ADOPTED LEVELS, GAMMAS for 70Ge

Authors: G. G~urdal, E.A. Mccutchan |  Citation: Nucl. Data Sheets 136, 1 (2016) |  Cutoff date: 1-Jul-2016 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-6.22×103 keV 5S(n)= 11532.5 keV 16S(p)= 8523.0 keV 15Q(α)= -4087.7 keV 11
Reference: 2012Wa38

References:
  A  70Ga β- decay  B  70As ε decay
  C  70Zn 2β- decay  D  12C(66Zn,8BeG)
  E  46Ti(28Si,4PG)  F  64Ni(12C,α2nγ)
  G  65Cu(7Li,2nγ), 60Ni(12C,2pγ)  H  66Zn(6Li,d)
  I  68Zn(α,2nγ), 67Zn(α,nγ)  J  69Ga(p,γ)
  K  69Ga(d,n)  L  69Ga(α,t)
  M  69Ga(3He,d)  N  Coulomb Excitation
  O  70Ge(γ,γ’)  P  70Ge(pol γ,γ’)
  Q  70Ge(n,n’γ)  R  70Ge(p,p’γ)
  S  70Ge(p,p’),(pol p,p’)  T  70Ge(d,d’)
  U  70Ge(6Li,6Li’)  V  70Ge(α,α’)
  W  70Ge(E,E’)  X  72Ge(p,t)
  Y  74Se(d,6Li) 








E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
      0.0ABCDEFGHIJKLMNOPQRSTUVWXY 0+ STABLE      
   1039.506 9 AB DEFG IJ LMN  QRSTUVWXY 2+ 1.31 ps 2    1039.513 10 
  100
E2
      0.0
0+
   1215.621 15 AB DE GHIJKLMN  QRSTUV XY 0+ 3.7 ns 2     176.115 13 
  1215.8
  100 9 
 
E2
E0
   1039.506
      0.0
2+
0+
   1707.689 14  B DEFG IJ LMN  QRSTUV X  2+ 1.94 ps 28     492.09 5 
   668.21 4 
  1707.61 2 
    4.9 4 
  100 6 
   79.2 23 
E2
M1+E2
E2
   1215.621
   1039.506
      0.0
0+
2+
0+
   2153.084 20  B DEFG IJ L N  QR  UV X  4+ 0.76 ps 14     445.6 10 
  1113.60 4 
    0.7 4 
  100 6 
[E2]
E2
   1707.689
   1039.506
2+
2+
   2156.744 21  B D  G  J  MN  QRS       2+      450.4 5 
   941.10 4 
  1117.28 4 
  2156.65 6 
    4.7 24 
   62 3 
  100 6 
   17.1 9 
E2
E2
E2
[E2]
   1707.689
   1215.621
   1039.506
      0.0
2+
0+
2+
0+
   2160                  ST             
   2307.0 5          J LM   QRS    X  0+ ≤ 40 ps    599.1
  1091.3
  1267.5
  2307.1
   82 7 
 
  100 7 
 
E2
E0
E2
E0
   1707.689
   1215.621
   1039.506
      0.0
2+
0+
2+
0+
   2451.313 21  B D FG IJ LM   QRS       3+ 1.7 ps +10-3     294.60 16 
   297.88 8 
   743.62 4 
  1411.86 4 
    0.37 15 
    2.4 4 
  100 7 
   39.3 23 


M1(+E2)
M1+E2
   2156.744
   2153.084
   1707.689
   1039.506
2+
4+
2+
2+
   2534.95 4  B D    IJ LM   QRS    X  2+ 0.6 ps 2     827.24 10 
  1319.6
  1495.43 5 
   32 4 
    9.5 10 
  100 8 


M1+E2
   1707.689
   1215.621
   1039.506
2+
0+
2+
   2562.049 20  B DE G I  LMN  QRSTUVWX  3- 0.50 ps 7    1522.55 2 
  100
E1+M2
   1039.506
2+
   2806.25 3  B DEFG IJ LM   QRS  V X  4+ 0.6 ps 2     653.15 6 
  1098.54 4 
   11.8 14 
  100 6 
(M1)
E2
   2153.084
   1707.689
4+
2+
   2887.4 7            LM   QRS    X  0+      730.8
  1179.5
  100 10 
  100 15 


   2156.744
   1707.689
2+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   2945.0 10          J LM   QRS  V X  2+     1237.3
  100

   1707.689
2+
   3046.439 20  B         LM   QRS U  X  3+      239.90 10 
   595.11 4 
   889.72 4 
   893.50 4 
  1338.76 4 
  2006.87 3 
    1.1 3 
  100 6 
   14.0 9 
   10.0 5 
   48 3 
   14.8 5 

[M1+E2]
M1+E2
M1+E2
M1+E2
M1+E2
   2806.25
   2451.313
   2156.744
   2153.084
   1707.689
   1039.506
4+
3+
2+
4+
2+
2+
   3058.695 16  B DE G I   M   QRST V    4+ 1.4 ps 3     252.46 4 
   496.74 4 
   607.34 4 
   901.95 5 
   905.61 2 
  1350.90 6 
  2019.16 2 
   16.3 10 
   15.3 10 
   26.2 15 
    5.9 4 
   67 4 
    2.8 3 
  100.0 25 
[M1+E2]
[E1]
M1+(E2)
[E2]
[M1+E2]
[E2]
E2
   2806.25
   2562.049
   2451.313
   2156.744
   2153.084
   1707.689
   1039.506
4+
3-
3+
2+
4+
2+
2+
   3105.7 7             M   QRS    X  (0+)     1397.9
  2066.3
   33 10 
  100 7 


   1707.689
   1039.506
2+
2+
   3130 10                      V           
   3180.6 10             M   QRS UV X  2+ 0.015 ps 6    2141.1
  100

   1039.506
2+
   3194.2 6            L      S  V X  4+        
   3240.5 10            LM O  RS       1+     3240.4
  100
M1
      0.0
0+
   3294.79 8  B  E           QR     X  3+,4+      760.2 5 
  1587.17 12 
  2255.16 11 
    8E1 4 
  100 13 
   44 6 



   2534.95
   1707.689
   1039.506
2+
2+
2+
   3296.98 3     EFG I       Q S       6+ 0.5 ps 1     490
  1143.89 2 
    0.80 20 
  100
[E2]
E2
   2806.25
   2153.084
4+
4+
   3308                       X         
   3314.5 7             M O QRS UV X  1-     2274.6
  3314.8
 
 

E1
   1039.506
      0.0
2+
0+
   3334.8 10            LM   QRS    X  0+ TO 3+     2295.3
  100

   1039.506
2+
   3345 2                   S              
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   3351 2                   S              
   3371.57 10  B              Q         (3,4) 0.3 ps 2    1218.57 11 
  2331.59 24 
  100 21 
   26 6 


