ADOPTED LEVELS, GAMMAS for 62Cu

Authors: Alan L. Nichols, Balraj Singh, Jagdish K. Tuli |  Citation: Nucl. Data Sheets 113, 973 (2012) |  Cutoff date: 15-Apr-2012 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-1619.5 keV 7S(n)= 8874.5 keV 11S(p)= 5854.6 keV 6Q(α)= -5365.3 keV 13
Reference: 2012WA38

References:
  A  62Zn ε decay (9.193 H)  B  50Cr(16O,3PNG)
  C  52Cr(16O,APNG)  D  59Co(α,nγ),60Ni(3He,pγ)
  E  60Ni(α,pnγ),63Cu(p,pnγ)  F  60Ni(α,d)
  G  61Ni(p,n):Resonances  H  61Ni(3He,d)
  I  62Ni(p,n)  J  62Ni(p,nγ),61Ni(d,nγ)
  K  62Ni(3He,t)  L  63Cu(n,2nγ)
  M  63Cu(d,t)  N  63Cu(3He,α)
  O  64Zn(p,3He)  P  64Zn(d,α)

General Comments:

The evaluators note that branching ratios and γ-ray inventory from available high-spin measurements are poorly defined, thus most spins and parities are treated as tentative

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

Q-value: S(2n)=20585.0 17, S(2p)=15715.2 6 (2011AuZZ)

Q-value: Values in 2003Au03: Q(β-)=-1626 11, S(n)=8886 4, S(p)=5866 4, S(2n)=20596 4, S(2p)=15727 4










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
      0.0ABCDE  HIJKLMNOP 1+ 9.67 m 3 
% ε = 100
     
     40.83 3 ABCDEF HIJKLMNOP 2+ 4.57 ns 18      40.84 3 
   100
M1
      0.0
1+
    243.42 4 ABCDE    JK MN P 2+      202.67 6 
   243.39 5 
     0.43 5 
   100 5 

M1
     40.83
      0.0
2+
1+
    287.81 5 A  D   HIJK MNOP 2+      246.96 5 
   100
M1
     40.83
2+
    390.12 6  BCDE    JK MN P 4+ 11 ns 1     146.81 10 
   349.25 10 
     3.4 9 
   100.0 3 
E2
E2
    243.42
     40.83
2+
2+
    426.18 6 ABCDEF H JKLMN P 3+ > 0.16 ps    385.28 7 
   100
(M1+E2)
     40.83
2+
    548.31 5 A  D   H JKLMNOP 1+ > 0.17 ps    260.43 7 
   304.88 9 
   507.60 10 
   548.35 11 
     8.8 5 
     1.9 1 
    97 5 
   100 5 
M1
[M1]
M1
M1
    287.81
    243.42
     40.83
      0.0
2+
2+
2+
1+
    637.46 5 A  D   H JKLMNOP 1+ 0.15 ps +28-8     349.60 13 
   394.03 6 
   596.56 13 
   637.41 7 
     1.73 11 
     8.60 4 
   100
     0.98 6 
[M1]
M1+E2
M1
M1
    287.81
    243.42
     40.83
      0.0
2+
2+
2+
1+
    644.82 6 A  D   H J L     (2+)      644.82 6 
   100
[D+Q]
      0.0
1+
    674.96 8  BCDE  H JK MN P 3+      284.8 1 
   431.6 1 
   634.2 3 
   675.0 3 
    35 24 
   100 32 
   ≈85
 
(M1+E2)
(M1(+E2))
(M1+E2)

    390.12
    243.42
     40.83
      0.0
4+
2+
2+
1+
    698.31 9 A CDE  H JK MN P (3)+      272.2 2 
   455.0 2 
   657.3 2 
   698.3 3 
    65
    91
   100
 
(M1+E2)
(M1+E2)
(M1(+E2))

    426.18
    243.42
     40.83
      0.0
3+
2+
2+
1+
    727.72 13    D     JK MN P 2+      439.6 3 
   484.3 2 
   686.5 5 
   727.9 2 
    19
   100
    67
 

[M1+E2]

