ADOPTED LEVELS, GAMMAS for 68Ga

Author: E.A. Mccutchan |  Citation: Nucl. Data Sheets 113, 1735 (2012) |  Cutoff date: 1-Mar-2012 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-107.0 keV 24S(n)= 8278.2 keV 17S(p)= 6494.6 keV 13Q(α)= -4086.6 keV 15
Reference: 2012WA38

References:
  A  68Ge ε decay  B  65Cu(α,nγ),66Zn(α,pnγ)
  C  66Zn(α,d)  D  67Zn(p,γ)
  E  68Zn(p,n)  F  68Zn(p,nγ)
  G  69Ga(d,t)  H  70Ge(d,α)
  I  55Mn(16O,2pnγ),56Fe(15N,2pnγ)  J  198Pt(76Ge,xγ)

General Comments:

Levels: νg9/2 coupled to 67Ga (πg9/2)(νg9/2)2 (2000Si38)

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

Q-value: S(2n)=19504 3, S(2p)=15405.7 16 (2011AuZZ).










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     0.0AB DEFGHIJ 1+ 67.71 m 8 
% ε = 100
     
   175.017 7  B DEFGHIJ 2+ ≤ 5 ns    175.01 1 
  100
M1
     0.0
1+
   320.976 10  B DEFGH   1+      145.94 2 
   320.98 2 
    5.5 4 
  100 4 
M1(+E2)
M1(+E2)
   175.017
     0.0
2+
1+
   374.581 12  B DEFGH   2+      199.52 16 
   374.57 2 
    3.01 18 
  100 5 

M1+E2
   175.017
     0.0
2+
1+
   375.581 10  B DEFGHIJ 3+ ≤ 5 ns    200.56 1 
   375.60 3 
  100 4 
   47.5 21 
M1+E2
(E2)
   175.017
     0.0
2+
1+
   496.092 15  B DEFGHIJ 4+ ≤ 5 ns    120.52 2 
   321.05 7 
  100 4 
    4.7 4 
M1(+E2)
(E2)
   375.581
   175.017
3+
2+
   514.301 15  B DEFGH   1+      139.74 3 
   193.26 8 
   339.28 2 
   514.31 10 
    3.40 21 
    1.07 13 
  100 4 
   20 4 
(M1)

M1(+E2)

   374.581
   320.976
   175.017
     0.0
2+
1+
2+
1+
   555.471 15  B DEFG    (0,1,2)+      234.49 2 
   555.47 2 
   15.0 8 
  100 5 
M1(+E2)
M1(+E2)
   320.976
     0.0
1+
1+
   564.515 12  B DEFGH   2+      188.91 8 
   189.93 7 
   243.53 3 
   389.51 2 
   564.53 2 
    1.0 7 
    4.8 4 
    5.7 4 
   13.2 6 
  100 5 


M1(+E2)
M1
M1(+E2)
   375.581
   374.581
   320.976
   175.017
     0.0
3+
2+
1+
2+
1+
   583.788 15  B DEFGHI  2- ≤ 5 ns    262.91 9 
   408.78 4 
   583.80 2 
    0.50 6 
    1.17 15 
  100 4 


E1(+M2)
   320.976
   175.017
     0.0
1+
2+
1+
   676.046 19  B  EFGH   3+      300.40 5 
   501.04 2 
   675.97 7 
    9.3 5 
  100 5 
    3.5 10 
M1(+E2)
M1(+E2)
(E2)
   375.581
   175.017
     0.0
3+
2+
1+
   806.159 17  B DEFGHI  4+ ≤ 5 ns    310.07 2 
   430.59 2 
   631.09 4 
  103 12 
  100 4 
   19 4 
M1(+E2)
M1(+E2)
(E2)
   496.092
   375.581
   175.017
4+
3+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   825.340 14  B  EFGH   1+,2+      260.86 6 
   449.79 3 
   450.88 16 
   504.33 3 
   650.32 4 
   825.33 2 
    2.4 3 
    8.4 5 
    4.5 4 
   11.1 6 
    4.9 3 
  100 5 





M1(+E2)
   564.515
   375.581
   374.581
   320.976
   175.017
     0.0
2+
3+
2+
1+
2+
1+
   838.720 16  B   F     1+,2+      283.25 7 
   464.24 7 
   517.74 2 
   663.67 4 
   838.71 3 
    3.6 3 
   15.2 8 
  100 5 
   24.7 14 
   17.3 9 