   2153.084
   1039.506
4+
2+
   3416.32 4    DE G I   M   Q S    X  5- 13.7 ps 10     357.72 5 
   854.6 4 
  1263.09 6 
   59 4 
   97 6 
  100 6 
E1
E2
E1(+M2)
   3058.695
   2562.049
   2153.084
4+
3-
4+
   3423 2                      V X  (2+)        
   3428 2                   STU     5-        
   3432 2             M     S  V X  3-        
   3456 2                   S       4+        
   3466 6 ?            M                    
   3482.3 5             M    RS    X  1+,2+,3+        
   3488.276 21  B              QRS       (3,4+)      953.30 7 
  1036.99 4 
  1331.58 7 
  1335.28 10 
  1780.52 2 
  2448.82 9 
   11.3 11 
   64 5 
   10.0 9 
    8.1 9 
  100.0 22 
    7.7 5 






   2534.95
   2451.313
   2156.744
   2153.084
   1707.689
   1039.506
2+
3+
2+
4+
2+
2+
   3517 6 ?            M                    
   3540?                   T             
   3562.7 6             M    RS    X         
   3570.44 7  B          M     S UV    (3)-     1417.24 7 
  2531.7 2 
  100 10 
    6.0 20 


   2153.084
   1039.506
4+
2+
   3580.7 10                 Q S       4+ 0.6 ps 2    1427.6
  100

   2153.084
4+
   3590.3 5             M    RS              
   3631.5 10            LM   QRS    X  (2)+ 0.5 ps 1    2591.9
  100

   1039.506
2+
   3637 10                      V    0+        
   3666.78 6     E G I   M   Q S       6- 35 ps 3     250.46 5 
  100
M1(+E2)
   3416.32
5-
   3669.4 10      F  I   M             (5+) 1 ps 1    1218.1
  100

   2451.313
3+
   3675.76 7  B         L     RS  V    4+     1523.2 7 
  2636.20 7 
  100 19 
   43.6 19 


   2153.084
   1039.506
4+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   3683 3                        X  0+        
   3687 3             M     S       1+,2+,3+        
   3708.5 9             M    RS              
   3733 3             M             1+,2+,3+        
   3740 3                   S    X  0+        
   3753.2 4     EFG I         S       6+ 1.6 ps 5     946.7 4 
  100
E2
   2806.25
4+
   3776 2                   S  V X  3-        
   3782 2             M     S       2+        
   3850 3            LM     S              
   3856 2                   S       (2)-        
   3870 2                   S  V X  3-        
   3890 3             M     S       1+,2+,3+        
   3895.2 10            L  O        X  1     3895.1
  100
D
      0.0
0+
   3900.6 7     E                     (4-,5,6,7-)      234
   484
 
 


   3666.78
   3416.32
6-
5-
   3903.9 7             M    RS  V    +        
   3911 3                   S              
   3928 3                   S    X  4+        
   3941 10 ?                  S              
   3955.11 8     E G I       Q S  V    7- 17.0 ps 10     288.33 5 
   658.1 4 
  100 10 
   19 4 
M1(+E2)
E1(+M2)
   3666.78
   3296.98
6-
6+
   3964 3            LM        V    (2)-        
   3976 3                   S       1+,2+,3+        
   3990 3             M     S              
   4003 2                  RS  V           
   4024 3             M          X  4+        
   4037 3                   S  V    (4+)        
   4053.3 10     E                         1247
  100

   2806.25
4+
   4054 3             M     S              
   4061 2                   S       1+,2+,3+        
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4080 3             M             1+,2+,3+        
   4086 3                      V X  4+        
   4096.1 20                  RS       3-        
   4101.45 5  B                S       3-,4-      688
  1045
  1295.24 6 
  1539.29 20 
  1944.21 16 
  1948.35 11 
 
 
  100 11 
   31 9 
   25 4 
   59 5 


Q



   3416.32
   3058.695
   2806.25
   2562.049
   2156.744
   2153.084
5-
4+
4+
3-
2+
4+
   4103.5 5       G                   6+      688
  1045
  1295
  1948
    7.3 6 
  100 9 
   14.8 13 
    5.5 6 


Q

   3416.32
   3058.695
   2806.25
   2156.744
5-
4+
4+
2+
   4119 3             M     S              
   4131 2             M     S       2-        
   4144.7 20                  RS  V    1-        
   4155 2             M     S       1+,2+,3+        
   4166 3                   S              
   4180 3                   S    X  2+        
   4203.5 4     EFG I   M     S       8+ 8 ps 2     450
   906.6 4 
    2.9 6 
  100 10 
[E2]
E2
   3753.2
   3296.98
6+
6+
   4212 3             M     S       3+,4+,5+        
   4226 3                   S    X  2+        
   4238 3             M     S    X  1+,2+,3+        
   4243.11 15  B                            1196.66 15 
  100

   3046.439
3+
   4261 10                   S    X  2+        
   4268 10                      V    5-        
   4282 10                   S       3+,4+,5+        
   4287 3             M             1+,2+,3+        
   4299.3 3     E G I         S  V    7- 3 ps 1     344.1 4 
  1002.4 4 
   73 15 
  100 20 
M1(+E2)
E1+M2
   3955.11
   3296.98
7-
6+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4330 3            LM     S  V X         
   4352 3             M  P       X  (2)-        
   4356.7 7                P          1(-)     4356.6 7 
  100
E1
      0.0
0+
   4357 10                   S    X  +        
   4365 10                   S  V    (3-)        
   4378 10                   S              
   4391 3             M     S       1+,2+,3+        
   4409 10                   S  V    4+        
   4419 3             M     S       2-,3-,4-        
   4431.4 4     EFG I                 8+ 0.4 ps 2     677
  1134.6 4 
    3.4 10 
  100 9 
[E2]
E2
   3753.2
   3296.98
6+
6+
   4447.5 8             M  P          1-     4447.3 8 
  100
E1
      0.0
0+
   4448 2                   S  V X  2+        
   4473 2             M     S  V X  4+        
   4520 3             M     S       2-,3-,4-        
   4520.9 8                P          1-     4520.7 8 
  100
E1
      0.0
0+
   4534 10                   S  V    (4+)        
   4539 3                        X  0+        
   4546 10                   S              
   4552.1 10         I                 (8) 104 ps +70-35     252.8
  100

   4299.3
7-
   4555 3             M     S              
   4574 3             M                    
   4577.18 15  B                S       (3,4+)     2419.88 24 
  2424.41 20 
   86 15 
  100 15 


   2156.744
   2153.084
2+
4+
   4606 10                   S              
   4613 3             M     S       1+,2+,3+        
   4629 3                   S  V X  (4+)        
   4642 3             M     S       (2)-        
   4657 10                      V           
   4675.39 21  B                S       (3,4+)     2521.8 3 
  2968.1 3 
   49 13 
  100 15 