[M1+E2]
    287.81
    243.42
     40.83
      0.0
2+
2+
2+
1+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    755.95 17    D     J       (2+)      755.9 2 
   100
D(+Q)
      0.0
1+
    915.33 6 A  D   H JK MN P 2+      159.2 3 
   489.17 7 
   627.8 4 
   671.84 9 
   915.44 16 
 
   100 10 
     4.9 16 
    28 3 
    97 7 





    755.95
    426.18
    287.81
    243.42
      0.0
(2+)
3+
2+
2+
1+
    982.70 22    D   H J  MN P 3+      556.9 3 
   592.2 3 
   942 3 
    44
    78
   100



    426.18
    390.12
     40.83
3+
4+
2+
   1023.02 22    D F   J  M  P 2+      779.5 3 
   982 3 
  1023.1 3 
   ≈80
   ≈20
  ≈100



    243.42
     40.83
      0.0
2+
2+
1+
   1051.6 3    D   H         +      376.6 3 
   100

    674.96
3+
   1077.20 18    D   H J  MN P 2+      687.0 3 
   833.9 3 
  1036.3 3 
   100
 
    68



    390.12
    243.42
     40.83
4+
2+
2+
   1141.66 16    D   H J       2+,3+      594 1 
   716.0 3 
   751.7 3 
   897.7 3 
  1100.6 3 
 
   ≈60
  ≈100
   ≈40
 





    548.31
    426.18
    390.12
    243.42
     40.83
1+
3+
4+
2+
2+
   1144.1 7        H J  MN P 2+,3+      469.4
   753.8
 
 


    674.96
    390.12
3+
4+
   1170        I        2+        
   1221.51 20 ?A      H         +     1221.5 2 
   100

      0.0
1+
   1248.65 8  BCDE       MN P (4)+      573.2 3 
   822.3 1 
   858.7 1 
  1006.0 3 
  1207.9 3 
    48 8 
   100 11 
    13 8 
    33 8 
   128

D



    674.96
    426.18
    390.12
    243.42
     40.83
3+
3+
4+
2+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   1285.03 22    D   H J  MN P (2,3)+      586.8 3 
   859.2
   997.1 3 
 
 
 



    698.31
    426.18
    287.81
(3)+
3+
2+
   1346.3 3    D   H J  M  P (2)+      618 3 
   667 3 ?
  1102.9 3 
  1303 3 ?
 
 
 
 




    727.72
    674.96
    243.42
     40.83
2+
3+
2+
2+
   1354.3 5          J            439 1 
   710 1 
   928 1 
  1066 1 
    48
    52
    39
   100




    915.33
    644.82
    426.18
    287.81
2+
(2+)
3+
2+
   1367 3    D        M  P     1326 3 
   100

     40.83
2+
   1370.48 7  BCDE            5+ < 2 ps    944.3 1 
   980.3 1 
    20.6 7 
   100.0 5 
E2
(M1+E2)
    426.18
    390.12
3+
4+
   1373.9 7          J       1,2,3     1086.2
  1130.4
 
 


    287.81
    243.42
2+
2+
   1395 8             MN   (+)        
   1403.3 18    D             2+,3,4+      728 3 
  1013 3 
  1363 3 
 
 
 



    674.96
    390.12
     40.83
3+
4+
2+
   1410.2 4    D F      MN P +      427.5 3 
   100

    982.70
3+
   1416.1 5      F   J            688.6
   717.9
   741.1
  1172.5
  1375.0
 
 
 
 
 





    727.72
    698.31
    674.96
    243.42
     40.83
2+
(3)+
3+
2+
2+
   1427.5 3    D                  752.5 3 
  1392 3 
 
 


    674.96
     40.83
3+
2+
   1429.57 7 A                1+      731.23 15 
   792.03 7 
   881.4 3 
  1141.91 11 
  1186.2 3 
  1389.1 4 
  1429.9 7 
     7 1 
    26 2 
    42 3 
   100 6 
    11 4 
    24 2 
    80 8 







    698.31
    637.46
    548.31
    287.81
    243.42
     40.83
      0.0
(3)+
1+
1+
2+
2+
2+
1+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   1433.0 5        H J  MN P 1+,2+      735.2
   758.0
   884.5
  1006.6
 