M1(+E2)
M1(+E2)
M1(+E2)

   555.471
   374.581
   320.976
   175.017
     0.0
(0,1,2)+
2+
1+
2+
1+
   841.189 18  B DEFGH   3+      276.67 4 
   345.11 4 
   465.65 7 
   466.60 2 
   841.21 10 
   16.5 9 
   13.6 16 
   19 4 
  100 5 
   27.4 15 
M1(+E2)


M1(+E2)
(E2)
   564.515
   496.092
   375.581
   374.581
     0.0
2+
4+
3+
2+
1+
   876.750 17  B DEFGHI  4- ≤ 5 ns    292.98 2 
   380.65 3 
   501.15 3 
  100 4 
   28 4 
   60 6 
E2

E1(+M2)
   583.788
   496.092
   375.581
2-
4+
3+
   946.871 17  B  EFGH   1+,2+,3+      270.75 10 
   382.44 11 
   432.54 4 
   571.42 15 
   572.28 2 
   625.92 3 
   772.02 36 
   946.85 10 
    1.19 24 
    2.3 10 
    4.6 4 
    7.7 18 
  100 5 
   13.1 7 
    1.1 4 
    1.2 10 




M1(+E2)



   676.046
   564.515
   514.301
   375.581
   374.581
   320.976
   175.017
     0.0
3+
2+
1+
3+
2+
1+
2+
1+
   952.43 15    DE GH   2+,3+      456.38 17 
   631.3 3 
  100
   82 40 


   496.092
   320.976
4+
1+
  1055.949 25  B D F     3- ≤ 5 ns    472.16 2 
  100
M1(+E2)
   583.788
2-
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1064.115 21  B  EFGH   1+,2,3+      238.66 15 
   688.63 10 
   889.09 2 
  1064.14 25 
    3.6 6 
   13.0 12 
  100 5 
    3.0 6 




   825.340
   375.581
   175.017
     0.0
1+,2+
3+
2+
1+
  1101.203 20  B   FGH   +      275.95 15 
   536.77 16 
   726.78 10 
   926.17 2 
  1101.21 17 
    8 3 
    3.8 8 
   11.0 11 
  100 5 
    9.8 11 





   825.340
   564.515
   374.581
   175.017
     0.0
1+,2+
2+
2+
2+
1+
  1103.52 3  B DEF HIJ 5- ≤ 5 ns    226.84 18 
   297.41 15 
   607.42 3 
   727.99 12 
    1.40 9 
    9.9 5 
  100 8 
    3.1 5 


E1(+M2)
(M2+E3)
   876.750
   806.159
   496.092
   375.581
4-
4+
4+
3+
  1117.150 22      F     0+,1+,2+      278.34 17 
   602.85 2 
   796.18 5 
   941.95 14 
    1.9 5 
  100 5 
    9.9 8 
    2.7 5 

M1(+E2)


   838.720
   514.301
   320.976
   175.017
1+,2+
1+
1+
2+
  1123.185 18  B  EFGH   1+,2+,3+      284.34 24 
   297.78 14 
   608.90 3 
   747.52 13 
   748.65 3 
   802.13 10 
   948.19 20 
  1123.12 3 
    2.2 13 
    4.8 22 
   56 3 
   17.3 17 
   29.4 17 
   18.2 13 
    5.2 9 
  100 5 








   838.720
   825.340
   514.301
   375.581
   374.581
   320.976
   175.017
     0.0
1+,2+
1+,2+
1+
3+
2+
1+
2+
1+
  1209.70 4  B   FGH        645.83 10 
   835.00 4 
  1035.41 30 
   18 3 
  100 6 
   17.4 17 



   564.515
   374.581
   175.017
2+
2+
2+
  1216.19 7  B  EF     2+,3,4+      720.17 13 
   840.32 13 
  1041.35 13 
   61 12 
  100 30 
  100 6 



   496.092
   375.581
   175.017
4+
3+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1223.45 7  B   F  I  5+ ≤ 5 ns    417.42 10 
   727.15 12 
   847.93 18 
   24.4 13 
  100 10 
    6.9 9 

