ADOPTED LEVELS, GAMMAS for 68As

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-)=-4705.1 keV 20S(n)= 10378.6 keV 19S(p)= 3525 keV 5Q(α)= -2486.7 keV 24
Reference: 2012WA38

References:
  A  68Se ε decay  B  54Fe(16O,pnγ),58Ni(12C,pnγ)
  C  40Ca(32S,3PNG)  D  12C(58Ni,pnγ)

General Comments:

S(2n)=23009 26 , S(2p)=9748 4 (2011AuZZ)

Q-value: Note: Current evaluation has used the following Q record -4705.1 19 10379.923 3526 5 -2485.9 24 2011AuZZ










E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
     0.0ABCD 3+ 151.6 s 8 
% ε = 100
     
   158.1 1 ABCD 3+ < 5 ns    158.1 1 
  100
M1+E2
     0.0
3+
   160.7 1 AB   (2+) < 10 ns    160.8 1 
  100
(M1+E2)
     0.0
3+
   214.1 1  BCD 4+ < 5 ns     56.1 2 
   214.1 1 
    6.4 19 
  100.0 15 
(M1)
M1+E2
   158.1
     0.0
3+
3+
   313.2 1 ABCD 3+ < 5 ns    155.1 1 
   313.1 1 
   18 3 
  100 2 
(M1+E2)
M1+E2
   158.1
     0.0
3+
3+
   352.7 3 AB   1+      192.2 5 
   352.6 5 
  100 12 
   66 7 
(M1+E2)
[E2]
   160.7
     0.0
(2+)
3+
   363.4 3 AB   1+       49.8 5 
   202.6 4 
   205.6 4 
    8 5 
  100 23 
   33 5 
[E2]
(M1+E2)
[E2]
   313.2
   160.7
   158.1
3+
(2+)
3+
   425.1 2 AB   1+ 107 ns +23-16      72.6 5 
   111.4 2 
   265.0 3 
   426.1 4 
   19 3 
  100
   47 4 
   13 3 
[M1,E2]
E2
[M1,E2]
E2
   352.7
   313.2
   160.7
     0.0
1+
3+
(2+)
3+
   500.1 1   CD 4+ < 5 ns    187.6 3 
   285.9 4 
   500.1 1 
    6.0 15 
    6.0 15 
  100.0 15 


M1+E2
   313.2
   214.1
     0.0
3+
4+
3+
   549.7 1  BCD 4+ < 5 ns    236.4 1 
   335.5 2 
   391.6 1 
   549.8 1 
    9.0 7 
   36.0 13 
  100.0 3 
   48.0 20 
M1+E2
D
M1+E2
M1+E2
   313.2
   214.1
   158.1
     0.0
3+
4+
3+
3+
   582.6 2  B        582.6 2 
  100

     0.0
3+
   733.4 1  BCD 5+ < 5 ns    183.7 2 
   519.3 1 
   16.7 22 
  100 6 

M1+E2
   549.7
   214.1
4+
4+
   893.4 1  BCD 4(-) < 5 ns    160.0
   343.6 2 
   393.3 2 
   580.0 2 
   679.4 2 
   735.3 1 
    1.1 5 
   85.2 3 
    7.3 3 
    2.3 3 
    3.2 3 
  100.0 3 

D

D

D
   733.4
   549.7
   500.1
   313.2
   214.1
   158.1
5+
4+
4+
3+
4+
3+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   964.8 1  BCD 5(-) < 5 ns     71.5 2 
   231.6 1 
   415.1 1 
  100 3 
    4.0 7 
    7.1 10 
D
D
D
   893.4
   733.4
   549.7
4(-)
5+
4+
  1214.3 2  BCD 6(-) < 5 ns    249.9 3 
   320.9 2 
   480.5 5 
  100 36 
   84 28 
   72 20 