 
 
 




    698.31
    674.96
    548.31
    426.18
(3)+
3+
1+
3+
   1485.72 18   CDE  H    MN P 3+,4+,5+      812.1 3 
  1058.3 3 
  1095.3 3 
   ≈29
  ≈100
   ≈14



    674.96
    426.18
    390.12
3+
3+
4+
   1504.9 4    D                  777.2 3 
   100

    727.72
2+
   1507.3 3    D                  832.3 3 
   100

    674.96
3+
   1511.2 22    D        MN P (2,3,4)+     1086 3 
  1120 3 
  1469 3 ?
 
 
 



    426.18
    390.12
     40.83
3+
4+
2+
   1525.91 16 A      H    MN P 1+      827.59 14 
  1485.1 5 
  1525.9 6 
    52 6 
     9 5 
   100 23 



    698.31
     40.83
      0.0
(3)+
2+
1+
   1568.06 22    D        M  P 2-,3-      892 3 
  1141.9 3 
  1324.6 3 
  1527 3 
 
 
 
 




    674.96
    426.18
    243.42
     40.83
3+
3+
2+
2+
   1581.6 6        H J       -      883?
  1155.3
  1294.1
  1338
 
 
 
 




    698.31
    426.18
    287.81
    243.42
(3)+
3+
2+
2+
   1587 5             M    (0:3)+        
   1677.61 7  BCDE    J     P (5+)      190
   429.0 1 
  1002 3 
  1251.3 1 
  1287.7 1 
    22 13 
    96 5 
    44 7 
   100 31 
    58 7 




D+Q
   1485.72
   1248.65
    674.96
    426.18
    390.12
3+,4+,5+
(4)+
3+
3+
4+
   1678.3 4    D     J  MN   (0:3)(+)      922.4 3 
  1040 3 
  1434.0
    46
   100
    14



    755.95
    637.46
    243.42
(2+)
1+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   1679.1 8          J  MN        951.0
   981.1
 
 


    727.72
    698.31
2+
(3)+
   1682.1 7        H J   N   (2-)      983.6
  1394.5
 
 


    698.31
    287.81
(3)+
2+
   1710.51 22    D        MN   1+,2+,3+     1035 3 
  1284.4 3 
  1710.4 3 
    18
    85
   100



    674.96
    426.18
      0.0
3+
3+
1+
   1736.3 3    D                 1061.3 3 
   100

    674.96
3+
   1745.0 4    D   H    MN P +     1046.7 3 
 

    698.31
(3)+
   1759.5 7          J  MN P     1059.9
  1116
 
 


    698.31
    644.82
(3)+
(2+)
   1775 5        H    MN P 1+,2+,3+        
   1820.3 3    D        MN P +     1430.2 3 
   100

    390.12
4+
   1827.6 3    D                 1401.4 3 
   100

    426.18
3+
   1843.0 11      F H J  M  P +      860.3
   100

    982.70
3+
   1916.72 22   CD   H    MN P (5)-      545.6 3 
  1491.1 3 
  1877 3 ?
 
 
 


[E3]
   1370.48
    426.18
     40.83
5+
3+
2+
   1920.5 7   C              (5+)      243
  1222
    48 38 
   100 14 


   1677.61
    698.31
(5+)
(3)+
   1981.39 22    D        MN P +     1306.0 3 
  1555.6 3 
 
 


    674.96
    426.18
3+
3+
   1996 6             M    +        
   2022 6        H    MN P (+)        
   2067.5 3    D        MN P (+)     1390 3 
  1641.3 3 
 
 


    674.96
    426.18
3+
3+
   2107 6             MN P (+)        
   2139 6        H    M  P (+)        
   2145.9 3    D                  775.4 3 
   100

   1370.48
5+
   2147.97 9  BCDE            (6+)      777.5 1 
  1757.8 1 
    76 18 
   100 18 
D+Q
Q
   1370.48
    390.12
5+
4+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   2154.7 3    D                 1481 3 
  1728.5 3 
    43
   100