   2153.084
   1707.689
4+
2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4687 2            LM     S       (2)-        
   4707 10                   S    X         
   4716 10                   S  V    (2+)        
   4727 10                   S              
   4736 3             M                    
   4768 3             M             (2)-        
   4775 10                      V    (4+)        
   4790.6 19                P          1(-)     4790.4 19 
  100
E1
      0.0
0+
   4810 10                      V    3-        
   4820.2 11      F                    (8+)     1067
  100

   3753.2
6+
   4851.9 4     E G I   M             (8-) > 3 ps    896.8 4 
  100
(M1+E2)
   3955.11
7-
   4877 3             M             2-        
   4886.6 13                P          1     4886.4 13 
  100
D
      0.0
0+
   4905 3             M             3-        
   4908.1 10     E                     (9-)      953
  100

   3955.11
7-
   4915 10                      V           
   4935 3                        X  1-        
   4940 10                      V    3-        
   4943 3             M             (2)-        
   4979 3             M             (2)-        
   4985.0 10         I                     1029.9
  100

   3955.11
7-
   5008 3             M        V    2-        
   5024 3                        X  2+        
   5040 10         I   M        V    (3-)        
   5048.4 10         I   M             (4-)     1381.6
  100

   3666.78
6-
   5050 3            L           X  0+        
   5078 3             M        V    1+,2+,3+        
   5102 3             M             1+,2+,3+        
   5113 10                      V    (3-)        
   5129.6 7                P          1-     5129.4 7 
  100
E1
      0.0
0+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   5145 3             M        V    (3-)        
   5184 3                        X  0+        
   5195 10                      V    (4+)        
   5222.3 14     E                         1169
  100

   4053.3

   5227 10                      V    (3-)        
   5242.7 11     EFG I                 10+     1039.2
  100
E2
   4203.5
8+
   5263.4 8                P          1(-)     5263.2 8 
  100
E1
      0.0
0+
   5265.82 14  B                            2219.34 14 
  100

   3046.439
3+
   5290 3                        X  0+        
   5299.2 4     E G I                 9(-)     1344.1 4 
  100
(E2)
   3955.11
7-
   5338 3                        X  0+        
   5370.11 5  B                            1881.67 5 
  2325.42 18 
  100 6 
   21 2 


   3488.276
   3046.439
(3,4+)
3+
   5403 3                        X  0+        
   5410 3                        X         
   5435.5 11       G                   8+     1332
  100
Q
   4103.5
6+
   5441 3                        X  (2+)        
   5465.3 8                P          1-     5465.1 8 
  100
E1
      0.0
0+
   5467 3                        X  0+        
   5512.5 10                P          1(-)     5512.3 10 
  100
E1
      0.0
0+
   5539.7 5      FG I                 (10) 5 ns 2    1108.3 4 
  100
Q
   4431.4
8+
   5552.5 5       G                   9(-)     1253.2 4 
  100
Q
   4299.3
7-
   5876.9 7                P          1(-)     5876.6 7 
  100
E1
      0.0
0+
   5989.7 7                P          1(+)     5989.4 7 
  100
M1
      0.0
0+
   6006.9 11     E                         1155
  100

   4851.9
(8-)
   6160.1 14     E                     (11-)     1252
  100

   4908.1
(9-)
   6297.0 14                P          1     6296.7 14 
  100
D
      0.0
0+
   6362.8 8                P          1     6362.5 8 
  100
D
      0.0
0+
   6549.1 14     E                         1641
  100

   4908.1
(9-)
   6572.2 11       G                   11(-)     1273
  100
Q
   5299.2
9(-)
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6587.7 8                P          1(+)     6587.4 8 
  100
M1
      0.0
0+
   6604.2 11     E                         1305
  100

   5299.2
9(-)
   6636.6 15                P          1     6636.3 15 
  100
D
      0.0
0+
   6702.5 13                P          1(-)     6702.2 13 
  100
E1
      0.0
0+
   6716.8 15      FG                   12+     1474
  100
E2
   5242.7
10+
   6779.7 11      F                    (12)     1240
  100
Q
   5539.7
(10)
   6786.1 17     E                     (13-)      626
  100

   6160.1
(11-)
   7306.3 8                P          1(+)     7305.9 8 
  100
M1
      0.0
0+
   7426.0 8                P          1(-)     7425.6 8 
  100
E1
      0.0
0+
   7619.7 15      F                    (14)      840
  100
Q
   6779.7
(12)
   7753.5 10                P          1(-)     7753.0 10 
  100
E1
      0.0
0+
   7767.8 18      F                    14+     1051
  100
E2
   6716.8
12+
   8058.1 20     E                     (15-)     1272
  100

   6786.1
(13-)
   8245.7 18      F                    (16)      626
  100
Q
   7619.7
(14)
   8283.7 15                P          1(+)     8283.2 15 
  100
M1
      0.0
0+
   8878.5 14                P          1     8877.9 14 
  100
D
      0.0
0+
   9423.7 21      F                    (18)     1178
  100
Q
   8245.7
(16)
   9619.2 22     E                     (17-)     1561
  100

   8058.1
(15-)
  10269.7 23      F                    (20)      846
  100

   9423.7
(18)
  11336.2 25     E                     (19-)     1717
  100

   9619.2
(17-)
  13173 3     E                     (21-)     1837
  100

  11336.2
(19-)

E(level): From a least-squares fit for levels connected by γ’s and from reaction data sets for others

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Band Transitions:

E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - SEQUENCE BASED ON GS
      0.0 0+ STABLE      
   1039.506 9  2+ 1.31 ps 2    1039.513 10 
  100
E2
      0.0
0+
   2153.084 20  4+ 0.76 ps 14     445.6 10 
  1113.60 4 
    0.7 4 
  100 6 
[E2]
E2
   1707.689
   1039.506
2+
2+
   3296.98 3  6+ 0.5 ps 1     490
  1143.89 2 
    0.80 20 
  100
[E2]
E2
   2806.25
   2153.084
4+
4+
   4203.5 4  8+ 8 ps 2     450
   906.6 4 
    2.9 6 
  100 10 
[E2]
E2
   3753.2
   3296.98
6+
6+
   5242.7 11  10+     1039.2
  100
E2
   4203.5
8+
   6716.8 15  12+        
   7767.8 18  14+     1051
  100
E2
   6716.8
12+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - SEQUENCE BASED ON 2+, 1707.7 keV LEVEL
   1707.689 14  2+ 1.94 ps 28       
   2451.313 21  3+ 1.7 ps +10-3     294.60 16 
   297.88 8 
   743.62 4 
  1411.86 4 
    0.37 15 
    2.4 4 
  100 7 
   39.3 23 


