ADOPTED LEVELS, GAMMAS for 62Cu

Authors: Balraj Singh, Huang Xiaolong, and Wang Xianghan |  Citation: Nucl. Data Sheets 204, 1 (2025) |  Cutoff date: 30-Jun-2023 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-1619.5 keV 7S(n)= 8874.8 keV 11S(p)= 5854.5 keV 6Q(α)= -5365.2 keV 12
Reference: 2021WA16

References:
  A  62Zn ε decay (9.197 H)  B  50Cr(16O,3PNG)
  C  52Cr(16O,APNG)  D  54Cr(12C,p3nγ)
  E  59Co(α,nγ),60Ni(3He,pγ)  F  60Ni(α,pnγ),63Cu(p,pnγ)
  G  60Ni(α,d)  H  62Ni(p,n):Resonances
  I  61Ni(3He,d)  J  62Ni(p,n)
  K  62Ni(p,nγ),61Ni(d,nγ)  L  62Ni(3He,t)
  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

Theoretical nuclear structure calculations:

2022An16: calculated rms charge radii using the relativistic mean field (RMF) model.

2020Am03: calculated levels, Jπ, S(n), Q(β-)values using neutron-proton interacting boson-fermion-fermion model.

2020Bo22: calculated charge radii using the self-consistent theory of finite Fermi systems and energy density functionals (EDFs).

2011Vi03, 2010Vi07: calculated levels, Jπ, g factors, quadrupole moments using shell model with GXPF1A effective interaction.

2004Ho08: calculated magnetic dipole and electric quadrupole moments using shell model.

2003Ji09: calculated deformation, superdeformed configurations using relativistic mean-field theory.

1999Ca29: calculated levels, Jπ using shell model.

1997Si01: calculated levels, one-nucleon transfer spectroscopic factors using interacting Boson-Fermion-Fermion Model.

1987Hu07: calculated levels, Jπ, supersymmetry quantum numbers using Boson-fermion dynamical symmetry and supersymmetry for odd-odd nuclei with U(β)(5) Boson Limit.

1979Ch01: calculated energies of two-nucleon high spin states, coupling to maximum spin of two nucleons using shell model.

1977Ko02: calculated levels, binding energies using shell model.

1975Wa29: calculated levels, Jπ using shell model.

1968Ph04: calculated levels, magnetic dipole moment using configuration-mixing calculation

Q-value: Q(ε)=3958.9 5, S(2n)=20584.9 17, S(2p)=15715.0 6 (2021Wa16)










E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
      0.0ABCDEF  IJKLMNOP 1+ 9.672 m 8 
% ε = 100
     
     40.85 3 ABCDEFG IJKLMNOP 2+ 4.57 ns 18      40.89 6 
   100
M1
      0.0
1+
    243.439 25 ABCDEF    KLMN P 2+      202.67 6 
   243.42 3 
     0.42 5 
   100.0 27 

M1
     40.85
      0.0
2+
1+
    287.88 4 A   E   IJKLMNOP 2+      247.00 4 
   100
M1
     40.85
2+
    390.17 6  BCDEF    KLMN P 4+ 11.09 ns 21     146.91 10 
   349.41 10 
     5.3 17 
   100
E2
E2
    243.439
     40.85
2+
2+
    426.22 6 ABCDEFG I KLMN P 3+ > 0.16 ps    385.31 9 
   100
M1
     40.85
2+
    548.38 4 A   E   I KLMNOP 1+ > 0.17 ps    260.48 6 
   304.92 7 
   507.58 10 
   548.38 4 
     9.37 27 
     1.98 12 
    94 5 
   100.0 17 
M1
[M1+E2]
M1+E2
M1+E2
    287.88
    243.439
     40.85
      0.0
2+
2+
2+
1+
    637.49 3 A   E   I KLMNOP 1+ 0.15 ps +28-8     349.54 7 
   394.05 4 
   596.63 4 
   637.47 6 
     1.74 11 
     8.99 18 
   100
     0.97 6 
M1+E2
M1+E2
M1
M1+E2
    287.88
    243.439
     40.85
      0.0
2+
2+
2+
1+
    644.82 6 A   E   I K      (2+)      644.82 6 
   100

      0.0
1+
    675.08 7  BCDEF  I KLMN P 3+      284.9 1 
   431.6 1 
   634.3 3 
   675.1 3 
    33 5 
   100 16 
   ≈85
 
D+Q
D(+Q)
(D+Q)

    390.17
    243.439
     40.85
      0.0
4+
2+
2+
1+
    698.51 9 A CDEF  I KLMN P (3)+      272.3 3 
   455.0 3 
   657.0 3 
   698.3 3 ?
    65
    91
   100
 
D+Q
D+Q
D+Q

    426.22
    243.439
     40.85
      0.0
3+
2+
2+
1+
    727.75 15     E     KLMN P 2+      439.6 3 
   484.2 3 
   687.0 3 
   728.0 3 
    19
   100
    67
 

D(+Q)

D+Q
    287.88
    243.439
     40.85
      0.0
2+
2+
2+
1+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
    755.94 19     E     K      2(+)      755.9 3 
   100

      0.0
1+
    915.36 7 A   E   I KLMN P 2+      159.2 3 
   489.17 7 
   627.8 4 
   671.84 9 
   915.45 16 
 
   100 10 
     4.9 16 
    27.9 33 
    97 7 





    755.94
    426.22
    287.88
    243.439
      0.0
2(+)
3+
2+
2+
1+
    983.10 22     E   I K MN P 3+      556.9 3 
   592.9 3 
   942 3 
    44
    78
   100



    426.22
    390.17
     40.85
3+
4+
2+
   1023.03 22     E G   K M  P 2+      385?
   779.5 3 
   982 3 
  1023.1 3 
 
   ≈80
   ≈20
  ≈100




    637.49
    243.439
     40.85
      0.0
1+
2+
2+
1+
   1051.7 3     E   I      P (1:5)+      376.6 3 
   100

    675.08
3+
   1077.23 18     E   I K MN P 2+      687.0 3 
   833.9 3 
  1036.3 3 
   100
 
    68



    390.17
    243.439
     40.85
4+
2+
2+
   1141.69 16     E   I K      2+,3+      594 1 
   716.0 3 
   751.7 3 
   897.7 3 
  1100.6 3 
  1142.3 3 ?
 
   ≈60
  ≈100
   ≈40
 
 






    548.38
    426.22
    390.17
    243.439
     40.85
      0.0
1+
3+
4+
2+
2+
1+
   1144.2 7         I K MN P 2+,3+      469.4
   753.8
 
 


    675.08
    390.17
3+
4+
   1221.51 20 A       I      P (0:3)+     1221.5 2 
   100

      0.0
1+
   1248.73 8  BCDEF      MN P (4)+      573.2 3 
   822.3 1 
   858.7 1 
  1005.8 2 
  1207.9 3 
    48 8 
   100 11 
    13 8 
    33 8 
   128

M1

Q

    675.08
    426.22
    390.17
    243.439
     40.85
3+
3+
4+
2+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   1285.25 22     E   I K MN P (2,3)+      586.8 3 
   861.2
   997.1 3 
  1044?
  1245.8?
 
 
 
 
 




D+Q
    698.51
    426.22
    287.88
    243.439
     40.85
(3)+
3+
2+
2+
2+
   1346.3 3     E   I K M  P (3)+      618 3 
   667 3 ?
  1102.9 3 
  1303 3 ?
 