E2

   964.8
   893.4
   733.4
5(-)
4(-)
5+
  1303.8 2  BCD 7(-) < 5 ns    338.9 1 
  100
E2
   964.8
5(-)
  1322.9 1  BCD 6(-) < 5 ns    358.1 1 
  100
D
   964.8
5(-)
  1427.6 1  BCD 6(-) < 5 ns    104.5 5 
   213.1 4 
   462.7 1 
   36 9 
    7.4 19 
  100 6 


D
  1322.9
  1214.3
   964.8
6(-)
6(-)
5(-)
  1571.2 2    D (6-) 19 ns 3     248.4 2 
   266.6 5 
  100 7 
   21 7 
D

  1322.9
  1303.8
6(-)
7(-)
  1762.0 5  B        439.1 5 
  100

  1322.9
6(-)
  1850.0 2   C  7(-)      635.6 2 
  100

  1214.3
6(-)
  1859.2 3   CD (7-) < 5 ns    288.0 2 
  100
D
  1571.2
(6-)
  1955.4 2  BCD 7(-) < 5 ns    528
   633.0 3 
   652.1 3 
   741
   990.0 2 
 
  100 8 
   24 8 
 
 

D
D

Q
  1427.6
  1322.9
  1303.8
  1214.3
   964.8
6(-)
6(-)
7(-)
6(-)
5(-)
  2058.0 4  BC  < 5 ns    630.0 4 
   736
  100
 


  1427.6
  1322.9
6(-)
6(-)
  2093.9 2  BCD 8(-) < 5 ns    770.6 3 ?
   790.1 1 
   73 12 
  100 11 

M1+E2
  1322.9
  1303.8
6(-)
7(-)
  2157.8 2  BCD 9(+) 36 ns 2      63.9 1 
   854.2 3 
   943.6 5 ?
   12.1 19 
  100.0 4 
   18 4 

M2

  2093.9
  1303.8
  1214.3
8(-)
7(-)
6(-)
  2251.2 2   CD (7) < 5 ns    824
   928.1 3 
 
  100

D
  1427.6
  1322.9
6(-)
6(-)
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  2302.1 2  BCD 8(-) < 5 ns    874
   979.3 1 
 
  100

Q
  1427.6
  1322.9
6(-)
6(-)
  2474.4 2  BCD 8 < 5 ns    223
   316.6 1 
 
  100

D
  2251.2
  2157.8
(7)
9(+)
  2659.2 7   C       601
   704
 
 


  2058.0
  1955.4

7(-)
  2829.8 2   CD 9(-) < 5 ns    529?
  1526.0 2 
 
  100

Q
  2302.1
  1303.8
8(-)
7(-)
  2933.1 11 ? B        875.0?
  100

  2058.0

  2938.8 2  BCD 9 < 5 ns    464.4 1 
   687.5 3 
  100 5 
   23 5 
M1+E2

  2474.4
  2251.2
8
(7)
  2983.0 2   C  9(-)      681.1 2 
   889
   923
  1027
  1132
 
 
 
 
 
D




  2302.1
  2093.9
  2058.0
  1955.4
  1850.0
8(-)
8(-)

7(-)
7(-)
  3126.6 3 ?   D < 5 ns    968.8 2 ?
  100

  2157.8
9(+)
  3170.2 2  BCD 10(+) < 5 ns   1012.4 1 
  100
M1+E2
  2157.8
9(+)
  3183.2 2  BCD 11(+) < 5 ns   1025.4 1 
  100
Q
  2157.8
9(+)
  3341.0 3 ?   D < 5 ns   1183.2 2 ?
  100

  2157.8
9(+)
  3626.8 5   C  10(-)     1325.0 7 
  1533
 
 
Q

  2302.1
  2093.9
8(-)
8(-)
  3719.1 4   C  10(-)     1417.3 5 
  1625
 
 
Q

  2302.1
  2093.9
8(-)
8(-)
  3843.5 7   C       661
   904
 
 