M1(+E2)
M1+E2
   2156.744
   2153.084
   1707.689
   1039.506
2+
4+
2+
2+
   2806.25 3  4+ 0.6 ps 2     653.15 6 
  1098.54 4 
   11.8 14 
  100 6 
(M1)
E2
   2153.084
   1707.689
4+
2+
   3669.4 10  (5+) 1 ps 1    1218.1
  100

   2451.313
3+
   3753.2 4  6+ 1.6 ps 5     946.7 4 
  100
E2
   2806.25
4+
   4820.2 11  (8+)     1067
  100

   3753.2
6+
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - SEQUENCE BASED ON 3-, 2562.05 keV LEVEL
   2562.049 20  3- 0.50 ps 7       
   3416.32 4  5- 13.7 ps 10     357.72 5 
   854.6 4 
  1263.09 6 
   59 4 
   97 6 
  100 6 
E1
E2
E1(+M2)
   3058.695
   2562.049
   2153.084
4+
3-
4+
   3666.78 6  6- 35 ps 3     250.46 5 
  100
M1(+E2)
   3416.32
5-
   3955.11 8  7- 17.0 ps 10     288.33 5 
   658.1 4 
  100 10 
   19 4 
M1(+E2)
E1(+M2)
   3666.78
   3296.98
6-
6+
   4908.1 10  (9-)      953
  100

   3955.11
7-
   6160.1 14  (11-)     1252
  100

   4908.1
(9-)
   6786.1 17  (13-)        
   8058.1 20  (15-)     1272
  100

   6786.1
(13-)
   9619.2 22  (17-)     1561
  100

   8058.1
(15-)
  11336.2 25  (19-)     1717
  100

   9619.2
(17-)
  13173 3  (21-)     1837
  100

  11336.2
(19-)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - SEQUENCE BASED ON 0+, 1215.62 keV LEVEL
   1215.621 15  0+ 3.7 ns 2       
   2156.744 21  2+      450.4 5 
   941.10 4 
  1117.28 4 
  2156.65 6 
    4.7 24 
   62 3 
  100 6 
   17.1 9 
E2
E2
E2
[E2]
   1707.689
   1215.621
   1039.506
      0.0
2+
0+
2+
0+
   3058.695 16  4+ 1.4 ps 3     252.46 4 
   496.74 4 
   607.34 4 
   901.95 5 
   905.61 2 
  1350.90 6 
  2019.16 2 
   16.3 10 
   15.3 10 
   26.2 15 
    5.9 4 
   67 4 
    2.8 3 
  100.0 25 
[M1+E2]
[E1]
M1+(E2)
[E2]
[M1+E2]
[E2]
E2
   2806.25
   2562.049
   2451.313
   2156.744
   2153.084
   1707.689
   1039.506
4+
3-
3+
2+
4+
2+
2+
   4103.5 5  6+      688
  1045
  1295
  1948
    7.3 6 
  100 9 
   14.8 13 
    5.5 6 


Q

   3416.32
   3058.695
   2806.25
   2156.744
5-
4+
4+
2+
   5435.5 11  8+     1332
  100
Q
   4103.5
6+

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Additional Gamma Data:















E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   1039.506 2+ 1.31 ps 2    1039.513 10 E2 3.23×10-4B(E2)(W.u.)=20.8 4, α=3.23E-4, α(K)=0.000289 4, α(L)=2.96E-5 5, α(M)=4.41E-6 7, α(N)=2.88E-7 4
   1215.621 0+ 3.7 ns 2     176.115 13 E2 0.0894B(E2)(W.u.)=48 7, α=0.0894, α(K)=0.0790 11, α(L)=0.00902 13, α(M)=0.001337 19, α(N)=7.73E-5 11
   1707.689 2+ 1.94 ps 28     492.09 5 E2 0.00247B(E2)(W.u.)=16 3, α=0.00247, α(K)=0.00220 3, α(L)=0.000232 4, α(M)=3.45E-5 5, α(N)=2.20E-6 3
2+ 1.94 ps 28     668.21 4 M1+E2-3.6 +11-69.80×10-4B(E2)(W.u.)=64 11, B(M1)(W.u.)=0.0015 9, α=9.80E-4 2, α(K)=0.000875 21, α(L)=9.08E-5 22, α(M)=1.35E-5 4, α(N)=8.74E-7 20
2+ 1.94 ps 28    1707.61 2 E2 2.87×10-4B(E2)(W.u.)=0.50 8, α=2.87E-4, α(K)=0.0001011 15, α(L)=1.025E-5 15, α(M)=1.529E-6 22, α(N)=1.007E-7 15
   2153.084 4+ 0.76 ps 14     445.6 10 [E2] 0.00338B(E2)(W.u.)=17 10, α=0.00338 6, α(K)=0.00301 5, α(L)=0.000318 5, α(M)=4.74E-5 8, α(N)=3.00E-6 5
4+ 0.76 ps 14    1113.60 4 E2 2.77×10-4B(E2)(W.u.)=25 5, α=2.77E-4, α(K)=0.000247 4, α(L)=2.52E-5 4, α(M)=3.76E-6 6, α(N)=2.46E-7 4
   2156.744 2+      450.4 5 E2 0.00327α=0.00327, α(K)=0.00291 5, α(L)=0.000308 5, α(M)=4.58×10-5 7, α(N)=2.90E-6 5
2+      941.10 4 E2 4.09×10-4α=4.09×10-4, α(K)=0.000366 6, α(L)=3.76E-5 6, α(M)=5.60E-6 8, α(N)=3.65E-7 6
2+     1117.28 4 E2 2.75×10-4α=2.75×10-4, α(K)=0.000245 4, α(L)=2.50E-5 4, α(M)=3.73E-6 6, α(N)=2.44E-7 4
2+     2156.65 6 [E2] 4.60×10-4α=4.60×10-4, α(K)=6.55E-5 10, α(L)=6.62E-6 10, α(M)=9.88E-7 14, α(N)=6.52E-8 10
   2307.0 0+ ≤ 40 ps    599.1E2 1.36×10-3B(E2)(W.u.)>4.8, α=1.36E-3, α(K)=0.001218 17, α(L)=0.0001270 18, α(M)=1.89E-5 3, α(N)=1.216E-6 17
0+ ≤ 40 ps   1267.5E2 2.28×10-4B(E2)(W.u.)>0.14, α=2.28E-4, α(K)=0.000185 3, α(L)=1.89E-5 3, α(M)=2.82E-6 4, α(N)=1.85E-7 3
   2451.313 3+ 1.7 ps +10-3     743.62 4 M1(+E2)+0.04 85.78×10-4B(E2)(W.u.)<0.5, B(M1)(W.u.)=0.022 +14-5, α=5.78E-4 9, α(K)=0.000517 8, α(L)=5.28E-5 8, α(M)=7.89E-6 12, α(N)=5.20E-7 8
3+ 1.7 ps +10-3    1411.86 4 M1+E2-2.2 +5-32.18×10-4B(E2)(W.u.)=0.79 +48-17, B(M1)(W.u.)=0.00022 +15-10, α=2.18E-4 4, α(K)=0.0001463 22, α(L)=1.487E-5 22, α(M)=2.22E-6 4, α(N)=1.460E-7 22
   2534.95 2+ 0.6 ps 2    1495.43 5 M1+E2-0.75 2.15×10-4B(E2)(W.u.)=1.9 7, B(M1)(W.u.)=0.0050 18, α=2.15E-4, α(K)=0.0001274 18, α(L)=1.291E-5 18, α(M)=1.93E-6 3, α(N)=1.273E-7 18
   2562.049 3- 0.50 ps 7    1522.55 2 E1+M2-0.11 103.42×10-4B(E1)(W.u.)=0.00022 4, α=3.42E-4, α(K)=6.7E-5 6, α(L)=6.8E-6 6, α(M)=1.01E-6 8, α(N)=6.6E-8 6
   2806.25 4+ 0.6 ps 2     653.15 6 (M1) 7.66×10-4B(M1)(W.u.)=0.014 5, α=7.66×10-4, α(K)=0.000685 10, α(L)=7.01E-5 10, α(M)=1.048E-5 15, α(N)=6.90E-7 10
4+ 0.6 ps 2    1098.54 4 E2 2.84×10-4B(E2)(W.u.)=31 11, α=2.84E-4, α(K)=0.000254 4, α(L)=2.60E-5 4, α(M)=3.88E-6 6, α(N)=2.54E-7 4
   3058.695 4+ 1.4 ps 3     496.74 4 [E1] 7.15×10-4B(E1)(W.u.)=0.00015 4, α=7.15E-4, α(K)=0.000639 9, α(L)=6.52E-5 10, α(M)=9.72E-6 14, α(N)=6.31E-7 9
4+ 1.4 ps 3     901.95 5 [E2] 4.54×10-4B(E2)(W.u.)=1.00 23, α=4.54E-4, α(K)=0.000406 6, α(L)=4.17E-5 6, α(M)=6.22E-6 9, α(N)=4.05E-7 6
4+ 1.4 ps 3    1350.90 6 [E2] 2.21×10-4B(E2)(W.u.)=0.063 16, α=2.21E-4, α(K)=0.0001618 23, α(L)=1.647E-5 23, α(M)=2.46E-6 4, α(N)=1.614E-7 23
4+ 1.4 ps 3    2019.16 2 E2 4.02×10-4B(E2)(W.u.)=0.30 7, α=4.02E-4, α(K)=7.38E-5 11, α(L)=7.46E-6 11, α(M)=1.114E-6 16, α(N)=7.35E-8 11
   3240.5 1+     3240.4M1 8.29×10-4α=8.29×10-4, α(K)=3.21E-5 5, α(L)=3.23E-6 5, α(M)=4.82E-7 7, α(N)=3.19E-8 5
   3296.98 6+ 0.5 ps 1    1143.89 2 E2 2.62×10-4B(E2)(W.u.)=34 7, α=2.62E-4, α(K)=0.000232 4, α(L)=2.37E-5 4, α(M)=3.53E-6 5, α(N)=2.31E-7 4
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   3314.5 1-     3314.8E1 1.41×10-3α=1.41×10-3, α(K)=2.09E-5 3, α(L)=2.10E-6 3, α(M)=3.14E-7 5, α(N)=2.07E-8 3