 
 
 




    727.75
    675.08
    243.439
     40.85
2+
3+
2+
2+
   1354.3 5           K           439 1 
   710 1 
   928 1 
  1066 1 
    48
    52
    39
   100




    915.36
    644.82
    426.22
    287.88
2+
(2+)
3+
2+
   1367 3     E       M  P     1326 3 
   100

     40.85
2+
   1370.69 8  BCDEF           5+ < 2 ps    944.3 1 
   980.4 1 
     6 4 
   100 5 
E2
M1+E2
    426.22
    390.17
3+
4+
   1374.0 7           K      (1,2,3)     1086.2
  1130.4
  1373.9
 
 
 



    287.88
    243.439
      0.0
2+
2+
1+
   1395 8             MN P (1:5)(+)        
   1403.4 18     E G        P (2+,3,4+)      728 3 
  1013 3 
  1363 3 
 
 
 



    675.08
    390.17
     40.85
3+
4+
2+
   1410.6 4     E G     MN P (1,2,3)+      427.5 3 
   100

    983.10
3+
   1416.2 5       G   K           688.6
   717.9
   741.1
  1172.5
  1375.0
 
 
 
 
 





    727.75
    698.51
    675.08
    243.439
     40.85
2+
(3)+
3+
2+
2+
   1427.6 3     E                 752.5 3 
  1392 3 
 
 


    675.08
     40.85
3+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   1429.62 7 A                1+      731.23 15 
   792.03 7 
   881.4 3 
  1142.21 29 
  1186.2 3 
  1389.1 4 
  1429.9 3 
     6.6 9 
    25.6 23 
    42.1 30 
   100 6 
    11 4 
    33.8 23 
    83 8 







    698.51
    637.49
    548.38
    287.88
    243.439
     40.85
      0.0
(3)+
1+
1+
2+
2+
2+
1+
   1433.1 5         I K MN P (1+,2+)      735.2
   758.0
   884.5
  1006.6
  1433
 
 
 
 
 




D+Q
    698.51
    675.08
    548.38
    426.22
      0.0
(3)+
3+
1+
3+
1+
   1485.84 14   CDEF  I   MN P 3+,4+,5+      812.1 3 ?
  1059.3 2 
  1095.3 3 
   ≈29
  ≈100
   ≈14



    675.08
    426.22
    390.17
3+
3+
4+
   1504.9 4     E                 777.2 3 
   832.3 3 ?
 
 


    727.75
    675.08
2+
3+
   1511.2 22     E       MN P (2,3)+     1086 3 
  1120 3 
  1469 3 ?
 
 
 



    426.22
    390.17
     40.85
3+
4+
2+
   1526.08 16 A       I   MN P 1+      827.59 14 
  1485.1 5 
  1525.9 6 
    52 6 
     9 5 
   100 23 



    698.51
     40.85
      0.0
(3)+
2+
1+
   1568.09 22     E       M  P 2-,3-      892 3 
  1141.9 3 
  1324.6 3 
  1527 3 
 
 
 
 




    675.08
    426.22
    243.439
     40.85
3+
3+
2+
2+
   1581.7 6         I K      (2,3,4)-      883?
  1155.3
  1294.1
  1338
 
 
 
 




    698.51
    426.22
    287.88
    243.439
(3)+
3+
2+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   1587 5             M    (0:3)+        
   1677.37 7  BCDEF    K  N P (5)+      191.8 3 
   428.8 3 
  1001.9 2 
  1251.3 1 
  1287.5 1 
    22 13 
    96 5 
    44 7 
   100 31 
    58 7 

D

(E2)
D+Q
   1485.84
   1248.73
    675.08
    426.22
    390.17
3+,4+,5+
(4)+
3+
3+
4+
   1678.16 19     E     K MN   (1+,2+,3+)      922.4 3 
  1040 3 
  1431 3 
    43
   100
    14



    755.94
    637.49
    243.439
2(+)
1+
2+
   1679.2 8           K  N        951.0
   981.1
 
 


    727.75
    698.51
2+
(3)+
   1682.3 7         I K  N   (2-)      983.6
  1394.5
 
 


    698.51
    287.88
(3)+
2+
   1710.6 3     E       MN   1+,2+,3+     1035 3 
  1284.4 3 
    18
   100


    675.08
    426.22
3+
3+
   1736.4 3     E                1061.3 3 
   100

    675.08
3+
   1745.2 4     E   I   MN P (1,2,3)+     1046.7 3 
   100

    698.51
(3)+
   1759.6 7           K MN P (1+,2+,3+)     1059.9
  1116
 
 


    698.51
    644.82
(3)+
(2+)
   1775 5         I   MN P 1+,2+,3+        
   1820.4 3     E       MN P (2:5)+     1430.2 3 
   100

    390.17
4+
   1827.6 3     E G              1401.4 3 
   100

    426.22
3+
   1843.4 11       G I K M  P (1,2,3)+      860.3
   100

    983.10
3+
   1917.22 15   CDE   I   MN P (5)-      545.6 3 
  1491.1 2 
  1877 3 ?
 
   100
 

Q
[E3]
   1370.69
    426.22
     40.85
5+
3+
2+
   1921.00 10   CD             5(+)      243.8 1 
  1222.3 1 
    48 38 
   100 14 

(Q)
   1677.37
    698.51
(5)+
(3)+
   1981.47 22     E       MN P (1,2,3)+     1306.0 3 
  1555.6 3 
 
 


    675.08
    426.22
3+
3+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   1996 6             M    (0:5)+        
   2022 6         I   MN P (1,2,3)(+)        
   2067.5 3     E       MN P (1:5)(+)     1390 3 
  1641.3 3 
 
 


    675.08
    426.22
3+
3+
   2107 6             MN P (2:6)+        
   2139 6         I   M  P (2,3,4)+        
   2147.98 9  BCDEF           6+      777.4 1 
  1757.8 1 
    55 21 
   100 14 
M1+E2
E2
   1370.69
    390.17
5+
4+
   2154.8 3     E                1481 3 
  1728.5 3 
    43
   100


    675.08
    426.22
3+
3+
   2160.75 22     E       MN P 3+,4+     1462.5 3 
  1917.0 3 
   100
    11


    698.51
    243.439
(3)+
2+
   2176 7             MN P 1+,2+,3+        
   2224 7             M  P (1:3)(+)        
   2239.5 3     E   I   MN P (3:5)+     1849.3 3 
   100

    390.17
4+
   2295.90 10  BCDEFG     MN P 6- 16.4 ps 13     378.4 2 
   617.8 2 
   924.9 1 
  1905.3 4 
     2.7 24 
     3.3 6 
   100 12 
     1.3 5 
D
E1
E1
(M2)
   1917.22
   1677.37
   1370.69
    390.17
(5)-
(5)+
5+
4+
   2298 10         I        0-,1-,2-,3-,4-        
   2315 7             M  P (1,2,3)+        
   2360 7         I   MN P 3+,4+,5+        
   2374 7             M  P (0:3)(+)        
   2422 7             MN P (3,4,5)+        
   2444.1 3     E   I   MN P (2:5)+     1195.4 3 
   100

   1248.73
(4)+
   2486 7              N P (0:3)        
   2506 8             MN P (1+,2+,3+)        
   2518.80 19   CDE       MN P (6-)      222.9 2 
  1148.1 3 
    17 5 
   100 4 

(D)
   2295.90
   1370.69
6-
5+
   2547 8              N P (1+,2+,3+)        
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   2565 8             M  P        
   2610 8             MN P (0:3)        
   2622.7 3     E                2232.5 3 
   100

    390.17
4+
   2638.8 3     E       MN P (3+)     1268.1 3 
   100

   1370.69
5+
   2660 30       G          6-        
   2704 8             MN P (1:3)+        
   2725 8             MN P        
   2740 3     E                1825 3 
   100