    674.96
    426.18
3+
3+
   2160.64 22    D        MN P 3+,4+     1462.5 3 
  1917.0 3 
   100
    11


    698.31
    243.42
(3)+
2+
   2176 7             MN P 1+,2+,3+        
   2224 7             M  P (+)        
   2239.4 3    D   H    MN P (+)     1849.3 3 
   100

    390.12
4+
   2295.39 8  BCDEF H    MN P (6-) 16.4 ps 13     378
   617.8 1 
   924.8 1 
  1905.1 1 
     5.0 6 
     2.6 9 
   100.0 6 
     1.2 3 


(E1+M2)
(M2)
   1916.72
   1677.61
   1370.48
    390.12
(5)-
(5+)
5+
4+
   2315 7      F      M  P +        
   2360 7        H    MN P 3+,4+,5+        
   2374 7             M  P (+)        
   2422 7             MN P (+)        
   2444.1 3    D   H    MN P +     1195.4 3 
   100

   1248.65
(4)+
   2486 7              N P        
   2506 8             MN P (+)        
   2518.6 3   CD        MN P (6-)      222
  1148.2 3 
    77 31 
   100 23 


   2295.39
   1370.48
(6-)
5+
   2547 8              N P (+)        
   2565 8             M  P        
   2610 8             MN P        
   2622.7 3    D                 2232.5 3 
   100

    390.12
4+
   2638.6 3    D F      MN P     1268.1 3 
   100

   1370.48
5+
   2704 8             MN P (+)        
   2725 8             MN          
   2740 3    D                 1825 3 
   100

    915.33
2+
   2834.0 6   CD             (7+)      538
   686
  1464
    97 18 
   100 21 
    39 12 



   2295.39
   2147.97
   1370.48
(6-)
(6+)
5+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   2835 9             MN P 1+,2+,3+        
   2860 9             MN P +        
   2876 9             M    +        
   2892.27 10  BCDE            (7-)      596.6 1 
   744
   100.0 17 
    18.6 12 
D+Q

   2295.39
   2147.97
(6-)
(6+)
   2920 9             MN   (+)        
   2944 8             MN P -        
   2993 9             MN   +        
   3008 9             M  P (1+,2+,3+)        
   3029.54 10  BCDE            (7-)      137.3 1 
   734.1 1 
    14.4 10 
   100 5 


   2892.27
   2295.39
(7-)
(6-)
   3150 9     EF         P (3+,4+,5+)        
   3191.51 9  BC E            (6-)     1514.0 1 
  1821.1 1 
    39 7 
   100 6 

D(+Q)
   1677.61
   1370.48
(5+)
5+
   3310 10                P 3+        
   3420 10                P        
   3434.82 10  BC E            (8-)      243.5 1 
   544
  1139.5 1 
    23 11 
    23 7 
   100 10 


Q
   3191.51
   2892.27
   2295.39
(6-)
(7-)
(6-)
   3550 10                P        
   3580 3    D                 1285 3 
   100

   2295.39
(6-)
   3627.55 10  BC E            (8-)      437
   600
   735.2 1 
  1332.2 1 
    21 5 
     9 4 
    43.9 18 
   100.0 24 



Q
   3191.51
   3029.54
   2892.27
   2295.39
(6-)
(7-)
(7-)
(6-)
   3675.1 8   C                   783
   100

   2892.27
(7-)
   3979.24 11  BC E            (9-)      351.6 1 
   544.3 1 
   788?
    24.2 15 
   100 5 
    15 5 

D
[M3]
   3627.55
   3434.82
   3191.51
(8-)
(8-)
(6-)
   4104.0 7   C                   477
   100

   3627.55
(8-)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   4164.98 11  BC E            (9-)      490
   537.5 1 
   731
  1135.3 1 
  1272.7 1 
  1869?
     7 3 
    20 8 
     7 3 
    16 7 
   100 3 
     7 5 




Q
[M3]
   3675.1
   3627.55
   3434.82
   3029.54
   2892.27
   2295.39

(8-)
(8-)
(7-)
(7-)
(6-)
   4447.26 10  BC              (9-)      467.8 1 
  1012.8 1 
  1417.8 1 
  1554.7 1 
   128 8 
    82 10 
    23 8 
   100 15 




