1986RoZM).
  1820.97   208.5E(γ): questionable placement as level scheme would require M3 or E4 multipolarity for the transition. From 180Hf(n,n’γ).
   446.8E(γ): From 180Hf(n,n’γ).
   529.0E(γ): From 180Hf(n,n’γ).
   621.3E(γ): From 180Hf(n,n’γ).
E(level)E(gamma)Comments
  1828.4  1519.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1892.7   192.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1901.9  1261E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1904.2  1810.9E(γ): From 180Hf(n,n’γ).
  1904.1E(γ): From 180Hf(n,n’γ).
  1909.72   536.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1926.4  1926.4E(γ): From 180Hf(n,n’γ).
  1928.7   371.2E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   844.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1288E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): d from R(DCO) in 180Hf(136Xe,136Xe’γ), Δπ=no from level scheme.
  1931.9   322.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1937.2   329.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1938.2   173.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   325.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1945.23  1636.8E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  1945.7   293.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   560.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1948.6  1948.6E(γ): From 180Hf(n,n’γ).
  2022.6  1714.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2034.43   551.75E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  2046.9   388.1E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   962.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2059.0   576.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2075.3  1982.0E(γ): From 180Hf(n,n’γ).
  2078.34   465.25E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
   703.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1767.6E(γ): poor energy fit, excluded from least-squares fitting. E from level energy difference is 1769.8.. From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1986.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
E(level)E(gamma)Comments
  2110.9   218.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   409.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2120.1  2120.1M(γ): From 180Hf(γ,γ’)
  2133.6   409.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1050E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): d from R(DCO) in 180Hf(136Xe,136Xe’γ), Δπ=no from level scheme
  1493E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ), E2 from assumed band structure.
  2134.2   196.2E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   369.1E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2147.1  1838.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2151.48   890.9E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   952.2E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
  2174.0   799.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1864.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2183.1  1874.5E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  2196.91   997.1E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  1888.4E(γ): From 180Lu β- decay.
I(γ): From 180Lu β- decay.
  2201.0   826.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2215.9  1575.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2242.6   868.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2246.1  1937.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2252.9   643.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2261.8  1620.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1953.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2262.3   316.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   610.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
E(level)E(gamma)Comments
  2273.0   371.1E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1189E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2274.3   643.4E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ), E2 from assumed band structure.
  2276.4   667.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2293.0  1984.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2300.9   396.8E(γ): From 180Hf(136Xe,136Xe’γ)
  1217E(γ): From 180Hf(136Xe,136Xe’γ)
  2320.8   946.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2012.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2334.98   725.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2341.4  2032.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2350.4   216.2E(γ): From 180Hf(136Xe,136Xe’γ)
   412.2E(γ): From 180Hf(136Xe,136Xe’γ)
  2351.8   241.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   459.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2369.0   759.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2377.7  2377.7E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2389.0  2295.2E(γ): From 180Hf(n,n’γ).
  2389.4E(γ): From 180Hf(n,n’γ).
  2398.9   470.4E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   767E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1315E(γ): Multiply placed
M(γ): d from R(DCO) in 180Hf(136Xe,136Xe’γ), Δπ=no from level scheme
  2413.5  2104.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2425.2   481E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
   771.7E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
  1040.8E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
E(level)E(gamma)Comments
  2465.7   856.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2472.4   865.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2163.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2485.5   223.3E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
   539.5E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
   832.4E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
  1101.1E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
  2493.5  2400.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  2493.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2504.8  2196.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2532.8   485.2E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   902.4E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2549.4  1175.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2561.2  1079.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1185.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2582.5  2489.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  2582.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2588.0   453.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2603.1   340.6E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   657.5E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2613.9   480.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   983.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1530E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ), assumed E2
  2614.8   263.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   504.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
E(level)E(gamma)Comments
  2617.2  2523.9E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  2617.2E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2682.4  1073.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1199.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2706.2  2397.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2712.5  2619.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  2712.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2730.7   456.7E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   596.7E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1098E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): from R(DCO) in 180Hf(136Xe,136Xe’γ)
  2741.5  1131.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1262.0E(γ): poor energy fit, excluded from least-squares fitting. E from level energy difference is 1258.8. From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1367.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2430.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2771.9  1397.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2784.0  1301.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2796.0   495.1E(γ): From 180Hf(136Xe,136Xe’γ)
  1165E(γ): From 180Hf(136Xe,136Xe’γ)
  2797.1  1316.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1419.4E(γ): poor energy fit, excluded from least-squares fitting. E from level energy difference is 1422.7.. From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2489.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2806.0  1431.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2807.0   183.4E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
   270.0E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
   321.5E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
E(level)E(gamma)Comments
  2839.2  1231.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1356.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1469.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2848.4   498.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2850.3  1239.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1365.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2543.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2858.7  1249.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2550.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2873.4  2564.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2879.8  2879.8E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2892.3  2799.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  2892.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2896.9   282.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   545.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2913.6  2272.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2948.0  2854.8E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  2947.8E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  2960.7   561.7E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1330E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2965.4   362.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   703.0E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  2993.1  2993.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3000.1  2691.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3005.4   730.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’), E2 from assumed band structure
E(level)E(gamma)Comments
  3011.3  2918.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3011.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3022.6  1540.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2711.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2931.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3049.7  1437.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2406.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2742.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3058.6  2750.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3068.8  2975.6E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3068.6E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3081.5  3081.5E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3083.6  2442.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3086.0  3086.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3089.8  1715.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2781.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3100.8  2792.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3100.8   293.9E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