    915.36
2+
   2833.75 11   CDE            7(+)      537.8 2 
   686.4 2 
  1462.9 1 
   100 25 
    46 9 
    72 11 

(D+Q)
Q
   2295.90
   2147.98
   1370.69
6-
6+
5+
   2835 9             MN P 1+,2+,3+        
   2860 9             MN P (3)+        
   2876 9             M    (0:5)+        
   2893.12 11  BCDEF           (7-)      596.7 2 
   745.1 2 
   100 16 
     1.8 3 
(M1+E2)

   2295.90
   2147.98
6-
6+
   2920 9             MN   (+)        
   2944 8             MN P (2:6)-        
   2993 9             MN   (1:5)+        
   3008 9             M  P (1+,2+,3+)        
   3030.16 11  BCDEF           (7-)      137.2 2 
   734.1 1 
    14 4 
   100 22 
D
D+Q
   2893.12
   2295.90
(7-)
6-
   3150 9       G        P (3+,4+,5+)        
   3191.15 10  BCD FG          (6-)     1514.0 1 
  1821.0 2 
    34 12 
   100 6 

D+Q
   1677.37
   1370.69
(5)+
5+
   3310 10                P 3+        
   3401.40 13    D             (8+)      567.8 5 
  1253.4 1 
    64 12 
   100 16 


   2833.75
   2147.98
7(+)
6+
   3420 10                P        
   3435.27 11  BCD F           (8-)      243.7 1 
   544.1 2 
  1139.2 2 
    22 4 
    15 4 
   100 16 
Q

Q
   3191.15
   2893.12
   2295.90
(6-)
(7-)
6-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   3550 10                P        
   3581 3     E                1285 3 
   100

   2295.90
6-
   3628.68 11  BCD F           (8-)      438.6 1 
   599.1 8 
   735.1 1 
  1332.6 2 
    16 3 
     4.8 9 
    19 4 
   100 16 



E2
   3191.15
   3030.16
   2893.12
   2295.90
(6-)
(7-)
(7-)
6-
   3678.13 15   CD             (8-)      782.5 4 
   100
M1
   2893.12
(7-)
   3979.97 11  BCD F           (9-)      351.6 1 
   544.3 1 
   789.2 2 
    24.2 15 
   100 5 
    15 5 

D
[M3]
   3628.68
   3435.27
   3191.15
(8-)
(8-)
(6-)
   4105.34 19   CD             (9-)      476.7 2 
   100
D
   3628.68
(8-)
   4166.08 12  BCD F           (9-)      487.8 1 
   537.6 1 
   730.2 3 
  1135.2 2 
  1273.0 2 
  1869.7 5 
     7.6 12 
    26 8 
    15 8 
    28 6 
   100 16 
    12 5 

D+Q

Q
E2
[M3]
   3678.13
   3628.68
   3435.27
   3030.16
   2893.12
   2295.90
(8-)
(8-)
(8-)
(7-)
(7-)
6-
   4447.91 11  BCD     J       (9-)      467.8 1 
  1012.8 1 
  1417.8 1 
  1554.7 1 
   100 6 
    65 8 
    18 6 
    78 12 
D
(D+Q)

Q
   3979.97
   3435.27
   3030.16
   2893.12
(9-)
(8-)
(7-)
(7-)
   4597.37 17   CD             (10-)      492.5 3 
   100
M1
   4105.34
(9-)
   4628 10         IJ    O  (0)+        
   4629.05 12  BCD             (9-)     1194.0 1 
  1437.5 1 
   100 8 
    80 7 
D+Q
[M3]
   3435.27
   3191.15
(8-)
(6-)
   4747.68 13  BCD FG          9+     1119.0 1 
   100
E1
   3628.68
(8-)
   5001.22 14  BCD             (10-)      253.5 1 
   403.9 1 
   834.9 2 
   895.5 3 
  1372.7 2 
     9.4 14 
    20 3 
   100 16 
    43 7 
    43 7 
D

(D)

E2
   4747.68
   4597.37
   4166.08
   4105.34
   3628.68
9+
(10-)
(9-)
(9-)
(8-)
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   5048.52 13  BCD             (10-)      419.4 2 
   601.1 8 
   881.2 3 
  1068.7 1 
   100 16 
    50 23 
    57 9 
    24 4 
(D)



   4629.05
   4447.91
   4166.08
   3979.97
(9-)
(9-)
(9-)
(9-)
   5070 30       G          (7+)        
   5108.56 23   CD             (10-)      660.7 2 
   100
D
   4447.91
(9-)
   5259.12 23   CD             (10-)      811.2 2 
   100
D
   4447.91
(9-)
   5619.24 16  BCD             (11-)      512
   570.3 2 
   990.1 2 
    79
   100 14 
    24 10 
(D)
M1
(E2)
   5108.56
   5048.52
   4629.05
(10-)
(10-)
(9-)
   5720      G IJ       2+        
   5785 10         IJ       (2)+        
   5841.72 15   CD             (12-)      222.9 1 
   793.3 1 
    35 9 
   100 16 
D

   5619.24
   5048.52
(11-)
(10-)
   6009.47 17  BCD             (11+)     1008.1 2 
  1261.9 2 
  1843.3 2 
    32 5 
   100 16 
    10.5 17 
(D)
(E2)

   5001.22
   4747.68
   4166.08
(10-)
9+
(9-)
   6176.21 23   CD             (10+)     1428.6 2 
   100
(M1)
   4747.68
9+
   6217.53 17   CD             (11-)     1169.0 1 
   100
(D)
   5048.52
(10-)
   6390      G                 
   6530.72 25   CD             (13-)      689.0 2 
   100
(D)
   5841.72
(12-)
   7102.07 18  BCD             (12+)     1092.7 1 
   100
(M1)
   6009.47
(11+)
   7133.59 17   CD             (13-)     1292.4 1 
  1513.8 1 
    80 13 
   100 29 

(Q)
   5841.72
   5619.24
(12-)
(11-)
   7243.8 4   CD             (14-)      713.1 3 
   100

   6530.72
(13-)
   7287.57 23   CD             (12+)     1111.7 4 
  1278.3 2 
   100 16 
    87 14 
Q
D
   6176.21
   6009.47
(10+)
(11+)
   7621.28 18  BCD             (12+)      335.6 5 
   519.3 1 
  1611.6 1 
     8.3 14 
    35 6 
   100 16 

(M1)
(D)
   7287.57
   7102.07
   6009.47
(12+)
(12+)
(11+)
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   7710      G                 
   7970        I        (1,2,3)+        
   8190        I        (0:3)+        
   8602.3 6   CD             (13+)      980
  1500
   100 80 
   100 70 


   7621.28
   7102.07
(12+)
(12+)
   8960.9 6   CD             (14+)      358.2 6 
  1859.2 6 
    50 50 
   100 70 

(Q)
   8602.3
   7102.07
(13+)
(12+)
   9045       H                
   9276       H                
   9430        I               
   9478       HI               
   9640        I               
   9689       HI               
   9916       H                
  10083       H                
  10216       H                
  10405       H                
  10883.7 13 ?  C                  1925?
   100

   8960.9
(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=5.0 as compared to critical χ2=1.3. For levels not populated in γ-ray studies, values are generally from 63Cu(d,t), with exceptions noted.