   3979.24
   3434.82
   3029.54
   2892.27
(9-)
(8-)
(7-)
(7-)
   4596.5 8   C                   493
   100

   4104.0

   4628 10        H         (0)+        
   4628.90 13  BC              (9-)     1194.1 1 
  1437.5 1 ?
   100 20 
    29 20 

[M3]
   3434.82
   3191.51
(8-)
(6-)
   4746.41 13  BC EF           (9+)     1119.0 1 
   100
D
   3627.55
(8-)
   5000.01 12  BC              (10-)      253
   404
   835.0 1 
   896
  1372.3 1 
    14 11 
    11 3 
   100 4 
     3 3 
    33 5 





   4746.41
   4596.5
   4164.98
   4104.0
   3627.55
(9+)

(9-)

(8-)
   5048.25 13  BC  F           (10-)      419.4 1 
   600
   881
  1069.0 1 
   100 6 
    50 23 
    30 17 
    30.3 25 




   4628.90
   4447.26
   4164.98
   3979.24
(9-)
(9-)
(9-)
(9-)
   5107.4 8   C              (10-)      660
   100

   4447.26
(9-)
   5258.3 10   C              (10-)      811
   100

   4447.26
(9-)
   5619.55 16  BC              (11-)      512
   571.3 1 
   990
    79 19 
   100 14 
    24 10 



   5107.4
   5048.25
   4628.90
(10-)
(10-)
(9-)
   5720     F HI        2+        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   5785 10        H         (2)+        
   5841.4 7   C              (12-)      222
   793
   100 14 
    59 32 


   5619.55
   5048.25
(11-)
(10-)
   6008.17 14  BC              (11+)     1008.0 1 
  1261.9 1 
  1843
    53 5 
   100 6 
     5 5 



   5000.01
   4746.41
   4164.98
(10-)
(9+)
(9-)
   6174.9 8   C              (10+)     1429
   100

   4746.41
(9+)
   6216.3 10   C              (11-)     1168
   100

   5048.25
(10-)
   6390     F                  
   6529.4 12   C              (13-)      688
   100

   5841.4
(12-)
   7100.88 16  BC              (12+)     1092.7 1 
   100

   6008.17
(11+)
   7134.5 8   C              (13-)     1293
  1515
    91 55 
   100 64 


   5841.4
   5619.55
(12-)
(11-)
   7241.4 16   C              (14-)      712
   100

   6529.4
(13-)
   7285.3 7   C              (12+)     1111
  1277
    43 14 
   100 19 


   6174.9
   6008.17
(10+)
(11+)
   7619.90 16  BC              (12+)      335
   519.0 1 
  1611.7 1 
    67 54 
   100 33 
   100 8 



   7285.3
   7100.88
   6008.17
(12+)
(12+)
(11+)
   7710     F                  
   7970       H         (1,2,3)+        
   8190       H         (0:3)+        
   8600.5 7   C              (13+)      980
  1500
   100 80 
   100 70 


   7619.90
   7100.88
(12+)
(12+)
   8958.7 8   C              (14+)      358
  1858
    50 50 
   100 70 


   8600.5
   7100.88
(13+)
(12+)
   9045      G                 
   9276      G                 
   9430       H                
   9478      GH                
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   9640       H                
   9689      GH                
   9916      G                 
  10083      G                 
  10216      G                 
  10405      G                 
  10883.7 13 ?  C                  1925?
   100

   8958.7
(14+)

E(level): Level energies listed with decimal figures are from a least-squares fit to the adopted Eγ data, except as noted. Reduced χ2=1.5 as compared to critical χ2=1.3

Jπ(level): Assignments for high-spin states (J>4 or so) are primarily based on DCO data in heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03)

E(γ): Eγ values with ΔE are weighted averages based on the most precise values available for each transition. Eγ below 700 keV from the four γ-ray experiments are in good agreement, but above this energy differences larger than the estimated uncertainties occur. Near 3 MeV, level energies derived from Eγ of 60Ni(α,pnγ) are ≈5 keV higher than those from Eγ of 59Co(α,nγ).