   3416.32 5- 13.7 ps 10     357.72 5 E1 1.68×10-3B(E1)(W.u.)=0.000146 16, α=1.68E-3, α(K)=0.001499 21, α(L)=0.0001533 22, α(M)=2.28E-5 4, α(N)=1.475E-6 21
5- 13.7 ps 10     854.6 4 E2 5.20×10-4B(E2)(W.u.)=2.00 21, α=5.20E-4, α(K)=0.000464 7, α(L)=4.78E-5 7, α(M)=7.13E-6 10, α(N)=4.64E-7 7
5- 13.7 ps 10    1263.09 6 E1(+M2)-0.05 51.90×10-4B(E1)(W.u.)=5.5E-6 6, B(M2)(W.u.)=0.040 4, α=1.90E-4 4, α(K)=8.98E-5 24, α(L)=9.07E-6 25, α(M)=1.35E-6 4, α(N)=8.90E-8 25
   3666.78 6- 35 ps 3     250.46 5 M1(+E2)0.03 +2-50.00727B(E2)(W.u.)=0.85 7, B(M1)(W.u.)=0.040 3, α=0.00727, α(K)=0.00648 10, α(L)=0.000678 10, α(M)=0.0001013 15, α(N)=6.62E-6 10
   3753.2 6+ 1.6 ps 5     946.7 4 E2 4.03×10-4B(E2)(W.u.)=27 9, α=4.03E-4, α(K)=0.000360 5, α(L)=3.70E-5 6, α(M)=5.52E-6 8, α(N)=3.60E-7 5
   3895.2 1     3895.1D 1.07×10-3α=1.07×10-3, α(K)=2.40E-5 4, α(L)=2.41E-6 4, α(M)=3.60E-7 5, α(N)=2.39E-8 4
   3955.11 7- 17.0 ps 10     288.33 5 M1(+E2)0.01 30.00512B(E2)(W.u.)=0.081 12, B(M1)(W.u.)=0.045 7, α=0.00512, α(K)=0.00457 7, α(L)=0.000476 7, α(M)=7.12E-5 11, α(N)=4.66E-6 7
7- 17.0 ps 10     658.1 4 E1(+M2)+0.02 53.67×10-4B(E1)(W.u.)=1.3E-5 3, B(M2)(W.u.)=0.056 13, α=3.67E-4 10, α(K)=0.000329 9, α(L)=3.34E-5 9, α(M)=4.98E-6 13, α(N)=3.25E-7 9
   4203.5 8+ 8 ps 2     906.6 4 E2 4.48×10-4B(E2)(W.u.)=6.7 17, α=4.48E-4, α(K)=0.000401 6, α(L)=4.12E-5 6, α(M)=6.14E-6 9, α(N)=4.00E-7 6
   4299.3 7- 3 ps 1     344.1 4 M1(+E2)0.1 30.0034B(E2)(W.u.)=10 4, B(M1)(W.u.)=0.08 3, α=0.0034 6, α(K)=0.0030 6, α(L)=0.00031 6, α(M)=4.7E-5 9, α(N)=3.1E-6 6
7- 3 ps 1    1002.4 4 E1+M20.11 21.59×10-4B(E1)(W.u.)=8.E-5 4, α=1.59E-4 4, α(K)=0.000142 3, α(L)=1.44E-5 4, α(M)=2.15E-6 5, α(N)=1.41E-7 3
   4356.7 1(-)     4356.6 7 E1 0.00182α=0.00182, α(K)=1.480×10-5 21, α(L)=1.483E-6 21, α(M)=2.21E-7 3, α(N)=1.463E-8 21
   4431.4 8+ 0.4 ps 2    1134.6 4 E2 2.66×10-4B(E2)(W.u.)=44 22, α=2.66E-4, α(K)=0.000236 4, α(L)=2.42E-5 4, α(M)=3.60E-6 5, α(N)=2.36E-7 4
   4447.5 1-     4447.3 8 E1 0.00185α=0.00185, α(K)=1.443×10-5 21, α(L)=1.446E-6 21, α(M)=2.16E-7 3, α(N)=1.426E-8 20
   4520.9 1-     4520.7 8 E1 0.00188α=0.00188, α(K)=1.414×10-5 20, α(L)=1.417E-6 20, α(M)=2.11E-7 3, α(N)=1.398E-8 20
   4790.6 1(-)     4790.4 19 E1 0.00196α=0.00196, α(K)=1.317×10-5 19, α(L)=1.319E-6 19, α(M)=1.97E-7 3, α(N)=1.302E-8 19
   4851.9 (8-) > 3 ps    896.8 4 (M1+E2)0.4 23.98×10-4B(E2)(W.u.)<4.9, B(M1)(W.u.)<0.01, α=3.98E-4 11, α(K)=0.000356 10, α(L)=3.64E-5 11, α(M)=5.43E-6 15, α(N)=3.58E-7 10
   5129.6 1-     5129.4 7 E1 0.00207α=0.00207, α(K)=1.212×10-5 17, α(L)=1.214E-6 17, α(M)=1.81E-7 3, α(N)=1.198E-8 17
   5242.7 10+     1039.2E2 3.23×10-4α=3.23×10-4, α(K)=0.000289 4, α(L)=2.96E-5 5, α(M)=4.41E-6 7, α(N)=2.88E-7 4
   5263.4 1(-)     5263.2 8 E1 0.00211α=0.00211, α(K)=1.175×10-5 17, α(L)=1.177E-6 17, α(M)=1.756E-7 25, α(N)=1.162E-8 17
   5465.3 1-     5465.1 8 E1 0.00216α=0.00216, α(K)=1.124×10-5 16, α(L)=1.125E-6 16, α(M)=1.678E-7 24, α(N)=1.111E-8 16
   5512.5 1(-)     5512.3 10 E1 0.00217α=0.00217, α(K)=1.112×10-5 16, α(L)=1.114E-6 16, α(M)=1.661E-7 24, α(N)=1.099E-8 16
   5539.7 (10) 5 ns 2    1108.3 4 Q 5.54×10-4α=5.54×10-4, α(K)=0.000495 7, α(L)=5.10E-5 8, α(M)=7.62E-6 11, α(N)=5.03E-7 7
   5552.5 9(-)     1253.2 4 Q 2.30×10-4α=2.30×10-4, α(K)=0.000190 3, α(L)=1.94E-5 3, α(M)=2.89E-6 4, α(N)=1.89E-7 3
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   5876.9 1(-)     5876.6 7 E1 0.00227α=0.00227, α(K)=1.031×10-5 15, α(L)=1.032E-6 15, α(M)=1.540E-7 22, α(N)=1.019E-8 15
   5989.7 1(+)     5989.4 7 M1 1.66×10-3α=1.66×10-3, α(K)=1.272E-5 18, α(L)=1.276E-6 18, α(M)=1.90E-7 3, α(N)=1.262E-8 18