Jπ(level): Assignments for high-spin states (J|>4 or so) are primarily based on γγ(θ)(DCO) in 50Cr(16O,3pnγ) (1999Si03); γγ(θ)(DCO) in 52Cr(16O,αpnγ) (2001Mu14); and γγ(θ)(ADO) and γγ(linear pol) in 54Cr(12C,p3nγ) (2022Lu01). Further, ascending spins with increasing excitation energy are assumed due to the yrast nature of population of levels in heavy-ion in-beam γ-ray spectroscopy.

E(γ): Weighted average of values quoted with uncertainty in 50Cr(16O,3pnγ), 54Cr(12C,p3nγ), 59Co(α,nγ), and 60Ni(3He,pγ), unless indicated otherwise.

I(γ): Weighted average of values quoted with uncertainty in 50Cr(16O,3pnγ), 52Cr(16O,αpnγ), and 54Cr(12C,p3nγ), unless indicated otherwise.

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Band Transitions:

E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - γ-cascade based on g.s. 1+. Proposed configuration=π(p3/2f5/2)1~#ν(p3/2f5/2)5 (2022Lu01) in 54Cr(12C,p3nγ)
      0.0 1+ 9.672 m 8 
% ε = 100
     
    243.439 25  2+      202.67 6 
   243.42 3 
     0.42 5 
   100.0 27 

M1
     40.85
      0.0
2+
1+
    675.08 7  3+      284.9 1 
   431.6 1 
   634.3 3 
   675.1 3 
    33 5 
   100 16 
   ≈85
 
D+Q
D(+Q)
(D+Q)

    390.17
    243.439
     40.85
      0.0
4+
2+
2+
1+
   1248.73 8  (4)+      573.2 3 
   822.3 1 
   858.7 1 
  1005.8 2 
  1207.9 3 
    48 8 
   100 11 
    13 8 
    33 8 
   128

M1

Q

    675.08
    426.22
    390.17
    243.439
     40.85
3+
3+
4+
2+
2+
   1677.37 7  (5)+      191.8 3 
   428.8 3 
  1001.9 2 
  1251.3 1 
  1287.5 1 
    22 13 
    96 5 
    44 7 
   100 31 
    58 7 

D

(E2)
D+Q
   1485.84
   1248.73
    675.08
    426.22
    390.17
3+,4+,5+
(4)+
3+
3+
4+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - γ-cascade based on 4+. Proposed configuration=π(p3/2f5/2)1~#ν(p3/2f5/2)5 (2022Lu01) in 54Cr(12C,p3nγ)
    390.17 6  4+ 11.09 ns 21       
   1370.69 8  5+ < 2 ps    944.3 1 
   980.4 1 
     6 4 
   100 5 
E2
M1+E2
    426.22
    390.17
3+
4+
   2147.98 9  6+      777.4 1 
  1757.8 1 
    55 21 
   100 14 
M1+E2
E2
   1370.69
    390.17
5+
4+
   2833.75 11  7(+)      537.8 2 
   686.4 2 
  1462.9 1 
   100 25 
    46 9 
    72 11 

(D+Q)
Q
   2295.90
   2147.98
   1370.69
6-
6+
5+
   3401.40 13  (8+)      567.8 5 
  1253.4 1 
    64 12 
   100 16 


   2833.75
   2147.98
7(+)
6+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - γ-cascade based on 6-. Proposed configuration= π(p3/2f5/2)1~#νg9/21(p3/2f5/2)4 (2022Lu01) in 54Cr(12C,p3nγ).
   2295.90 10  6- 16.4 ps 13       
   3030.16 11  (7-)      137.2 2 
   734.1 1 
    14 4 
   100 22 
D
D+Q
   2893.12
   2295.90
(7-)
6-
   3628.68 11  (8-)      438.6 1 
   599.1 8 
   735.1 1 
  1332.6 2 
    16 3 
     4.8 9 
    19 4 
   100 16 



E2
   3191.15
   3030.16
   2893.12
   2295.90
(6-)
(7-)
(7-)
6-
   4166.08 12  (9-)      487.8 1 
   537.6 1 
   730.2 3 
  1135.2 2 
  1273.0 2 
  1869.7 5 
     7.6 12 
    26 8 
    15 8 
    28 6 
   100 16 
    12 5 

D+Q

Q
E2
[M3]
   3678.13
   3628.68
   3435.27
   3030.16
   2893.12
   2295.90
(8-)
(8-)
(8-)
(7-)
(7-)
6-
   5001.22 14  (10-)      253.5 1 
   403.9 1 
   834.9 2 
   895.5 3 
  1372.7 2 
     9.4 14 
    20 3 
   100 16 
    43 7 
    43 7 
D

(D)

E2
   4747.68
   4597.37
   4166.08
   4105.34
   3628.68
9+
(10-)
(9-)
(9-)
(8-)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - γ-cascade based on (7-). Proposed configuration= πf7/2-1(p3/2f5/2)2~#νg9/21(p3/2f5/2)4, with tentative magnetic rotational band (2022Lu01) in 54Cr(12C,p3nγ)
   2893.12 11  (7-)        
   3435.27 11  (8-)      243.7 1 
   544.1 2 
  1139.2 2 
    22 4 
    15 4 
   100 16 
Q

Q
   3191.15
   2893.12
   2295.90
(6-)
(7-)
6-
   3979.97 11  (9-)      351.6 1 
   544.3 1 
   789.2 2 
    24.2 15 
   100 5 
    15 5 

D
[M3]
   3628.68
   3435.27
   3191.15
(8-)
(8-)
(6-)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 5 - γ-cacade based on (9-). Proposed configuration= πf7/2-1(p3/2f5/2)2~#νg9/21(p3/2f5/2)4 (2022Lu01) in 54Cr(12C,p3nγ)
   4629.05 12  (9-)        
   5048.52 13  (10-)      419.4 2 
   601.1 8 
   881.2 3 
  1068.7 1 
   100 16 
    50 23 
    57 9 
    24 4 
(D)



   4629.05
   4447.91
   4166.08
   3979.97
(9-)
(9-)
(9-)
(9-)
   5619.24 16  (11-)      512
   570.3 2 
   990.1 2 
    79
   100 14 
    24 10 
(D)
M1
(E2)
   5108.56
   5048.52
   4629.05
(10-)
(10-)
(9-)
   5841.72 15  (12-)      222.9 1 
   793.3 1 
    35 9 
   100 16 
D

   5619.24
   5048.52
(11-)
(10-)
   7133.59 17  (13-)     1292.4 1 
  1513.8 1 
    80 13 
   100 29 

(Q)
   5841.72
   5619.24
(12-)
(11-)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 6 - γ-cascade based on 9+. Proposed configuration=πg9/21~#νg9/21(p3/2f5/2)4 (2022Lu01) in 54Cr(12C,p3nγ)
   4747.68 13  9+        
   6176.21 23  (10+)     1428.6 2 
   100
(M1)
   4747.68
9+
   7287.57 23  (12+)     1111.7 4 
  1278.3 2 
   100 16 
    87 14 
Q
D
   6176.21
   6009.47
(10+)
(11+)

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Additional Gamma Data:















E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
     40.85 2+ 4.57 ns 18      40.89 6 M1 0.645B(M1)(W.u.)=0.0428 17, α=0.645 9
    243.439 2+      243.42 3 M1 0.00539α=0.00539 8
    287.88 2+      247.00 4 M1 0.00520α=0.00520 7
    390.17 4+ 11.09 ns 21     146.91 10 E2 0.1425B(E2)(W.u.)=2.5 8, α=0.1425 20
4+ 11.09 ns 21     349.41 10 E2 0.00594B(E2)(W.u.)=0.630 17, α=0.00594 8
    426.22 3+ > 0.16 ps    385.31 9 M1 1.79×10-3B(M1)(W.u.)<2.4, α=1.79×10-3 3
    548.38 1+ > 0.17 ps    260.48 6 M1 0.00456B(M1)(W.u.)<0.36, α=0.00456 6
1+ > 0.17 ps    304.92 7 [M1+E2] 0.0063α=0.0063 32
1+ > 0.17 ps    507.58 10 M1+E20.86 +24-220.00128B(M1)(W.u.)<0.33, α=0.00128 11
1+ > 0.17 ps    548.38 4 M1+E20.51 150.00092B(M1)(W.u.)<0.35, α=0.00092 6
    637.49 1+ 0.15 ps +28-8     349.54 7 M1+E21.0 +5-40.0041B(M1)(W.u.)=0.027 +37-17, α=0.0041 9
1+ 0.15 ps +28-8     394.05 4 M1+E20.78 +26-220.00255B(M1)(W.u.)=0.12 +15-7, α=0.00255 32
1+ 0.15 ps +28-8     596.63 4 M1 6.64×10-4B(M1)(W.u.)=0.6 +7-4, α=6.64×10-4 9
1+ 0.15 ps +28-8     637.47 6 M1+E2 0.00072α=0.00072 15
    675.08 3+      284.9 1 D+Q+0.08  
3+      431.6 1 D(+Q)-0.05 +5-4 
3+      634.3 3 (D+Q)-0.16 +4-6 
    727.75 2+      484.2 3 D(+Q)+0.05 5 
2+      728.0 3 D+Q+0.49 9 
   1248.73 (4)+      822.3 1 M1 3.34×10-4α=3.34×10-4 5
   1370.69 5+ < 2 ps    944.3 1 E2 3.07×10-4B(E2)(W.u.)>0.48, α=3.07E-4 4
5+ < 2 ps    980.4 1 M1+E2-0.3 2.36×10-4B(E2)(W.u.)>1.1, B(M1)(W.u.)>0.0094, α=2.36E-4 3
   1677.37 (5)+     1251.3 1 (E2) 1.78×10-4α=1.78×10-4 3
   2147.98 6+      777.4 1 M1+E2-1.0 4.40×10-4α=4.40×10-4 6
6+     1757.8 1 E2 2.77×10-4α=2.77×10-4 4
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   2295.90 6- 16.4 ps 13     617.8 2 E1 3.22×10-4B(E1)(W.u.)=3.4E-6 +8-7, α=3.22E-4 5
6- 16.4 ps 13     924.9 1 E1 1.35×10-4B(E1)(W.u.)=3.10E-5 25, α=1.35E-4 2
6- 16.4 ps 13    1905.3 4 (M2) 2.28×10-4B(M2)(W.u.)=0.058 +25-23, α=2.28×10-4 3
   2893.12 (7-)      596.7 2 (M1+E2)-0.14 6.72×10-4α=6.72×10-4 9
   3191.15 (6-)     1821.0 2 D+Q-0.03  
   4166.08 (9-)     1273.0 2 E2 1.77×10-4α=1.77×10-4 3
   5001.22 (10-)     1372.7 2 E2 1.78×10-4α=1.78×10-4 3
   5619.24 (11-)      570.3 2 M1 7.34×10-4α=7.34×10-4 10
(11-)      990.1 2 (E2) 2.73×10-4α=2.73×10-4 4

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
      0.01+ 9.672 m 8 
% ε = 100
μ=-0.3800 4 (2011Vi03,2019StZV), Q=-0.022 4 (2011Vi03,2021StZZ)
δ<r2>(65Cu,62Cu)=-0.293 fm2 5(stat) 33(syst) (2016Bi08), the systematic uncertainty for isotope shift resulted from uncertainties in the atomic factors.
E(level): δ<r2>(65Cu,62Cu)=-0.293 fm2 5(stat) 33(syst) (2016Bi08), the systematic uncertainty for isotope shift resulted from uncertainties in the atomic factors.
    426.223+ > 0.16 ps XREF: γ(450).
   1051.7(1:5)+   XREF: p(?).
   1144.22+,3+   E(level): From (p,nγ).
   1221.51(0:3)+   XREF: p(?).
   1374.0(1,2,3)   E(level): From (p,nγ).
   1395(1:5)(+)   E(level): Doublet.
   1416.2   E(level): From (p,nγ).
   1581.7(2,3,4)-   E(level): From (p,nγ).
   1677.37(5)+   XREF: p(1680).
   1678.16(1+,2+,3+)   XREF: M(1680).
   1679.2   E(level): From (p,nγ).
   1682.3(2-)   XREF: I(1684).
E(level): From (p,nγ).
   1759.6(1+,2+,3+)   E(level): From (p,nγ).
   1843.4(1,2,3)+   E(level): From (p,nγ).
   2107(2:6)+   E(level): Doublet.
   2295.906- 16.4 ps 13  XREF: γ(2330).
   2565   E(level): Doublet.
   2610(0:3)   E(level): Doublet.
   2893.12(7-)   E(level): From 62Ni(p,nγ), 61Ni(d,nγ).
   2944(2:6)-   E(level): Doublet.
   3030.16(7-)   XREF: E(3025.1).
   3435.27(8-)   E(level): From 62Ni(p,nγ), 61Ni(d,nγ).
   3979.97(9-)   E(level): From 62Ni(p,nγ), 61Ni(d,nγ).
   4447.91(9-)   XREF: J(4500).
E(level)Jπ(level)T1/2(level)Comments
   4628(0)+   XREF: J(4500)O(4550).
   4629.05(9-)   E(level): From 54Cr(12C,p3nγ).
   4747.689+   XREF: γ(4770).
   5048.52(10-)   E(level): From 54Cr(12C,p3nγ).
   5619.24(11-)   E(level): From 54Cr(12C,p3nγ).
   57202+   XREF: γ(5690).
   5785(2)+   XREF: J(5700).
   5841.72(12-)   E(level): From 54Cr(12C,p3nγ).
   7133.59(13-)   E(level): From 54Cr(12C,p3nγ).
   9045   E(level): From 62Zn ε decay. Unbound level from 61Ni(p,n).
   9276   E(level): From 62Zn ε decay. Unbound level from 61Ni(p,n).
   9478   E(level): Unbound level from 61Ni(p,n). Unbound level from 61Ni(3He,d).
   9689   E(level): Unbound level from 61Ni(p,n). Unbound level from 61Ni(3He,d).
   9916   E(level): From 62Zn ε decay. Unbound level from 61Ni(p,n).
  10083   E(level): From 62Zn ε decay. Unbound level from 61Ni(p,n).
  10216   E(level): From 62Zn ε decay. Unbound level from 61Ni(p,n).
  10405   E(level): From 62Zn ε decay. Unbound level from 61Ni(p,n).