  3183.2
  2938.8
11(+)
9
  4320.3 5   C  (11-)     1338
  1490.5 7 
 
 

Q
  2983.0
  2829.8
9(-)
9(-)
  4366.2 3    D < 5 ns   1196.0 2 
  100

  3170.2
10(+)
  4388.2 2   CD 12(+) < 5 ns   1204.9 1 
  1218.0 1 
   68 3 
  100 5 
M1+E2
Q
  3183.2
  3170.2
11(+)
10(+)
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
  4585.8 3   CD < 5 ns   1402.6 3 
  100

  3183.2
11(+)
  4897.3 3   CD 12(-) < 5 ns    577
  1179
  1271
  1713.9 2 
 
 
 
  100



D
  4320.3
  3719.1
  3626.8
  3183.2
(11-)
10(-)
10(-)
11(+)
  5002.5 12 ?  C      1159?
 

  3843.5

  5087.2 2   CD 13(+) < 5 ns    699.0 1 
  100
D
  4388.2
12(+)
  5652.7 3   CD (13-) < 5 ns    755.4 1 
  1067.1 6 
  1333?
  100 7 
   12 5 
 
Q


  4897.3
  4585.8
  4320.3
12(-)

(11-)
  6063.5 3   CD (15+) < 5 ns    976.3 1 
  100
Q
  5087.2
13(+)
  6803.7 3   C  (15-)     1151.0 1 
  100
Q
  5652.7
(13-)
  7709.5 10   C      1646
  100

  6063.5
(15+)
  8499.7 10   C      1696
  100

  6803.7
(15-)

E(level): From a least-squares fit to Eγ’s; ΔEγ=1 keV assumed when not given.

Jπ(level): There are several discrepancies in the Jπ’s suggested in the heavy ion reaction experiments. The evaluator has favored those from 12C(58Ni,pnγ) and 40Ca(32S,3pnγ) as well as adopting the assumptions by 1998So23 that for states above 965 keV the γ’s take the maximum possible angular momentum allowed by their multipolarities and that J’s do not decrease with increasing excitation energy. States which decay primarily to negative (positive) parity states are tentatively assigned as negative (positive) parity.

T1/2(level): From delayed γ spectra in 12C(58Ni,pnγ), except as noted.

M(γ): From R(DCO) in 12C(58Ni,pnγ), except where noted.

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Additional Gamma Data:















E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   158.1 3+ < 5 ns    158.1 1 M1+E2-1.3 +5-160.10α=0.10 3, α(K)=0.09 3, α(L)=0.010 4, α(M)=0.0016 5, α(N+)=0.00011 4
   160.7 (2+) < 10 ns    160.8 1 (M1+E2)-1.49 300.100α=0.100 12, α(K)=0.088 10, α(L)=0.0104 12, α(M)=0.00157 19, α(N+)=0.000112 13
   214.1 4+ < 5 ns     56.1 2 (M1) 0.450α=0.450 8, α(K)=0.399 7, α(L)=0.0439 8, α(M)=0.00670 12, α(N+)=0.000503 9
4+ < 5 ns    214.1 1 M1+E2+0.21 50.0136α=0.0136 8, α(K)=0.0120 7, α(L)=0.00129 8, α(M)=0.000197 12, α(N+)=1.48×10-5 9
   313.2 3+ < 5 ns    155.1 1 (M1+E2)-0.07 20.0284α=0.0284 6, α(K)=0.0253 5, α(L)=0.00271 6, α(M)=0.000414 9, α(N+)=3.13×10-5 7
3+ < 5 ns    313.1 1 M1+E2-0.067 150.00474α=0.00474 7, α(K)=0.00422 6, α(L)=0.000444 7, α(M)=6.77×10-5 10, α(N+)=5.15E-6 8
   352.7 1+      192.2 5 (M1+E2) 0.04α=0.04 3, α(K)=0.038 24, α(L)=0.004 3, α(M)=0.0006 5, α(N+)=5.E-5 3
1+      352.6 5 [E2] 0.00793α=0.00793 12, α(K)=0.00704 11, α(L)=0.000765 12, α(M)=0.0001163 18, α(N+)=8.62×10-6
   363.4 1+       49.8 5 [E2] 10.4α=10.4 5, α(K)=8.4 4, α(L)=1.66 8, α(M)=0.250 12, α(N+)=0.0150 7
1+      202.6 4 (M1+E2) 0.035α=0.035 22, α(K)=0.031 19, α(L)=0.0035 23, α(M)=0.0005 4, α(N+)=3.9×10-5 24
1+      205.6 4 [E2] 0.0539α=0.0539 9, α(K)=0.0476 8, α(L)=0.00543 9, α(M)=0.000824 13, α(N+)=5.94×10-5 10
   425.1 1+ 107 ns +23-16      72.6 5 [M1,E2] 1.4α=1.4 12, α(K)=1.2 10, α(L)=0.18 16, α(M)=0.027 24, α(N+)=0.0018 16
1+ 107 ns +23-16     111.4 2 E2 0.527B(E2)(W.u.)=7.2 +13-17, α=0.527 9, α(K)=0.458 8, α(L)=0.0592 10, α(M)=0.00894 14, α(N+)=0.000611 10
1+ 107 ns +23-16     265.0 3 [M1,E2] 0.014α=0.014 8, α(K)=0.013 7, α(L)=0.0014 8, α(M)=0.00021 11, α(N)=1.6×10-5 8, α(N+)=1.6E-5 8
1+ 107 ns +23-16     426.1 4 E2 0.00423B(E2)(W.u.)=0.0011 4, α=0.00423 6, α(K)=0.00376 6, α(L)=0.000404 6, α(M)=6.14E-5 9, α(N+)=4.58E-6 7
   500.1 4+ < 5 ns    500.1 1 M1+E2 0.0021α=0.0021 5, α(K)=0.0018 5, α(L)=0.00019 5, α(M)=2.9×10-5 8, α(N+)=2.2E-6 6
   549.7 4+ < 5 ns    236.4 1 M1+E2 0.021α=0.021 12, α(K)=0.019 11, α(L)=0.0021 12, α(M)=0.00031 18, α(N+)=2.3×10-5 13
4+ < 5 ns    391.6 1 M1+E2 0.0042α=0.0042 15, α(K)=0.0037 13, α(L)=0.00040 14, α(M)=6.0×10-5 22, α(N+)=4.5E-6 16
4+ < 5 ns    549.8 1 M1+E2 0.0016α=0.0016 4, α(K)=0.0014 3, α(L)=0.00015 4, α(M)=2.3×10-5 5, α(N+)=1.7E-6 4
   733.4 5+ < 5 ns    519.3 1 M1+E2-1.49 300.00201α=0.00201 10, α(K)=0.00179 9, α(L)=0.000189 9, α(M)=2.88×10-5 14, α(N+)=2.17E-6 10
  1214.3 6(-) < 5 ns    320.9 2 E2 0.01095α=0.01095, α(K)=0.00972 14, α(L)=0.001062 15, α(M)=0.0001615 23, α(N+)=1.192×10-5 17
  1303.8 7(-) < 5 ns    338.9 1 E2 0.00908α=0.00908 13, α(K)=0.00806 12, α(L)=0.000877 13, α(M)=0.0001334 19, α(N+)=9.87×10-6
  2093.9 8(-) < 5 ns    790.1 1 M1+E2 0.00063α=0.00063 7, α(K)=0.00056 6, α(L)=5.8×10-5 7, α(M)=8.9E-6 10, α(N+)=6.8E-7 7
  2157.8 9(+) 36 ns 2     854.2 3 M2 0.001180B(M2)(W.u.)=0.087 6, α=0.001180 17, α(K)=0.001052 15, α(L)=0.0001105 16, α(M)=1.687×10-5 24, α(N)=1.287E-6 18
  2938.8 9 < 5 ns    464.4 1 M1+E2 0.0025α=0.0025 7, α(K)=0.0023 6, α(L)=0.00024 7, α(M)=3.6×10-5 11, α(N+)=2.7E-6 8
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
  3170.2 10(+) < 5 ns   1012.4 1 M1+E2 0.000355α=0.000355 21, α(K)=0.000317 19, α(L)=3.27×10-5 20, α(M)=5.0E-6 3, α(N+)=3.81E-7 22
  4388.2 12(+) < 5 ns   1204.9 1 M1+E2 0.000252α=0.000252 11, α(K)=0.000218 9, α(L)=2.24×10-5 9, α(M)=3.42E-6 14, α(N+)=8.3E-6 13