M1+E2
(E2)
   806.159
   496.092
   375.581
4+
4+
3+
  1225.17 3      FGH   1+,2,3+      660.76 11 
   849.61 20 
   850.52 5 
   904.20 10 
  1050.16 5 
  1225.21 6 
   13.5 16 
   10 6 
   88 5 
   11.9 16 
  100 6 
   30.2 24 






   564.515
   375.581
   374.581
   320.976
   175.017
     0.0
2+
3+
2+
1+
2+
1+
  1228.81 3      FGH        673.29 7 
   907.81 6 
  1053.71 6 
  1228.85 4 
   12.5 11 
   18.5 11 
   12.5 11 
  100 5 




   555.471
   320.976
   175.017
     0.0
(0,1,2)+
1+
2+
1+
  1229.87 4  B      IJ 7- 62.0 ns 14     126.35 3 
   733.76 34 
  100 5 
    1.6 5 
E2
(E3+M4)
  1103.52
   496.092
5-
4+
  1231.70 3  B   F     3-,4-      128.06 8 
   354.97 5 
   647.92 5 
   735.60 7 
   856.18 20 
   41 9 
  103 9 
  100 10 
   83 11 
   32 9 





  1103.52
   876.750
   583.788
   496.092
   375.581
5-
4-
2-
4+
3+
  1239.85 3     EF          725.35 13 
   918.86 6 
  1239.86 4 
   18.4 16 
   27.14 16 
  100 5 



   514.301
   320.976
     0.0
1+
1+
1+
  1247.56 3  B    GHI  5- ≤ 5 ns    370.77 3 
  100
M1+E2
   876.750
4-
  1267.21 3      FGH   1,2,3+      441.98 12 
   683.46 12 
   702.63 5 
   752.97 9 
   892.59 6 
   946.22 6 
  1092.23 6 
  1267.22 9 
   13 3 
   16 8 
  100 7 
   15 3 
   43 4 
   71 5 
   28 4 
   21 3 








   825.340
   583.788
   564.515
   514.301
   374.581
   320.976
   175.017
     0.0
1+,2+
2-
2+
1+
2+
1+
2+
1+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1275 3     E G           
  1287.00 5  B   FGH   2+,3,4+      790.84 13 
  1111.98 5 
   11.9 24 
  100 5 


   496.092
   175.017
4+
2+
  1296.39 4  B  EFG    2-,3,4-      419.72 6 
   712.57 7 
   920.63 10 
  100 8 
   52 7 
   34 4 



   876.750
   583.788
   375.581
4-
2-
3+
  1317 3       G    +        
  1323.24 3  BC E  HI  6- ≤ 5 ns     75.6 5 
   219.72 3 
   446.52 5 
  ≤17
  100 5 
    8.4 5 

M1(+E2)
(E2)
  1247.56
  1103.52
   876.750
5-
5-
4-
  1342 3     E GH          
  1350.49 13 ? B              246.97 13 ?
  100

  1103.52
5-
  1412 3       GH          
  1425 4     E G           
  1442.48 11  B         3-,4,5+      339.38 18 
  1066.67 13 
   42 7 
  100 7 


  1103.52
   375.581
5-
3+
  1461 4     E             
  1489.17 8  B     H        425.07 16 
   993.33 17 
  1113.44 12 
   16.7 13 
   18.0 17 
  100 6 



  1064.115
   496.092
   375.581
1+,2,3+
4+
3+
  1493.82 4  B  E      (5)- ≤ 5 ns    997.74 4 
  1118.12 9 
  100 6 
   22.5 19 
E1(+M2)

   496.092
   375.581
4+
3+
  1510 3        H          
  1523.21 7  B  E           419.69 6 
  100

  1103.52
5-
  1539.44 10 ? B              662.69 10 
  100

   876.750
4-
  1548.25 10  B  E  H        332.05 10 
  1052.19 18 
   74 12 
  100 15 


  1216.19
   496.092
2+,3,4+
4+
  1570.47 10  B  E  H        274.08 9 
  100

  1296.39
2-,3,4-
  1591 5   C E  H          
  1617 4   C E             
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1646 5 ?       H          
  1656.61 8  B     H   2+,3,4+     1160.18 18 
  1280.78 18 
  1481.75 10 
   40 4 
   35 4 
  100 8 