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Additional Gamma Comments:

E(level)E(gamma)Comments
     40.85     40.89E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
M(γ): From ce data in 62Zn ε decay
    243.439    202.67E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): others: Iγ=58 7 in 54Cr(12C,p3nγ) and 17 5 in 52Cr(16O,αpnγ) are in severe disagreement. From 62Zn ε decay
    243.42E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
M(γ): others: ΔJ=1, d(+Q), δ=+0.03 3 in 62Ni(p,nγ),61Ni(d,nγ). ΔJ=1, D+Q, δ=+0.05 in 60Ni(α,pnγ),63Cu(p,pnγ). From ce data in 62Zn ε decay
    287.88    247.00E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
M(γ): other: ΔJ=1, D+Q, δ=-0.33 4 in 62Ni(p,nγ),61Ni(d,nγ). From ce data in 62Zn ε decay
    390.17    146.91E(γ): weighted average of 147.0 1 from 50Cr(16O,3pnγ), 147.0 3 from 54Cr(12C,p3nγ) and 146.81 10 from 62Ni(p,nγ),61Ni(d,nγ)
I(γ): uweighted average of 8.7 4 from 50Cr(16O,3pnγ), 3.4 9 from 52Cr(16O,αpnγ) and 3.69 45 from 54Cr(12C,p3nγ)
M(γ): ΔJ=2, Q in 60Ni(α,pnγ),63Cu(p,pnγ), 54Cr(12C, p3nγ), 52Cr(16O,αpnγ); RUL for E2, M2 ruled out by RUL.
    349.41E(γ): weighted average of 349.5 1 from 50Cr(16O,3pnγ), 349.7 2 from 54Cr(12C,p3nγ), 349.3 3 from 59Co(α,nγ),60Ni(3He,pγ) and 349.25 10 from 62Ni(p,nγ),61Ni(d,nγ)
M(γ): ΔJ=2, E2 from γγ(θ) and pol data in 54Cr(12C,p3nγ); ΔJ=2, Q in 50Cr(16O,3pnγ), 52Cr(16O,αpnγ), 60Ni(α,pnγ),63Cu(p,pnγ); M2 ruled out by RUL
    426.22    385.31E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: ΔJ=1, D+Q in 62Ni(p,nγ),61Ni(d,nγ) and 60Ni(α,pnγ),63Cu(p,pnγ); ΔJ=1, d in 52Cr(16O,αpnγ)
    548.38    260.48E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
M(γ): From ce data in 62Zn ε decay
    304.92E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
M(γ): ΔJ=1 transition, most likely [M1+E2] by RUL
    507.58E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
M(γ): From ce data in 62Zn ε decay
    548.38E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
M(γ): From ce data in 62Zn ε decay
    637.49    349.54E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): other: Iγ=100 in 62Ni(p,nγ),61Ni(d,nγ) is in severe disagreement. From 62Zn ε decay
M(γ): From ce data in 62Zn ε decay
    394.05E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): other: Iγ=11 in 62Ni(p,nγ),61Ni(d,nγ). From 62Zn ε decay
M(γ): From ce data in 62Zn ε decay
    596.63E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): other: Iγ=83 in 62Ni(p,nγ),61Ni(d,nγ). From 62Zn ε decay
M(γ): other:d in 62Ni(p,nγ),61Ni(d,nγ). From ce data in 62Zn ε decay
    637.47E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
M(γ): From ce data in 62Zn ε decay
    644.82    644.82E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
    675.08    284.9E(γ): weighted average of 284.8 1 from 50Cr(16O,3pnγ), 285.0 1 from 54Cr(12C,p3nγ) and 285.0 3 from 59Co(α,nγ),60Ni(3He,pγ)
I(γ): weighted average of 35 24 from 52Cr(16O,αpnγ), 32.7 52 from 54Cr(12C,p3nγ). Other: 100 6 in 50Cr(16O,3pnγ) is in severe disagreement
M(γ): ΔJ=1, d in 54Cr(12C,p3nγ).
    431.6E(γ): weighted average of 431.4 2 from 54Cr(12C,p3nγ), 431.4 3 from 59Co(α,nγ),60Ni(3He,pγ), 431.6 1 from 50Cr(16O,3pnγ) and 431.7 3 from 62Ni(p,nγ),61Ni(d,nγ)
I(γ): Other: 39 10 in 50Cr(16O,3pnγ) and 67 in 59Co(α,nγ),60Ni(3He,pγ) are in severe disagreement
M(γ): ΔJ=1, d in 54Cr(12C,p3nγ).
    634.3E(γ): weighted average of 634.1 3 from 62Ni(p,nγ),61Ni(d,nγ) and 634.4 3 from 59Co(α,nγ),60Ni(3He,pγ)
I(γ): 85 in 60Ni(α,pnγ),63Cu(p,pnγ) and 62Ni(p,nγ), 61Ni(d,nγ). Other: 100 in 59Co(α,nγ),60Ni(3He,pγ)
M(γ): ΔJ=1, d in 60Ni(α,pnγ),63Cu(p,pnγ).
    675.1E(γ): weighted average of 675.4 8 from 54Cr(12C,p3nγ) and 675.0 3 from 62Ni(p,nγ),61Ni(d,nγ)
I(γ): No intensity reported
    698.51    272.3E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): other: Iγ=100 in 52Cr(16O,αpnγ) and 54Cr(12C,p3nγ) is in severe disagreement. From 62Ni(p,nγ), 61Ni(d,nγ).
M(γ): from γ(θ) in 62Ni(p,nγ),61Ni(d,nγ). other: d in 52Cr(16O,αpnγ) and 54Cr(12C,p3nγ)
    455.0E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
M(γ): from γ(θ) in 62Ni(p,nγ),61Ni(d,nγ).
    657.0E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
M(γ): from γ(θ) in 62Ni(p,nγ),61Ni(d,nγ).
    698.3E(γ): from 59Co(α,nγ),60Ni(3He,pγ) only
    727.75    728.0E(γ): From 62Ni(p,nγ),61Ni(d,nγ)
E(level)E(gamma)Comments
    755.94    755.9E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
    915.36    489.17E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
    627.8E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
    671.84E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
    915.45E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): other: 29 from 62Ni(p,nγ),61Ni(d,nγ) is in disagreement. From 62Zn ε decay
M(γ): D+Q based on ΔJ=1 transition in 62Ni(p,nγ),61Ni(d,nγ)
   1023.03    385E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1023.1M(γ): ΔJ=1, D+Q from γ(θ) and δ=-0.25 or -1.23 in 62Ni(p,nγ),61Ni(d,nγ)
   1051.7    376.6E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1077.23    833.9E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
   1141.69   1100.6E(γ): from 62Ni(p,nγ),61Ni(d,nγ). Other: 1100 3 in 59Co(α,nγ),60Ni(3He,pγ)
   1142.3E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
   1144.2    469.4E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
    753.8E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
   1221.51   1221.5E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
   1248.73    573.2E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
I(γ): from 52Cr(16O,αpnγ)
    822.3E(γ): from 50Cr(16O,3pnγ)
I(γ): from 52Cr(16O,αpnγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Other: D+Q from γγ(θ)(DCO) in 52Cr(16O,αpnγ)
    858.7E(γ): from 50Cr(16O,3pnγ)
I(γ): from 52Cr(16O,αpnγ)
   1005.8E(γ): from 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ)
   1207.9E(γ): from 59Co(α,nγ),60Ni(3He,pγ), not reported in (16O,αpnγ) or (16O,3pnγ)
I(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1285.25    586.8E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
    861.2E(γ): from 59Co(α,nγ),60Ni(3He,pγ). poor fit, level-energy difference=859.03
    997.1E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1044E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
   1245.8E(γ): from 62Ni(p,nγ),61Ni(d,nγ)
M(γ): γ(θ) in 62Ni(p,nγ),61Ni(d,nγ)
   1346.3    618E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
    667E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1102.9E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1303E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
E(level)E(gamma)Comments
   1354.3    439E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    710E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    928E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1066E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
I(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1367   1326E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1370.69    944.3I(γ): unweighted average of 9.68 63 in 50Cr(16O,3pnγ) and 1.89 23 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ).
    980.4M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Other: (D+Q) in 50Cr(16O,3pnγ)