I(γ): From 62Zn ε decay or heavy-ion in-beam γ-ray studies, unless given otherwise.

M(γ): From conversion electron measurements in 62Zn decay, except as noted.

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
     40.83 2+ 4.57 ns 18      40.84 3 M1 0.647B(M1)(W.u.)=0.0430 18, α=0.647
    390.12 4+ 11 ns 1     146.81 10 E2 0.1429B(E2)(W.u.)=1.7 5, α=0.1429
4+ 11 ns 1     349.25 10 E2 0.00595B(E2)(W.u.)=0.65 6, α=0.00595
    426.18 3+ > 0.16 ps    385.28 7 (M1+E2)-0.12 20.00182B(E2)(W.u.)<540, B(M1)(W.u.)<2.4, α=0.00182
    548.31 1+ > 0.17 ps    260.43 7 M1 0.00457B(M1)(W.u.)<0.31, α=0.00457
1+ > 0.17 ps    304.88 9 [M1] 0.00311B(M1)(W.u.)<0.042, α=0.00311
1+ > 0.17 ps    507.60 10 M1 B(M1)(W.u.)<0.46
1+ > 0.17 ps    548.35 11 M1 B(M1)(W.u.)<0.38
    637.46 1+ 0.15 ps +28-8     349.60 13 [M1] 0.00225B(M1)(W.u.)=0.05 +3-5, α=0.00225
1+ 0.15 ps +28-8     394.03 6 M1+E2 0.0028α=0.0028
1+ 0.15 ps +28-8     596.56 13 M1 B(M1)(W.u.)=0.6 +4-6
1+ 0.15 ps +28-8     637.41 7 M1 B(M1)(W.u.)=0.005 +3-5
    644.82 (2+)      644.82 6 [D+Q]+0.22 +2-3 
    674.96 3+      284.8 1 (M1+E2)+0.08  
3+      431.6 1 (M1(+E2))-0.05 +5-4 
3+      634.2 3 (M1+E2)-0.16 +4-6 
    698.31 (3)+      272.2 2 (M1+E2)-0.60 10 
(3)+      455.0 2 (M1+E2)+0.35 4 
(3)+      657.3 2 (M1(+E2))+0.04 3 
    727.72 2+      484.3 2 [M1+E2]+0.05 5 
2+      727.9 2 [M1+E2]+0.49 9 
    755.95 (2+)      755.9 2 D(+Q)0.3 LE 
   1370.48 5+ < 2 ps    944.3 1 E2 B(E2)(W.u.)>4.4
5+ < 2 ps    980.3 1 (M1+E2)-0.5 B(E2)(W.u.)>3.6, B(M1)(W.u.)>0.0078
   1677.61 (5+)     1287.7 1 D+Q-0.49  
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   2147.97 (6+)      777.5 1 D+Q-1.0  
   2295.39 (6-) 16.4 ps 13     924.8 1 (E1+M2)-0.035 B(E1)(W.u.)=3.06E-5 25, B(M2)(W.u.)=0.201 17
(6-) 16.4 ps 13    1905.1 1 (M2) B(M2)(W.u.)=0.053 14
   2892.27 (7-)      596.6 1 D+Q-0.14  
   3191.51 (6-)     1821.1 1 D(+Q)-0.03  