   496.092
   375.581
   175.017
4+
3+
2+
  1687.74 3  B         5-,6-      364.79 18 
   440.06 5 
   457.82 5 
   584.27 4 
   811.11 8 
    7.6 17 
   39.4 24 
   36.3 21 
  100 10 
   18.3 21 



M1(+E2)

  1323.24
  1247.56
  1229.87
  1103.52
   876.750
6-
5-
7-
5-
4-
  1706 5 ?       H          
  1721 5 ?       H          
  1742.38 7  B     H        638.73 23 
   686.44 7 
   15 6 
  100 10 


  1103.52
  1055.949
5-
3-
  1798.22 10  B     H       1302.15 10 
  1422.30 28 
  100 9 
   28 7 


   496.092
   375.581
4+
3+
  1857.29 6  B         5-,6-,7-      534.05 5 
  100
M1(+E2)
  1323.24
6-
  1913 4        H          
  1946.00 6  B     H   5-,6,7-      716.17 6 
   842.21 14 
  100 10 
   98 11 


  1229.87
  1103.52
7-
5-
  1973.18 23  B     H        649.94 23 
  100

  1323.24
6-
  2028 4        H          
  2039 5        H          
  2075 4        H          
  2088.06 12  B         (6) ≤ 5 ns    864.6 1 
  100
(D+Q)
  1223.45
5+
  2102.98 6  B      I  (7,8) ≤ 5 ns    779.73 5 
  100

  1323.24
6-
  2141 5        H          
  2179 5        H          
  2284.68 11  B      I  (7,8) ≤ 5 ns   1054.8 1 
  100

  1229.87
7-
  2396.78 11  B      I  9(-) ≤ 5 ns   1166.9 1 
  100
(E2)
  1229.87
7-
  2611.85 11  B      I  (8-) ≤ 5 ns   1288.6 1 
  100
(E2)
  1323.24
6-
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2896.09 14  BC     I  9+ ≤ 5 ns    499.3 1 
  1666 1 
 
 


  2396.78
  1229.87
9(-)
7-
  2953.2 6  B      I  (8,9-) ≤ 5 ns   1723.0
  100

  1229.87
7-
  3817.58 14  B      I  (9) ≤ 5 ns    864 1 
   921 1 
  1420.8 1 
 
 
 


(D+Q)
  2953.2
  2896.09
  2396.78
(8,9-)
9+
9(-)
  3853.1 10         I       957 1 
  100

  2896.09
9+
  3919.0 6         I       966 1 
  1022 1 
  1523 1 
 
 
 



  2953.2
  2896.09
  2396.78
(8,9-)
9+
9(-)
  3965.01 17  B      I  11+ ≤ 5 ns   1068.9 1 
  100
(E2)
  2896.09
9+
  4646.2 6         I  (11)      681 1 
   829 1 
 
 

Q
  3965.01
  3817.58
11+
(9)
  5167.1 8         I  (13+)      521 1 
  1202 1 
 
 
Q
Q
  4646.2
  3965.01
(11)
11+
  6591.1 13         I  (15+)     1424 1 
  100

  5167.1
(13+)
  7725.2 16         I  (17+)     1134 1 
  100

  6591.1
(15+)

E(level): From a least-squares fit to Eγ for the levels connected by γ’s, by evaluator. ΔEγ=1 keV assumed when not given.

T1/2(level): From delayed electronic timing in 65Cu(α,nγ),66Zn(α,pnγ), except where noted otherwise.

E(γ): From 68Zn(p,nγ), except where noted.

I(γ): Weighted average of 68Zn(p,nγ) and 65Cu(α,nγ),66Zn(α,pnγ), except where noted.