   1374.0   1086.2E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1130.4E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1373.9E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1403.4    728E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1013E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1363E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1410.6    427.5E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1416.2    688.6E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    717.9E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    741.1E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1172.5E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1375.0E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1427.6    752.5E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1392E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1429.62    731.23E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
    792.03E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
    881.4E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1142.21E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1186.2E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1389.1E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1429.9E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
E(level)E(gamma)Comments
   1433.1    735.2E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    758.0E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    884.5E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1006.6E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1433E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1504.9    777.2E(γ): from 59Co(α,nγ),60Ni(3He,pγ).
    832.3E(γ): from 59Co(α,nγ),60Ni(3He,pγ). poor fit, level-energy difference=829.8
   1511.2   1086E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1120E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1469E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1526.08    827.59E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1485.1E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1525.9E(γ): From 62Zn ε decay. Unbound level from 61Ni(p,n)
I(γ): From 62Zn ε decay
   1568.09    892E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1141.9E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1324.6E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1527E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1581.7    883E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1155.3E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1294.1E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1338E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1677.37    191.8E(γ): from 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ)
    428.8E(γ): weighted average of 428.0 2 in 54Cr(12C,p3nγ), 429.0 1 in 50Cr(16O,3pnγ) and 429 3 in 59Co(α,nγ),60Ni(3He,pγ)
I(γ): from 52Cr(16O,αpnγ)
M(γ): γγ(θ)(ADO) in 54Cr(12C,p3nγ). Other: (D+Q) from γγ(θ)(DCO) in 52Cr(16O,αpnγ)
   1001.9E(γ): weighted average of 1001.9 2 in 54Cr(12C,p3nγ) and 1002 3 in 59Co(α,nγ),60Ni(3He,pγ)
I(γ): from 52Cr(16O,αpnγ)
   1251.3E(γ): weighted average of 1251.3 1 in 50Cr(16O,3pnγ), 1251.2 2 in 54Cr(12C,p3nγ) and 1251.3 3 in 59Co(α,nγ),60Ni(3He,pγ)
I(γ): from 52Cr(16O,αpnγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Other: Q in 52Cr(16O,αpnγ)
   1287.5E(γ): weighted average of 1287.7 1 in 50Cr(16O,3pnγ), 1287.3 1 in 54Cr(12C,p3nγ) and 1287.4 3 in 59Co(α,nγ),60Ni(3He,pγ)
I(γ): from 52Cr(16O,αpnγ)
M(γ): γγ(θ)(DCO) in 50Cr(16O,3pnγ). Other: (M1+E2) and δ=-0.49 from γ(θ) in 60Ni(α,pnγ),63Cu(p,pnγ)
E(level)E(gamma)Comments
   1679.2    951.0E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
    981.1E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1682.3    983.6E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1394.5E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1736.4   1061.3E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1745.2   1046.7E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1759.6   1059.9E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1116E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1820.4   1430.2E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1827.6   1401.4E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1843.4    860.3E(γ): From 62Ni(p,nγ), 61Ni(d,nγ).
   1917.22    545.6E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1491.1M(γ): γγ(θ)(ADO) in 54Cr(12C,p3nγ).
   1877E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1921.00    243.8E(γ): from 54Cr(12C,p3nγ). Other: 243 in 52Cr(16O,αpnγ)
I(γ): from 52Cr(16O,αpnγ).
   1222.3E(γ): from 54Cr(12C,p3nγ). Other: 1222 in 52Cr(16O,αpnγ)
I(γ): from 52Cr(16O,αpnγ).
M(γ): γγ(θ)(ADO) in 54Cr(12C,p3nγ).
   1981.47   1306.0E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1555.6E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2067.5   1390E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   1641.3E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2147.98    777.4E(γ): weighted average of 777.5 1 in 50Cr(16O,3pnγ) and 777.3 2 in 54Cr(12C,p3nγ). Other: 775.4 3 in 59Co(α,nγ),60Ni(3He,pγ).
I(γ): unweighted average of 34.5 46in 50Cr(16O,3pnγ) and 76 18in 52Cr(16O,αpnγ). Others: 100 15 in 54Cr(12C,p3nγ), 26.4 in 59Co(α,nγ),60Ni(3He,pγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: (M1+E2) in 60Ni(α,pnγ),63Cu(p,pnγ), (D+Q) in 52Cr(16O,αpnγ)
   1757.8E(γ): weighted average of 1757.8 1 in 50Cr(16O,3pnγ), 1757.5 2 in 54Cr(12C,p3nγ) and 1758.1 3 in 59Co(α,nγ),60Ni(3He,pγ)
I(γ): other: 64 4 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: (Q) in 60Ni(α,pnγ),63Cu(p,pnγ), Q in 59Co(α,nγ),60Ni(3He,pγ)
   2239.5   1849.3E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2295.90    378.4E(γ): from 54Cr(12C,p3nγ)
I(γ): unweighted average of 5.04 56 in 52Cr(16O,αpnγ) and 0.27 4 in 54Cr(12C,p3nγ)
    617.8E(γ): weighted average of 617.8 1 in 50Cr(16O,3pnγ) and 617.3 3 in 54Cr(12C,p3nγ)
I(γ): weighted average of 2.61 93 in 52Cr(16O,αpnγ) and 3.46 54 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ).
    924.9E(γ): weighted average of 924.8 1 in 50Cr(16O,3pnγ) and 925.1 2 in 54Cr(12C,p3nγ). Other: 923.1 3 in 59Co(α,nγ),60Ni(3He,pγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: d from γγ(θ)(DCO) in 50Cr(16O,3pnγ) and 52Cr(16O,αpnγ), D+Q and δ=-0.035 in 60Ni(α,pnγ),63Cu(p,pnγ)
   1905.3E(γ): weighted average of 1905.1 1 in 50Cr(16O,3pnγ) and 1906.0 2 in 54Cr(12C,p3nγ).
I(γ): uweighted average of 1.19 32 in 50Cr(16O,3pnγ), 1.9 13 in 52Cr(16O,αpnγ) and 0.87 13 in 54Cr( 12C,p3nγ). Other:1.25 in 60Ni(α,pnγ),63Cu(p,pnγ)
M(γ): ΔJ=(2), (Q) from γ(θ) in (α,pnγ); E2 is less likely B(E2)(W.u.) is too small to be realistic
E(level)E(gamma)Comments
   2444.1   1195.4E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2518.80   1148.1E(γ): weighted average of 1147.8 4 in 54Cr(12C,p3nγ) and 1148.2 3 in 59Co(α,nγ),60Ni(3He,pγ)
   2622.7   2232.5E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2638.8   1268.1E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2740   1825E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   2833.75    537.8E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
    686.4E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1462.9E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   2893.12    596.7E(γ): weighted average of 596.7 1 in 50Cr(16O,3pnγ), 596.9 2 in 54Cr(12C,p3nγ) and 595.6 3 in 59Co(α,nγ),60Ni(3He,pγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: D+Q in 50Cr(16O,3pnγ), 52Cr(16O,αpnγ) and 60Ni(α,pnγ),63Cu(p,pnγ)