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     40.832+ 4.57 ns 18  μ=+1.10 10 (1993Lo10,2011StZZ)
Jπ(level): M1 γ to 1+, lack of feeding in 62Zn ε decay.
    243.422+   Jπ(level): M1 γ to 1+, lack of feeding in 62Zn ε decay.
    287.812+   Jπ(level): M1 γ to 1+, lack of feeding in 62Zn ε decay.
   1144.12+,3+   E(level): From (p,nγ).
   1367   Not the same as 1370 level; both observed in 59Co(α,nγ).
   1373.91,2,3   E(level): From (p,nγ).
   1395(+)   E(level): Doublet.
   1416.1   E(level): From (p,nγ).
   1427.5   Implies the existence of two levels around 1428 keV, since 752γ is not reported in 62Zn decay and cannot be placed from the 1429.59 level within the uncertainties.
E(level): Implies the existence of two levels around 1428 keV, since 752γ is not reported in 62Zn decay and cannot be placed from the 1429.59 level within the uncertainties.
   1581.6-   E(level): From (p,nγ).
   1677.61(5+)   XREF: p(1680).
   1678.3(0:3)(+)   XREF: M(1680).
   1679.1   E(level): From (p,nγ).
   1682.1(2-)   XREF: H(1684).
E(level): From (p,nγ).
   1759.5   E(level): From (p,nγ).
   1843.0+   E(level): From (p,nγ).
   2107(+)   E(level): Doublet.
   2565   E(level): Doublet.
   2610   E(level): Doublet.
   2944-   E(level): Doublet.
   4447.26(9-)   Jπ(level): Based on measured DCO ratios in heavy-ion in-beam γ-ray studies.
   5000.01(10-)   Jπ(level): Based on measured DCO ratios in heavy-ion in-beam γ-ray studies.
   6008.17(11+)   Jπ(level): Based on measured DCO ratios in heavy-ion in-beam γ-ray studies.
   7100.88(12+)   Jπ(level): Based on measured DCO ratios in heavy-ion in-beam γ-ray studies.
   7619.90(12+)   Jπ(level): Based on measured DCO ratios in heavy-ion in-beam γ-ray studies.
E(level)Jπ(level)T1/2(level)Comments
   9045   E(level): Unbound level seen in 61Ni(p,n).
   9276   E(level): Unbound level seen in 61Ni(p,n).
   9478   E(level): Unbound level seen in 61Ni(p,n). Unbound level seen in 61Ni(3He,d).
   9689   E(level): Unbound level seen in 61Ni(p,n). Unbound level seen in 61Ni(3He,d).
   9916   E(level): Unbound level seen in 61Ni(p,n).
  10083   E(level): Unbound level seen in 61Ni(p,n).
  10216   E(level): Unbound level seen in 61Ni(p,n).
  10405   E(level): Unbound level seen in 61Ni(p,n).

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Additional Gamma Comments:

E(level)E(gamma)Comments
    243.42    202.67I(γ): 17 5 in (16O,αpnγ) is in severe disagreement
    287.81    246.96M(γ): pure M1 from 1969Ho01; M1+E2, δ=-0.33 4 from γ(θ) analysis in (p,nγ)
    390.12    146.81I(γ): From 60Ni(α,pnγ)
M(γ): From γ(θ) and RUL, 60Ni(α,pnγ)
    349.25M(γ): From γ(θ) and RUL, 60Ni(α,pnγ)
    426.18    385.28M(γ): From γ(θ) and adopted Jπ of connecting levels, (α,pnγ)
    674.96    284.8E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): from (16O,αpnγ). Other: 256 15 in (16O,3pnγ). From 62Ni(p,nγ).
M(γ): From γ(θ) and adopted Jπ of connecting levels, (α,pnγ)
    431.6E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From 62Ni(p,nγ).
M(γ): From γ(θ) and adopted Jπ of connecting levels, (α,pnγ)
    634.2I(γ): From 62Ni(p,nγ).
M(γ): M1 from 60Ni(α,pnγ)
    698.31    272.2I(γ): From 62Ni(p,nγ).
    455.0I(γ): From 62Ni(p,nγ).
    657.3I(γ): From 62Ni(p,nγ).
    727.72    439.6I(γ): From 62Ni(p,nγ).
    484.3I(γ): From 62Ni(p,nγ).
    686.5I(γ): From 62Ni(p,nγ).
    915.33    915.44I(γ): 29 from 62Ni(p,nγ)
    982.70    556.9I(γ): From 59Co(α,nγ)
    592.2I(γ): From 59Co(α,nγ)
    942I(γ): From 59Co(α,nγ)
   1023.02    779.5I(γ): From 59Co(α,nγ)
    982I(γ): From 59Co(α,nγ)
   1023.1I(γ): From 59Co(α,nγ)
   1077.20    687.0I(γ): From 62Ni(p,nγ).
   1036.3I(γ): From 62Ni(p,nγ).
   1141.66    716.0I(γ): From 59Co(α,nγ)
    751.7I(γ): From 59Co(α,nγ)
    897.7I(γ): From 59Co(α,nγ)
E(level)E(gamma)Comments
   1248.65    573.2E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    822.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    858.7E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 61 5 in (16O,3pnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1006.0E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 141 8 in (16O,3pnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1207.9E(γ): not reported in (16O,αpnγ) or (16O,3pnγ)
I(γ): From 59Co(α,nγ)
   1354.3    439I(γ): From 62Ni(p,nγ).
    710I(γ): From 62Ni(p,nγ).
    928I(γ): From 62Ni(p,nγ).
   1066I(γ): From 62Ni(p,nγ).
   1370.48    944.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).. From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ) and RUL, 60Ni(α,pnγ)
    980.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).. From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ) and adopted Jπ of connecting levels, (α,pnγ)
   1485.72    812.1E(γ): poor fit, level-energy difference=810.8
I(γ): From 59Co(α,nγ)
   1058.3E(γ): poor fit, level-energy difference=1059.5
I(γ): From 59Co(α,nγ)
   1095.3I(γ): From 59Co(α,nγ)
   1677.61    190E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    429.0E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 73 27 in (16O,αpnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1002E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1251.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1287.7E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ), (α,pnγ)
   1678.3    922.4I(γ): From 59Co(α,nγ)
   1040I(γ): From 59Co(α,nγ)
   1710.51   1035I(γ): From 59Co(α,nγ)
   1284.4I(γ): From 59Co(α,nγ)
   1710.4I(γ): From 59Co(α,nγ)
   2147.97    777.5I(γ): 34 5 in (16O,3pnγ)
M(γ): From γ(θ), (α,pnγ)
   1757.8I(γ): From 60Ni(α,pnγ)
M(γ): From γ(θ), (α,pnγ)
E(level)E(gamma)Comments
   2154.7   1481I(γ): From 59Co(α,nγ)
   1728.5I(γ): From 59Co(α,nγ)
   2160.64   1462.5I(γ): From 59Co(α,nγ)
   1917.0I(γ): From 59Co(α,nγ)
   2295.39    924.8E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From 60Ni(α,pnγ)
M(γ): From γ(θ) and adopted Jπ of connecting levels, (α,pnγ)
   1905.1E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 1.9 13 in (16O,αpnγ). From 60Ni(α,pnγ)
M(γ): based on branching of 2293.7 level and T1/2, see 60Ni(α,pnγ)
   2892.27    596.6E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From 60Ni(α,pnγ)
M(γ): From γ(θ), (α,pnγ)
    744E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   3029.54    137.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 20 11 in (16O,αpnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    734.1E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   3191.51   1514.0E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 52 30 in (16O,αpnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1821.1E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ), (α,pnγ)
   3434.82    243.5E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 59 3 in (16O,3pnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    544E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1139.5E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): ΔJ=2, Q from γ(θ). δ(O/Q)=-0.04
   3627.55    437E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    600E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    735.2E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1332.2E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   3979.24    351.6E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    544.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ), (α,pnγ)
    788E(γ): treated as uncertain placement by the evaluators due to high mult
   4164.98    490E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    537.5E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 42 3 in (16O,3pnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    731E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1135.3E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): 32.4 20 in (16O,3pnγ). From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1272.7E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ), (α,pnγ)
   1869E(γ): treated as uncertain placement by the evaluators due to high mult
E(level)E(gamma)Comments
   4447.26    467.8I(γ): 52 43 in (16O,αpnγ)
   1012.8E(γ): poor fit, level-energy difference=1012.4
   4628.90   1437.5E(γ): treated as uncertain placement by the evaluators due to high mult
I(γ): 80 7 in (16O,3pnγ)
   4746.41   1119.0E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
M(γ): From γ(θ), (α,pnγ)
   5048.25    419.4E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    600E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
    881E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
   1069.0E(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).
I(γ): From heavy-ion in-beam γ-ray studies (2001Mu14,1999Si03).

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