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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-sequence based on the 1+ g.s. (2000Si38).
     0.0 1+ 67.71 m 8 
% ε = 100
     
   175.017 7  2+ ≤ 5 ns    175.01 1 
  100
M1
     0.0
1+
   375.581 10  3+ ≤ 5 ns    200.56 1 
   375.60 3 
  100 4 
   47.5 21 
M1+E2
(E2)
   175.017
     0.0
2+
1+
   496.092 15  4+ ≤ 5 ns    120.52 2 
   321.05 7 
  100 4 
    4.7 4 
M1(+E2)
(E2)
   375.581
   175.017
3+
2+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - Band based on 9+ 2896 level. Proposed configuration of
  2896.09 14  9+ ≤ 5 ns      
  3965.01 17  11+ ≤ 5 ns   1068.9 1 
  100
(E2)
  2896.09
9+
  5167.1 8  (13+)      521 1 
  1202 1 
 
 
Q
Q
  4646.2
  3965.01
(11)
11+
  6591.1 13  (15+)     1424 1 
  100

  5167.1
(13+)
  7725.2 16  (17+)     1134 1 
  100

  6591.1
(15+)

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   175.017 2+ ≤ 5 ns    175.01 1 M1 0.01592α=0.01592, α(K)=0.01421 21, α(L)=0.001482 22, α(M)=0.000217 4, α(N+)=1.160×10-5 17
   320.976 1+      145.94 2 M1(+E2)0.16 LT0.0255α=0.0255, α(K)=0.0228 4, α(L)=0.00239 4, α(M)=0.000349 5, α(N+)=1.86×10-5 3
1+      320.98 2 M1(+E2)+0.05 50.00353α=0.00353 7, α(K)=0.00315 6, α(L)=0.000324 7, α(M)=4.74×10-5 9, α(N+)=2.55E-6 5
   374.581 2+      374.57 2 M1+E2-0.07 40.00244α=0.00244 4, α(K)=0.00219 4, α(L)=0.000224 4, α(M)=3.28×10-5 6, α(N+)=1.77E-6 3
   375.581 3+ ≤ 5 ns    200.56 1 M1+E2+0.25 50.0136α=0.0136 10, α(K)=0.0121 9, α(L)=0.00128 10, α(M)=0.000186 14, α(N+)=9.8×10-6 7
3+ ≤ 5 ns    375.60 3 (E2) 0.00548α=0.00548 8, α(K)=0.00489 7, α(L)=0.000514 8, α(M)=7.49×10-5 11, α(N+)=3.87E-6 6
   496.092 4+ ≤ 5 ns    120.52 2 M1(+E2)+0.12 0.047α=0.047 24, α(K)=0.042 21, α(L)=0.004 3, α(M)=0.0006 4, α(N+)=3.4×10-5 16
4+ ≤ 5 ns    321.05 7 (E2) 0.00940α=0.00940 14, α(K)=0.00838 12, α(L)=0.000887 13, α(M)=0.0001292 19, α(N+)=6.60×10-6
   514.301 1+      139.74 3 (M1) 0.0286α=0.0286, α(K)=0.0255 4, α(L)=0.00268 4, α(M)=0.000392 6, α(N+)=2.09×10-5 3
1+      339.28 2 M1(+E2)0.28 LT0.00324α=0.00324 18, α(K)=0.00290 16, α(L)=0.000298 17, α(M)=4.36×10-5 25, α(N+)=2.34E-6 13
   555.471 (0,1,2)+      234.49 2 M1(+E2)0.24 LT0.0082α=0.0082 6, α(K)=0.0073 6, α(L)=0.00076 6, α(M)=0.000111 9, α(N+)=5.9×10-6 4
(0,1,2)+      555.47 2 M1(+E2)0.52 LT0.00104α=0.00104 7, α(K)=0.00093 6, α(L)=9.5×10-5 6, α(M)=1.39E-5 9, α(N+)=7.5E-7 5
   564.515 2+      243.53 3 M1(+E2)0.21 LT0.0073α=0.0073 4, α(K)=0.0065 4, α(L)=0.00068 4, α(M)=9.9×10-5 6, α(N+)=5.3E-6 3
2+      389.51 2 M1 0.00222α=0.00222 4, α(K)=0.00198 3, α(L)=0.000203 3, α(M)=2.97×10-5 5, α(N+)=1.601E-6 23
2+      564.53 2 M1(+E2)0.28 LT0.000966α=0.000966 24, α(K)=0.000865 22, α(L)=8.80×10-5 23, α(M)=1.29E-5 4, α(N+)=6.96E-7 17