    745.1E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=18.6 12 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
   3030.16    137.2E(γ): weighted average of 137.3 1 in 50Cr(16O,3pnγ) and 136.9 2 in 54Cr(12C,p3nγ)
I(γ): unweighted average of 14.4 10 in 50Cr(16O,3pnγ), 20 11 in 52Cr(16O,αpnγ) and 6.6 11 in 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 50Cr(16O,3pnγ); γγ(θ) in 54Cr(12C,p3nγ)
    734.1E(γ): weighted average of 734.1 1 in 50Cr(16O,3pnγ) and 734.1 5 in 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 60Ni(α,pnγ),63Cu(p,pnγ)
   3191.15   1514.0E(γ): weighted average of 1514.0 1 in 50Cr(16O,3pnγ) and 1514.0 2 in 54Cr(12C,p3nγ)
I(γ): unweighted average of 39 7 in 50Cr(16O,3pnγ), 52 30 in 52Cr(16O,αpnγ) and 11 4 in 54Cr(12C,p3nγ)
   1821.0E(γ): weighted average of 1821.1 1 in 50Cr(16O,3pnγ) and 1820.7 2 in 54Cr(12C,p3nγ)
M(γ): d from γγ(θ)(DCO) in 50Cr(16O,3pnγ)
   3401.40    567.8E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1253.4E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   3435.27    243.7E(γ): From 54Cr(12C,p3nγ)
I(γ): 59 3 in (16O,3pnγ). From 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 50Cr(16O,3pnγ)
    544.1E(γ): poor fit, level-energy difference=542.15. From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1139.2E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): ΔJ=2, Q from γ(θ). δ(O/Q)=-0.04
   3581   1285E(γ): from 59Co(α,nγ),60Ni(3He,pγ)
   3628.68    438.6E(γ): poor fit, level-energy difference=437.53. From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
    599.1E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
    735.1E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1332.6E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Other: Q in 50Cr(16O,3pnγ), 52Cr(16O,αpnγ)
   3678.13    782.5E(γ): poor fit, level-energy difference=785.01. From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ).
E(level)E(gamma)Comments
   3979.97    544.3M(γ): from γγ(θ)(ADO) in 54Cr(12C,p3nγ) and 60Ni(α,pnγ), 63Cu(p,pnγ). Others:D+Q in 50Cr(16O,3pnγ) and 52Cr(16O,αpnγ)
    789.2E(γ): From 54Cr(12C,p3nγ)
I(γ): from 50Cr(16O,3pnγ)
   4105.34    476.7E(γ): From 54Cr(12C,p3nγ)
M(γ): γγ(θ)(ADO) in 54Cr(12C,p3nγ)
   4166.08    487.8E(γ): From 54Cr(12C,p3nγ)
I(γ): weighted average of 7.2 33 in 52Cr(16O,αpnγ) and 7.6 12 in 54Cr(12C,p3nγ)
    537.6E(γ): From 54Cr(12C,p3nγ)
I(γ): unweighted average of 41.9 27 in 50Cr(16O,3pnγ), 20.4 79 in 52Cr(16O,αpnγ) and 16 3 in 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 50Cr(16O,3pnγ)
    730.2E(γ): From 54Cr(12C,p3nγ)
I(γ): unweighted average of 7.2 33 in 52Cr(16O,αpnγ) and 23.4 36 in 54Cr(12C,p3nγ)
   1135.2E(γ): From 54Cr(12C,p3nγ)
I(γ): unweighted average of 32.4 20 in 50Cr(16O,3pnγ), 15.8 66 in 52Cr(16O,αpnγ) and 37.0 58 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) in 54Cr(12C,p3nγ), and γ(θ) in 50Cr(16O,3pnγ)
   1273.0E(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: Q in 50Cr(16O,3pnγ), 52Cr(16O,αpnγ) and 60Ni(α,pnγ),63Cu(p,pnγ)
   1869.7E(γ): From 54Cr(12C,p3nγ)
I(γ): unweighted average of 7.2 46 in 52Cr(16O,αpnγ) and 16.4 26 in 54Cr(12C,p3nγ)
   4447.91    467.8M(γ): from γ(θ) in 50Cr(16O,3pnγ). Other: (D+Q) in 52Cr(16O,αpnγ)
   1012.8M(γ): from γ(θ) in 52Cr(16O,αpnγ)
   1554.7M(γ): from γγ(θ)(ADO) in 54Cr(12C,p3nγ)
   4597.37    492.5E(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ).
   4629.05   1194.0E(γ): weighted average of 1193.9 1 54Cr(12C,p3nγ) and 1194.1 1 50Cr(16O,3pnγ)
I(γ): from 50Cr(16O,3pnγ)
M(γ): from 54Cr(12C,p3nγ) and 52Cr(16O,αpnγ)
   4747.68   1119.0E(γ): from 50Cr(16O,3pnγ). Other: 1118.8 2 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ).
   5001.22    253.5E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) in 54Cr(12C,p3nγ)
    403.9E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
    834.9E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: (d) in 50Cr(16O,3pnγ), D+Q in 52Cr(16O,αpnγ)
    895.5E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1372.7E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: (D+Q) in 50Cr(16O,3pnγ), Q in 52Cr(16O,αpnγ)
   5048.52    419.4E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from 54Cr(12C,p3nγ), 52Cr(16O,αpnγ) and 50Cr(16O,3pnγ)
    601.1E(γ): From 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ). Other: Iγ=0 in 54Cr(12C,p3nγ)
    881.2E(γ): poor fit, level-energy difference=882.44. From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1068.7E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 50Cr(16O,3pnγ)
   5108.56    660.7E(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) in 54Cr(12C,p3nγ)
E(level)E(gamma)Comments
   5259.12    811.2E(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) in 54Cr(12C,p3nγ)
   5619.24    512M(γ): from γ(θ) in 52Cr(16O,αpnγ)
    570.3E(γ): From 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: D+Q in 50Cr(16O,3pnγ), (d) in 52Cr(16O,αpnγ)
    990.1E(γ): From 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ). Other: 67 11 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ).
   5841.72    222.9E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=100 14 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
    793.3E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=59 32 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
   6009.47   1008.1E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 52Cr(16O,αpnγ). Other: (Q) in 50Cr(16O,3pnγ)
   1261.9E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Other: Q in 50Cr(16O,3pnγ), 52Cr(16O,αpnγ)
   1843.3E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   6176.21   1428.6E(γ): From 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Other: (d) from γ(θ) in 52Cr(16O,αpnγ)
   6217.53   1169.0E(γ): From 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 52Cr(16O,αpnγ)
   6530.72    689.0E(γ): From 54Cr(12C,p3nγ)
M(γ): from γ(θ) in 52Cr(16O,αpnγ)
   7102.07   1092.7E(γ): weighted average of 1092.7 1 in 50Cr(16O,3pnγ) and 1092.5 2 in 54Cr(12C,p3nγ)
M(γ): from γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: d in 50Cr(16O,3pnγ), D+Q in 52Cr(16O,αpnγ)
   7133.59   1292.4E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
   1513.8E(γ): From 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): from gγ(θ)(DCO) in 52Cr(16O,αpnγ).
   7243.8    713.1E(γ): From 54Cr(12C,p3nγ)
   7287.57   1111.7E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=43 14 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
   1278.3E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=100 19 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
   7621.28    335.6E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=67 53 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
    519.3E(γ): From 54Cr(12C,p3nγ)
I(γ): other: Iγ=100 33 in 52Cr(16O,αpnγ). From 54Cr(12C,p3nγ)
M(γ): γγ(θ)(ADO) and γγ(lin pol) in 54Cr(12C,p3nγ). Others: (d) in 52Cr(16O,αpnγ)
   1611.6E(γ): weighted average of 1611.7 1 in 50Cr(16O,3pnγ) and 1611.4 3 in 54Cr(12C,p3nγ)
I(γ): From 54Cr(12C,p3nγ)
M(γ): other: D+Q in 50Cr(16O,3pnγ)
   8960.9    358.2E(γ): From 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ)
   1859.2E(γ): From 54Cr(12C,p3nγ)
I(γ): from 52Cr(16O,αpnγ)
M(γ): γ(θ) in 52Cr(16O,αpnγ)
  10883.7   1925E(γ): from 52Cr(16O,αpnγ)

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