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
      0.00+ STABLE R=4.055 fm 8; where R is the rms value of charge distribution from (e,e’).
E(level): R=4.055 fm 8; where R is the rms value of charge distribution from (e,e’). SEQUENCE BASED ON GS.
   1039.5062+ 1.31 ps 2  Q=+0.04 3 (2003Su01), μ=+0.91 5
E(level): SEQUENCE BASED ON GS.
   1215.6210+ 3.7 ns 2  E(level): SEQUENCE BASED ON 0+, 1215.62 keV LEVEL.
   1707.6892+ 1.94 ps 28  Q=-0.07 4 (2003Su01), μ=+1.3 7 (2013Gu23)
E(level): SEQUENCE BASED ON 2+, 1707.7 keV LEVEL.
   2153.0844+ 0.76 ps 14  Q=+0.22 5 (2003Su01), μ=+1.7 8
E(level): SEQUENCE BASED ON GS.
   2156.7442+   Q=+0.26 10 (2003Su01)
E(level): SEQUENCE BASED ON 0+, 1215.62 keV LEVEL.
   2451.3133+ 1.7 ps +10-3  E(level): SEQUENCE BASED ON 2+, 1707.7 keV LEVEL.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   2534.952+ 0.6 ps 2  T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   2562.0493- 0.50 ps 7  μ=0.3 9 (2007Bo41)
B(E3)=0.073 10 in 70Ge(e,e’); 0.068 from Coulomb excitation.
E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
   2806.254+ 0.6 ps 2  E(level): SEQUENCE BASED ON 2+, 1707.7 keV LEVEL.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   3058.6954+ 1.4 ps 3  E(level): SEQUENCE BASED ON 0+, 1215.62 keV LEVEL.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   3296.986+ 0.5 ps 1  E(level): SEQUENCE BASED ON GS.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   3416.325- 13.7 ps 10  E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
T1/2(level): From RDM in 68Zn(α,2nγ), 67Zn(α,nγ) (1982Cl02).
   3666.786- 35 ps 3  E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
T1/2(level): From RDM in 68Zn(α,2nγ), 67Zn(α,nγ) (1982Cl02).
   3669.4(5+) 1 ps 1  E(level): SEQUENCE BASED ON 2+, 1707.7 keV LEVEL.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   3753.26+ 1.6 ps 5  E(level): SEQUENCE BASED ON 2+, 1707.7 keV LEVEL.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   37822+   XREF: M(3775).
   3955.117- 17.0 ps 10  E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
T1/2(level): From RDM in 68Zn(α,2nγ), 67Zn(α,nγ) (1982Cl02).
   4103.56+   E(level): SEQUENCE BASED ON 0+, 1215.62 keV LEVEL. from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
   4203.58+ 8 ps 2  E(level): SEQUENCE BASED ON GS.
T1/2(level): From RDM in 68Zn(α,2nγ), 67Zn(α,nγ) (1982Cl02).
   4299.37- 3 ps 1  T1/2(level): From RDM in 68Zn(α,2nγ), 67Zn(α,nγ) (1982Cl02).
   4330   L=4+2(+0) in (3He,d); L(α,α’)=(3+5), L(p,t)=0.
   4356.71(-)   BE1=0.0023 4
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   4357+   L(p,t)=2 at 4357 20; L(p,p’)=4 at 4357 10.
   4431.48+ 0.4 ps 2  T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
E(level)Jπ(level)T1/2(level)Comments
   4447.51-   BE1=0.0036 7
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   4520.91-   BE1<0.0005
B(E1) from 70Ge(pol γ, γ’).
   4552.1(8) 104 ps +70-35  T1/2(level): From RDM in 68Zn(α,2nγ), 67Zn(α,nγ) (1982Cl02).
   4790.61(-)   Jπ(level): From mult in (pol γ,γ’).
   4820.2(8+)   E(level): SEQUENCE BASED ON 2+, 1707.7 keV LEVEL.
   4851.9(8-) > 3 ps Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
T1/2(level): From DSAM in 68Zn(α,2nγ), 67Zn(α,nγ).
   4886.61   Jπ(level): From mult in (pol γ,γ’).
   4908.1(9-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
   5129.61-   BE1=0.0029 8
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   5242.710+   E(level): SEQUENCE BASED ON GS.
   5263.41(-)   BE1=0.0022 4
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   5435.58+   E(level): SEQUENCE BASED ON 0+, 1215.62 keV LEVEL. from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
   5465.31-   BE1=0.0023 4
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   5512.51(-)   BE1=0.0019 3
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   5552.59(-)   E(level): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
   5876.91(-)   BE1=0.0014 4
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   5989.71(+)   Jπ(level): From mult in (pol γ,γ’).
   6160.1(11-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
   6297.01   Jπ(level): From mult in (pol γ,γ’).
   6362.81   Jπ(level): From mult in (pol γ,γ’).
   6587.71(+)   Jπ(level): From mult in (pol γ,γ’).
   6636.61   Jπ(level): From mult in (pol γ,γ’).
   6702.51(-)   BE1=0.0027 5
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   6716.812+   E(level): SEQUENCE BASED ON GS.
   6786.1(13-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
E(level)Jπ(level)T1/2(level)Comments
   7306.31(+)   Jπ(level): From mult in (pol γ,γ’).
   7426.01(-)   BE1=0.0022 4
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   7753.51(-)   BE1=0.0026 6
B(E1) from 70Ge(pol γ, γ’).
Jπ(level): From mult in (pol γ,γ’).
   7767.814+   E(level): SEQUENCE BASED ON GS.
   8058.1(15-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
   8283.71(+)   Jπ(level): From mult in (pol γ,γ’).
   8878.51   Jπ(level): From mult in (pol γ,γ’).
   9619.2(17-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
  11336.2(19-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.
  13173(21-)   E(level): SEQUENCE BASED ON 3-, 2562.05 keV LEVEL.
Jπ(level): From (28Si,4pγ) based on DCO, and level cascades.