  3110.6   577.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   836.3E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  3123.4   535.4E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  3124.1  2815.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3125.6  3032.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3125.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3129.2   515.4E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1498E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ), assumed E2
E(level)E(gamma)Comments
  3131.7  1521.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2823.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3150.7  3057.5E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3150.5E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3153.1  1670.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3163.2  2854.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3174.4  3081.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3184.0  1809.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2542.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3191.4   294.5E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   576.7E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  3200.4  2891.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3215.3  2906.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3253.1  3159.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3254.3  3161.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3254.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3257.7  2616.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3300.4   569.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   686.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1026E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1669E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  3303.7  1694.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3317.0  1836.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1947.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2672.9E(γ): poor energy fit, excluded from least-squares fitting. E from level energy difference is 2676.4.. From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3009.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
E(level)E(gamma)Comments
  3330.1  3330.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3330.3  1956.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3021.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3338.7  1729.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3350.2   384.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
   747.2E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  3384.0   588.0E(γ): From 180Hf(136Xe,136Xe’γ)
  1110E(γ): From 180Hf(136Xe,136Xe’γ)
  3417.2  1804.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  1936.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  2775.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3107.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3428.7  1946.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3432.1   583.7E(γ): From 180Hf(136Xe,136Xe’γ)
  3442.9  3134.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3446.9   346.1E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
   639.4E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
  3468.6  2827.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3483.4  2109.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3489.2  3180.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3499.9  3191.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3506.8  3506.8E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3515.7  3207.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3526.7  3218.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3528.9   427.9E(γ): From 180Hf(238U,238U’γ)
   722.0E(γ): From 180Hf(238U,238U’γ)
E(level)E(gamma)Comments
  3559.6  3466.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3559.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3569.5  3476.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3569.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3584.2  3491.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3584.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3592.5  3499.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3592.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3596.5  2222.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3597.5   150.6E(γ): From 180Hf(238U,238U’γ)
I(γ): From 180Hf(238U,238U’γ)
M(γ): M2 or E3 from α(exp) in 180Hf(238U,238U’γ); M2 assuming lowest multipole dominates.
  3606.5   645.8E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  1332E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  3615.1  3521.9E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3614.9E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3625.4  3316.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3627.1  3627.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3640.7  3332.1E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3653.8  3560.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3672.2  3363.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3579.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3678.1   548.9E(γ): From 180Hf(136Xe,136Xe’γ)
   673E(γ): From 180Hf(136Xe,136Xe’γ)
  1404E(γ): From 180Hf(136Xe,136Xe’γ)
  3681.2  3372.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3734.0   610.6E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
E(level)E(gamma)Comments
  3751.3  3442.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3658.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3755.4   405.4E(γ): From 180Hf(136Xe,136Xe’γ)
   790.0E(γ): From 180Hf(136Xe,136Xe’γ)
  3766.6  3673.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3766.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3774.3  3681.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3774.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3781.5   670.8E(γ): From 180Hf(136Xe,136Xe’γ)
   776.1E(γ): From 180Hf(136Xe,136Xe’γ)
  3786.2  3693.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3786.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3804.1  3710.9E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3803.9E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3813.5   807.9E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
M(γ): stretched Q from R(DCO) in 180Hf(136Xe,136Xe’γ), E2 from assumed band structure
  3818.0  3818.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3829.6  3829.6E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3836.5  3743.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3836.3E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3848.3  3208.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3539.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3753.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3851.7  3758.5E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3851.5E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3855.6  2246.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
E(level)E(gamma)Comments
  3862.2  3862.2E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3869.2  2388.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3226.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3880.3  3239.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3889.4  3889.4E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3908.5  3267.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3926.5  2317.7E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3617.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3928.0  3928.0E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3948.1  3948.1E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3957.6  3648.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3864.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3967.8  3967.8E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3971.3   671.0E(γ): From 180Hf(136Xe,136Xe’γ)
  3975.3  2489.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3667.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3978.4  3885.2E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
  3978.2E(γ): From 180Hf(γ,γ’)
I(γ): From 180Hf(γ,γ’)
M(γ): From 180Hf(γ,γ’)
  3987.6  2504.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3992.3  2382.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4003.1  2627.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3695.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4091.3   659.2E(γ): From 180Hf(136Xe,136Xe’γ)
  4137.7  2763.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4180.1   424.8E(γ): From 180Hf(136Xe,136Xe’γ)
   829.8E(γ): From 180Hf(136Xe,136Xe’γ)
E(level)E(gamma)Comments
  4270.2   456E(γ): From 180Hf(136Xe,136Xe’γ)
   592.3E(γ): From 180Hf(136Xe,136Xe’γ)
  1265E(γ): From 180Hf(136Xe,136Xe’γ)
  4323.5   717E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  4331.9  2722.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4356.0  2746.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4413.1   679.1E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  4423.1  2813.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4329.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4682.0   868.5E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  4808.5  3201.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4499.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4852.8  3245.2E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4759.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4916.3  3437.3E(γ): poor energy fit, excluded from least-squares fitting. E from level energy difference is 3433.6. From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3541.9E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4272.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4606.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4924.2   654E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  4965.4  3479.3E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  3590.4E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4659.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  5048.3  3566.6E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4953.8E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  5057.6  3576.0E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
  4748.5E(γ): From γγ coin with fixed energy sum in 179Hf(n,γ) E=thermal (1990Bo52).
E(level)E(gamma)Comments
  5554.0   872E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  5629.2   705E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)
  5666.0   984E(γ): From 180Hf(136Xe,136Xe’γ)
I(γ): From 180Hf(136Xe,136Xe’γ)

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