   583.788 2- ≤ 5 ns    583.80 2 E1(+M2)-0.03 40.000444α=0.000444 11, α(K)=0.000398 10, α(L)=4.02×10-5 10, α(M)=5.86E-6 15, α(N+)=3.15E-7 8
   676.046 3+      300.40 5 M1(+E2)0.34 LT0.0045α=0.0045 4, α(K)=0.0040 4, α(L)=0.00042 4, α(M)=6.1×10-5 6, α(N)=3.3E-6 3, α(N+)=3.3E-6 3
3+      501.04 2 M1(+E2)0.38 LT0.001238α=0.001238 18, α(K)=0.001108 16, α(L)=0.0001128 16, α(M)=1.651×10-5 24, α(N)=8.93E-7 13
3+      675.97 7 (E2) 0.000888α=0.000888 13, α(K)=0.000794 12, α(L)=8.14×10-5 12, α(M)=1.188E-5 17, α(N+)=6.31E-7
   806.159 4+ ≤ 5 ns    310.07 2 M1(+E2)-0.16 0.0040α=0.0040 7, α(K)=0.0036 6, α(L)=0.00037 6, α(M)=5.4×10-5 9, α(N)=2.9E-6 5, α(N+)=2.9E-6 5
4+ ≤ 5 ns    430.59 2 M1(+E2)-0.1 0.00177α=0.00177 13, α(K)=0.00158 12, α(L)=0.000162 13, α(M)=2.37×10-5 18, α(N)=1.28E-6 9, α(N+)=1.28E-6 9
4+ ≤ 5 ns    631.09 4 (E2) 0.001078α=0.001078 15, α(K)=0.000964 14, α(L)=9.91×10-5 14, α(M)=1.446E-5 21, α(N+)=7.67E-7
   825.340 1+,2+      825.33 2 M1(+E2)0.46 LT0.000424α=0.000424 11, α(K)=0.000380 10, α(L)=3.84×10-5 11, α(M)=5.62E-6 15, α(N+)=3.04E-7 8
   838.720 1+,2+      464.24 7 M1(+E2)0.45 LT0.001474α=0.001474 21, α(K)=0.001319 19, α(L)=0.0001345 19, α(M)=1.97×10-5 3, α(N+)=1.064E-6
1+,2+      517.74 2 M1(+E2)0.45 LT0.001150α=0.001150 16, α(K)=0.001029 15, α(L)=0.0001047 15, α(M)=1.532×10-5 22, α(N+)=8.29E-7 12
1+,2+      663.67 4 M1(+E2)1.3 LT0.000662α=0.000662 10, α(K)=0.000593 9, α(L)=6.01×10-5 9, α(M)=8.79E-6 13, α(N+)=4.76E-7 7
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   841.189 3+      276.67 4 M1(+E2)0.19 LT0.00523α=0.00523 21, α(K)=0.00467 18, α(L)=0.000482 20, α(M)=7.1×10-5 3, α(N+)=3.78E-6 14
3+      466.60 2 M1(+E2)0.38 LT0.00153α=0.00153 8, α(K)=0.00137 8, α(L)=0.000140 8, α(M)=2.05×10-5 12, α(N+)=1.11E-6 6
3+      841.21 10 (E2) 0.000495α=0.000495 7, α(K)=0.000443 7, α(L)=4.51×10-5 7, α(M)=6.59E-6 10, α(N+)=3.52E-7 5
   876.750 4- ≤ 5 ns    292.98 2 E2 0.01297α=0.01297, α(K)=0.01155 17, α(L)=0.001230 18, α(M)=0.000179 3, α(N)=9.08×10-6 13, α(N+)=9.08E-6 13
4- ≤ 5 ns    501.15 3 E1(+M2)0.35 LT0.00067α=0.00067 3, α(K)=0.00060 3, α(L)=6.1×10-5 3, α(M)=8.8E-6 4, α(N+)=4.73E-7 22
   946.871 1+,2+,3+      572.28 2 M1(+E2)0.30 LT0.00094α=0.00094 3, α(K)=0.000841 23, α(L)=8.55×10-5 24, α(M)=1.25E-5 4, α(N+)=6.76E-7 18
  1055.949 3- ≤ 5 ns    472.16 2 M1(+E2)+0.18 0.00145α=0.00145 12, α(K)=0.00130 10, α(L)=0.000133 11, α(M)=1.94×10-5 16, α(N+)=1.05E-6 8
  1103.52 5- ≤ 5 ns    607.42 3 E1(+M2)0.03 200.00040α=0.00040 10, α(K)=0.00036 9, α(L)=3.7×10-5 9, α(M)=5.3E-6 13, α(N+)=2.9E-7 7
5- ≤ 5 ns    727.99 12 (M2+E3) 0.00159α=0.00159 17, α(K)=0.00142 15, α(L)=0.000149 17, α(M)=2.17×10-5 24, α(N+)=1.15E-6 11
  1117.150 0+,1+,2+      602.85 2 M1(+E2)0.29 LT0.000834α=0.000834 20, α(K)=0.000747 18, α(L)=7.58×10-5 19, α(M)=1.11E-5 3, α(N+)=6.00E-7 14