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Additional Gamma Comments:

E(level)E(gamma)Comments
   1039.506   1039.513E(γ): from 70Ga β- decay
M(γ): From angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ)
   1215.621    176.115E(γ): from 70Ga β- decay
M(γ): From internal conversion data in (p,p’γ)
   1215.8E(γ): From (p,p’γ)
M(γ): From internal conversion data in (p,p’γ)
   1707.689    492.09M(γ): from RUL and decay pattern
   1707.61M(γ): from angular distribution in 68Zn(α,2nγ), 67Zn(α,nγ) and RUL
   2153.084   1113.60M(γ): from 68Zn(α,2nγ), 67Zn(α,nγ) and RUL. δ = -0.1 2 in 68Zn(α,2nγ), 67Zn(α,nγ) gives a large B(M3) which is excluded by RUL.
   2156.744    450.4M(γ): from (p,p’γ). Other: d from 65Cu(7Li,2nγ), 60Ni(12C,2pγ)
    941.10M(γ): from (p,p’γ)
   1117.28M(γ): from (p,p’γ)
   2307.0    599.1E(γ): From (p,p’γ)
I(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): From (p,p’γ)
   1091.3E(γ): From (p,p’γ)
M(γ): From internal conversion data in (p,p’γ)
   1267.5E(γ): From (p,p’γ)
I(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): From (p,p’γ)
   2307.1E(γ): From (p,p’γ)
M(γ): From internal conversion data in (p,p’γ)
   2451.313   1411.86M(γ): D+Q from γ(θ) in (n,n’γ); M1+E2 from RUL
   2534.95   1319.6I(γ): from (n,n’γ); Iγ(827)/Iγ(1495)=76 10/100 10, in (n,n’γ) which ratio is different from the adopted Iγ from 70As ε decay
   2562.049   1522.55M(γ): From angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ)
   2806.25    653.15M(γ): d from 65Cu(7Li,2pγ), 60Ni(12C,2pγ) based on ΔJ = 0 dipole transition; Δπ=no from level scheme
   1098.54M(γ): from 68Zn(α,2nγ), 67Zn(α,nγ) and RUL; δ=-0.2 2 in 68Zn(α,2nγ), 67Zn(α,nγ) gives a large B(M3) which is excluded by RUL
   2887.4    730.8E(γ): From (n,n’γ)
I(γ): From (n,n’γ)
   1179.5E(γ): From (n,n’γ)
I(γ): From (n,n’γ)
   2945.0   1237.3E(γ): From (p,p’γ)
I(γ): From (p,p’γ)
   3046.439    889.72M(γ): From γ(θ) in 70As ε decay, cases of D+Q with large, non-zero values for δ have been assumed to be M1+E2 in character.
    893.50M(γ): From γ(θ) in 70As ε decay, cases of D+Q with large, non-zero values for δ have been assumed to be M1+E2 in character.
   1338.76M(γ): From γ(θ) in 70As ε decay, cases of D+Q with large, non-zero values for δ have been assumed to be M1+E2 in character.
   2006.87M(γ): From γ(θ) in 70As ε decay, cases of D+Q with large, non-zero values for δ have been assumed to be M1+E2 in character.
E(level)E(gamma)Comments
   3058.695    496.74M(γ): d from γ(θ) in 65Cu(7Li,2pγ), 60Ni(12C,2pγ)
    607.34M(γ): From γ(θ) in 70As ε decay, cases of D+Q with large, non-zero values for δ have been assumed to be M1+E2 in character.
   2019.16M(γ): from 68Zn(α,2nγ), 67Zn(α,nγ) and RUL. M3 is ruled out because δ=+0.2 2 from 68Zn(α,2nγ), 67Zn(α,nγ) gives a large B(M3)
   3105.7   1397.9E(γ): From (n,n’γ)
I(γ): From (n,n’γ)
   2066.3E(γ): From (n,n’γ)
I(γ): From (n,n’γ)
   3180.6   2141.1E(γ): From (n,n’γ)
   3240.5   3240.4E(γ): from (γ,γ’)
M(γ): d from γ(θ) in (γ,γ’), Δπ=yes from level scheme
   3296.98    490E(γ): From 64Ni(12C,α2nγ).
I(γ): From 64Ni(12C,α2nγ).
   1143.89E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
I(γ): From 64Ni(12C,α2nγ).
M(γ): From angular distribution in 68Zn(α,2nγ), 67Zn(α,nγ) and RUL. δ = 0.0 2 from γ(θ).
   3314.5   2274.6E(γ): From (n,n’γ)
   3314.8E(γ): from (γ,γ’)
M(γ): d from γ(θ) in (γ,γ’), Δπ=yes from level scheme
   3334.8   2295.3E(γ): From (n,n’γ)
   3416.32    357.72M(γ): From 68Zn(α,2nγ), 67Zn(α, nγ) and RUL. δ =-0.06 3 in 68Zn(α,2nγ), 67Zn(α, nγ) gives a large B(M2). δ: Other: 0.00 4 in 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ). From angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ)
    854.6M(γ): From 68Zn(α,2nγ), 67Zn(α, nγ) and RUL. δ =0.02 5 in 68Zn(α,2nγ), 67Zn(α, nγ) gives a large B(M3)
   1263.09E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
M(γ): From angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ)
   3580.7   1427.6E(γ): From (n,n’γ)
   3631.5   2591.9E(γ): From (n,n’γ)
   3666.78    250.46E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
M(γ): From angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ)
   3669.4   1218.1E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
   3753.2    946.7E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
M(γ): Q from γ(θ) in (α,2nγ), M2 excluded by comparison to RUL.
   3895.2   3895.1E(γ): from (γ,γ’).
M(γ): from γ(θ) in (γ,γ’).
   3900.6    234E(γ): From 46Ti(28Si, 4pγ)
    484E(γ): From 46Ti(28Si, 4pγ)
   3955.11    288.33E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
I(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
M(γ): From angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ)
    658.1E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
I(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
E(level)E(gamma)Comments
   4053.3   1247E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   4101.45    688E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
   1045E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
   1295.24M(γ): Q from γ(θ) in 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ).
   4103.5    688E(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
I(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05)
   1045E(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
I(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05)
   1295E(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
I(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05)
M(γ): from angular distribution of oriented nuclei (ADO) radios in 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ) (2010Su05).
   1948E(γ): 1948γ populates 2+ state according to level scheme given in 2010Su05. Placement of 1948γ is questionable due to ΔJ.. from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
I(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05)
   4203.5    450E(γ): From 64Ni(12C,α2nγ).
I(γ): From 64Ni(12C,α2nγ).
    906.6E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
I(γ): From 64Ni(12C,α2nγ).
M(γ): from angular distribution and linear-polarization data in 68Zn(α,2nγ), 67Zn(α,nγ) and RUL. δ=-0.2 2 is 68Zn(α,2nγ), 67Zn(α,nγ) gives a large B(M3) value, M3 is not possible because of RUL
   4299.3    344.1E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
I(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
   1002.4E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
I(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
   4356.7   4356.6E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   4431.4   1134.6E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): from angular distribution in 68Zn(α,2nγ), 67Zn(α,nγ) and RUL. δ=-0.1 2 in 68Zn(α,2nγ), 67Zn(α,nγ) gives large B(M3). RUL rules out M3.
   4447.5   4447.3E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   4520.9   4520.7E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   4552.1    252.8E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
   4790.6   4790.4E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   4820.2   1067E(γ): From 64Ni(12C,α2nγ).
   4851.9    896.8E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
M(γ): From angular distribution in 68Zn(α,2nγ), 67Zn(α,nγ) and RUL
   4886.6   4886.4E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   4908.1    953E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   4985.0   1029.9E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
   5048.4   1381.6E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
   5129.6   5129.4E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
E(level)E(gamma)Comments
   5222.3   1169E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   5242.7   1039.2E(γ): From 68Zn(α,2nγ), 67Zn(α, nγ)
M(γ): Q from γ(θ) in 65Cu(7Li, 2nγ),60Ni(12C, 2pγ), assumed E2 band member
   5263.4   5263.2E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   5299.2   1344.1E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): from γ(θ) in 65Cu(7Li,2nγ), 60Ni(12C,2nγ)
   5435.5   1332E(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05). This level was only reported in 2010Su05 in 65Cu(7Li,2nγ), 60Ni(12C,2pγ).
I(γ): from 65Cu(7Li,2nγ), 60Ni(12C,2pγ) (2010Su05)
M(γ): from angular distribution of oriented nuclei (ADO) radios in 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ) (2010Su05).
   5465.3   5465.1E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   5512.5   5512.3E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   5539.7   1108.3E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
I(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): from R(DCO) in 64Ni(12C,α2nγ). From T1/2 considerations, M2 is more likely. However, assignment to a band structure in 64Ni(12C,α2nγ) suggests E2 character. Other: d in 65Cu(7Li,2nγ), 60Ni(12C,2pγ). From (p,p’γ)
   5552.5   1253.2E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): Q from angular distribution of oriented nuclei (ADO) ratio in 65Cu(7Li,2nγ),60Ni(12C,2pγ).
   5876.9   5876.6E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   5989.7   5989.4E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   6006.9   1155E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   6160.1   1252E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   6297.0   6296.7E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   6362.8   6362.5E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   6549.1   1641E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   6572.2   1273E(γ): From 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ)
M(γ): from Angular Distribution of Oriented nuclei (ADO) ratio in 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ) and level scheme.
   6587.7   6587.4E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   6604.2   1305E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   6636.6   6636.3E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   6702.5   6702.2E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   6716.8   1474E(γ): From 64Ni(12C,α2nγ).
M(γ): Q in 65Cu(7Li, 2nγ), 60Ni(12C, 2pγ) and 64Ni(12C,α2nγ), assumed E2 from placement in band structure.
   6779.7   1240E(γ): From 64Ni(12C,α2nγ).
M(γ): from R(DCO) in 64Ni(12C,α2nγ)
   6786.1    626E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   7306.3   7305.9E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
E(level)E(gamma)Comments
   7426.0   7425.6E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   7619.7    840E(γ): From 64Ni(12C,α2nγ).
M(γ): from R(DCO) in 64Ni(12C,α2nγ)
   7753.5   7753.0E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   7767.8   1051E(γ): From 64Ni(12C,α2nγ).
M(γ): Q from R(DCO) in 64Ni(12C,α2nγ), E2 from assumed band structure
   8058.1   1272E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
   8245.7    626E(γ): From 64Ni(12C,α2nγ).
M(γ): from R(DCO) in 64Ni(12C,α2nγ)
   8283.7   8283.2E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   8878.5   8877.9E(γ): From 70Ge(pol γ,γ’)
M(γ): From 70Ge(pol γ,γ’)
   9423.7   1178E(γ): From 64Ni(12C,α2nγ).
M(γ): from R(DCO) in 64Ni(12C,α2nγ)
   9619.2   1561E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
  10269.7    846E(γ): From 64Ni(12C,α2nγ).
  11336.2   1717E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)
  13173   1837E(γ): From 46Ti(28Si, 4pγ)
I(γ): From 46Ti(28Si, 4pγ)

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