  1223.45 5+ ≤ 5 ns    727.15 12 M1+E2-1.4 20.000664α=0.000664 16, α(K)=0.000594 15, α(L)=6.06×10-5 15, α(M)=8.86E-6 22, α(N+)=4.74E-7 1
5+ ≤ 5 ns    847.93 18 (E2) 0.000485α=0.000485 7, α(K)=0.000434 6, α(L)=4.42×10-5 7, α(M)=6.45E-6 9, α(N+)=3.45E-7 5
  1229.87 7- 62.0 ns 14     126.35 3 E2 0.29B(E2)(W.u.)=16.9 13, α=0.29 9, α(K)=0.26 8, α(L)=0.030 12, α(M)=0.0044 18, α(N+)=0.00020 8
7- 62.0 ns 14     733.76 34 (E3+M4) 0.005α=0.005 4, α(K)=0.004 3, α(L)=0.0005 4, α(M)=7.E-5 5, α(N+)=3.6E-6 24
  1247.56 5- ≤ 5 ns    370.77 3 M1+E2-0.4 0.0029α=0.0029 5, α(K)=0.0026 4, α(L)=0.00027 4, α(M)=4.0×10-5 6, α(N+)=2.1E-6 3
  1323.24 6- ≤ 5 ns    219.72 3 M1(+E2)-0.02 0.0089α=0.0089 13, α(K)=0.0080 12, α(L)=0.00083 13, α(M)=0.000121 19, α(N+)=6.5×10-6 9
6- ≤ 5 ns    446.52 5 (E2) 0.00310α=0.00310 5, α(K)=0.00277 4, α(L)=0.000288 4, α(M)=4.20×10-5 6, α(N+)=2.19E-6 3
  1493.82 (5)- ≤ 5 ns    997.74 4 E1(+M2)0.52 LT0.000152α=0.000152 12, α(K)=0.000136 11, α(L)=1.37×10-5 11, α(M)=2.00E-6 16, α(N+)=1.08E-7 9
  1687.74 5-,6-      584.27 4 M1(+E2)1.15 LT0.00101α=0.00101 14, α(K)=0.00090 12, α(L)=9.2×10-5 13, α(M)=1.35E-5 19, α(N+)=7.2E-7 10
  1857.29 5-,6-,7-      534.05 5 M1(+E2)0.45 LT0.00113α=0.00113 6, α(K)=0.00101 6, α(L)=0.000103 6, α(M)=1.51×10-5 9, α(N+)=8.1E-7 5
  2088.06 (6) ≤ 5 ns    864.6 1 (D+Q)-0.02  
  2396.78 9(-) ≤ 5 ns   1166.9 1 (E2) 0.00023α=0.00023 4, α(K)=0.00020 4, α(L)=2.1×10-5 4, α(M)=3.0E-6 5, α(N+)=4.76E-6 24
  2611.85 (8-) ≤ 5 ns   1288.6 1 (E2) 0.0002α=0.0002 4, α(K)=0.0002 4, α(L)=2.E-5 4, α(M)=2.E-6 6, α(N+)=2.6E-5 19
  3817.58 (9) ≤ 5 ns   1420.8 1 (D+Q)-4.7  
  3965.01 11+ ≤ 5 ns   1068.9 1 (E2) 0.00028α=0.00028 6, α(K)=0.00025 5, α(L)=2.5×10-5 5, α(M)=3.7E-6 8, α(N+)=2.0E-7 4
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     0.01+ 67.71 m 8 
% ε = 100
Q=0.0277 14, μ=0.01175 5
E(level): γ-sequence based on the 1+ g.s. (2000Si38).
   175.0172+ ≤ 5 ns E(level): γ-sequence based on the 1+ g.s. (2000Si38).
   375.5813+ ≤ 5 ns E(level): γ-sequence based on the 1+ g.s. (2000Si38).
   496.0924+ ≤ 5 ns E(level): γ-sequence based on the 1+ g.s. (2000Si38).
  1101.203+   XREF: γ(1105).
  1323.246- ≤ 5 ns Configuration: ((π2p3/2)(ν1g9/2))6- (1994Fi01).
E(level): Configuration: ((π2p3/2)(ν1g9/2))6- (1994Fi01).
  1742.38   XREF: H(1735).
  2896.099+ ≤ 5 ns XREF: C(2910).
E(level): Band based on 9+ 2896 level. Proposed configuration of.
  3965.0111+ ≤ 5 ns E(level): Band based on 9+ 2896 level. Proposed configuration of.
  5167.1(13+)   E(level): Band based on 9+ 2896 level. Proposed configuration of.
  6591.1(15+)   E(level): Band based on 9+ 2896 level. Proposed configuration of.
  7725.2(17+)   E(level): Band based on 9+ 2896 level. Proposed configuration of.

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Additional Gamma Comments:

E(level)E(gamma)Comments
   175.017   175.01M(γ): from α(K)(exp)=0.0148 13 from 1967Me18 and δ=+0.01 2 from γ(θ) (1967Me18), mult is assigned M1
   320.976   320.98M(γ): d(+Q) from γ(θ) in 68Zn(p,nγ); M1(+E2) from α(K)exp in 68Zn(p,nγ)
   374.581   374.57M(γ): d(+Q) from γ(θ) in 68Zn(p,nγ); M1+E2 from α(K)exp in 68Zn(p,nγ)
   375.581   375.60M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
   496.092   321.05M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
   514.301   139.74M(γ): d from α(K)exp; Δπ=no from level scheme.
   676.046   675.97M(γ): ΔJ=2,Δπ=no from level scheme.
   806.159   631.09M(γ): ΔJ=2,Δπ=no from level scheme.
   841.189   841.21I(γ): from 68Zn(p,nγ). Other: |<16 from 65Cu(α,nγ),66Zn(α,pnγ)
M(γ): ΔJ=2, Δπ=no from level scheme.
  1103.52   727.99M(γ): ΔJ=2,Δπ=yes from level scheme
  1123.185   747.52I(γ): from 68Zn(p,nγ). Other: 37 8 from 65Cu(α,nγ),66Zn(α,pnγ)
   748.65I(γ): from 68Zn(p,nγ). Other: 37 8 from 65Cu(α,nγ),66Zn(α,pnγ)
  1223.45   847.93M(γ): ΔJ=2,Δπ=no from level scheme.
  1229.87   733.76M(γ): ΔJ=3, Δπ=yes from level scheme
  1231.70   856.18E(γ): Doublet transition in (α,nγ); feeds both the 376 and 1247 levels.
I(γ): from 68Zn(p,nγ). Other: |<32 in 65Cu(α,nγ),66Zn(α,pnγ)
  1323.24   446.52M(γ): ΔJ=2,Δπ=no from level scheme.
  2088.06   864.6M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
  2284.68  1054.8E(γ): slightly contaminated by the 1054γ from 67Ga.
  2396.78  1166.9M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
  2611.85  1288.6M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
  2896.09  1666E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
  3817.58   864E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
   921E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
  1420.8M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
  3853.1   957E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
E(level)E(gamma)Comments
  3919.0   966E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
  1022E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
  1523E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
  3965.01  1068.9M(γ): From γ(θ) in 65Cu(α,nγ),66Zn(α,pnγ) and ΔJπ of initial and final levels.
  4646.2   681E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
   829E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
M(γ): from γ(θ) (DCO) in 55Mn(16O,2pnγ)
  5167.1   521E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
M(γ): from γ(θ) (DCO) in 55Mn(16O,2pnγ)
  1202E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
M(γ): from γ(θ) (DCO) in 55Mn(16O,2pnγ)
  6591.1  1424E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.
  7725.2  1134E(γ): From 55Mn(16O,2pnγ). ΔE(γ)=1 keV assumed by the evaluator.

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