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
   214.14+ < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
   313.23+ < 5 ns E(level): From 40Ca(32S,3pnγ) (2005St08).
Jπ(level): Assigned as (4)+ in 40Ca(32S,3pnγ) (2005St08).
   500.14+ < 5 ns ΔJ=1 M1+E2 500 γ to 3+.
E(level): ΔJ=1 M1+E2 500 γ to 3+.
   549.74+ < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
   733.45+ < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
   964.85(-) < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  1214.36(-) < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  1303.87(-) < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  1322.96(-) < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  1427.66(-) < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  1955.47(-) < 5 ns Jπ(level): Assigned as (8-) in 12C(58Ni,pnγ) (1998So23). Decay by Q 990γ to 5(-) favors the 7(-) assignment.
  2093.98(-) < 5 ns E(level): From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  2157.89(+) 36 ns 2  μ=2.07 18
conf=πg9/2νg9/2 from analysis of systematics in 1998So23.
E(level): conf=πg9/2νg9/2 from analysis of systematics in 1998So23. From 12C(58Ni,pnγ) (1998So23).
Jπ(level): Jπ(214)=(2,4-), Jπ(550)=3-, Jπ(733)=(3,5-), Jπ(965)=3-, J(1214)=(4,5), J(1304)=(5), Jπ(1428)=2-, J(2094)=(6), and J(2158)=(6) from γ(θ), linear polarization, and excitation functions in 54Fe(16O,pnγ) are discrepant.
  4897.312(-) < 5 ns E(level): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
Jπ(level): Jπ(4897)=(12+) and Jπ(5652)=(14+) from 12C(58Ni,pnγ) are discrepant.
  5652.7(13-) < 5 ns E(level): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
Jπ(level): Jπ(4897)=(12+) and Jπ(5652)=(14+) from 12C(58Ni,pnγ) are discrepant.

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Additional Gamma Comments:

E(level)E(gamma)Comments
   158.1   158.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): Other: ΔJ=0 highly mixed M1+E2 from R(DCO) in 12C(58Ni,pnγ) is consistent.
   160.7   160.8E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
M(γ): D+Q from γ(θ) in 54Fe(16O,pnγ). Δπ=no from level scheme.
   214.1    56.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 1.2 5 in 54Fe(16O,pnγ).. From 12C(58Ni,pnγ) (1998So23).
M(γ): d with δ<0.8 from comparison to RUL; Δπ=no from level scheme.
   214.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   313.2   155.1I(γ): weighted average of 23 4 in 54Fe(16O,pnγ) and 16.7 21 in 12C(58Ni,pnγ)
M(γ): D+Q from γ(θ) in 54Fe(16O,pnγ). Δπ=no from level scheme.
   313.1M(γ): from γ(θ) and γ(lin pol) in 54Fe(16O,pnγ). Other: ΔJ=1, M1 from R(DCO) in 40Ca(32S,3pnγ) is discrepant.
   352.7   192.2E(γ): 193.8 5 from 54Fe(16O,pnγ) is discrepant.. From 68Se β+ decay (35.5 s)
I(γ): From 68Se β+ decay (35.5 s)
M(γ): D+Q from γ(θ) in 54Fe(16O,pnγ). Δπ=no from level scheme.
   352.6E(γ): From 68Se β+ decay (35.5 s)
I(γ): From 68Se β+ decay (35.5 s)
   363.4    49.8E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): Other: 107 17 in 68Se ε decay.. From 54Fe(16O,pnγ) (1997Ba24)
   202.6E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
M(γ): D+Q from γ(θ) in 54Fe(16O,pnγ). Δπ=no from level scheme.
   205.6E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   425.1    72.6E(γ): From 68Se β+ decay (35.5 s)
I(γ): From 68Se β+ decay (35.5 s)
   111.4E(γ): From 68Se β+ decay (35.5 s)
I(γ): From 68Se β+ decay (35.5 s)
M(γ): from α(exp).
   265.0E(γ): From 68Se β+ decay (35.5 s)
I(γ): From 68Se β+ decay (35.5 s)
   426.1E(γ): From 68Se β+ decay (35.5 s)
I(γ): From 68Se β+ decay (35.5 s)
M(γ): d,Q from comparison to RUL; ΔJ=2, Δπ=no from level scheme.
   500.1   187.6E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   285.9E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   500.1E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   549.7   236.4E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 11.0 17 in 54Fe(16O,pnγ).. From 12C(58Ni,pnγ) (1998So23).
M(γ): Other: ΔJ=0, M1 from R(DCO) in 40Ca(32S,3pnγ) is discrepant, however, uncertainty in R(DCO) is large.
   335.5E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 55.8 17 in 54Fe(16O,pnγ).. From 12C(58Ni,pnγ) (1998So23).
   391.6E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   549.8E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 38 3 in 54Fe(16O,pnγ).. From 12C(58Ni,pnγ) (1998So23).
   582.6   582.6E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   733.4   183.7E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   519.3E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
E(level)E(gamma)Comments
   893.4   160.0E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   343.6E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 70.9 12 in 54Fe(16O,pnγ).. From 12C(58Ni,pnγ) (1998So23).
   393.3E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   580.0E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
   679.4E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   735.3E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   964.8    71.5E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   231.6E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 7.9 3 in 12C(58Ni,pnγ).. From 54Fe(16O,pnγ) (1997Ba24)
   415.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): Other: 9.3 4 in 12C(58Ni,pnγ).. From 54Fe(16O,pnγ) (1997Ba24)
  1214.3   249.9E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   320.9E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
I(γ): Other: 330 20 in 12C(58Ni,pnγ). From 54Fe(16O,pnγ) (1997Ba24)
M(γ): Q from R(DCO) in 40Ca(32S,3pnγ); M2 excluded by comparison to RUL.
   480.5E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): not seen in 12C(58Ni,pnγ). From 54Fe(16O,pnγ) (1997Ba24)
  1303.8   338.9E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): Q from R(DCO) in 12C(58Ni,pnγ) and 40Ca(32S,3pnγ); M2 excluded by comparison to RUL.
  1322.9   358.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  1427.6   104.5E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   213.1E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   462.7E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  1571.2   248.4E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   266.6E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  1762.0   439.1E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
  1850.0   635.6E(γ): From 40Ca(32S,3pnγ) (2005St08).
I(γ): From 40Ca(32S,3pnγ) (2005St08).
  1859.2   288.0E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  1955.4   528E(γ): From 40Ca(32S,3pnγ) (2005St08).
   633.0E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): Other: Q from R(DCO)=1.46 36 in 12C(58Ni,pnγ), value is also consistent with ΔJ=1 M1+E2 transition.. From R(DCO) in 40Ca(32S,3pnγ).
   652.1E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
   741E(γ): From 40Ca(32S,3pnγ) (2005St08).
   990.0E(γ): From 40Ca(32S,3pnγ) (2005St08).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
E(level)E(gamma)Comments
  2058.0   630.0E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   736E(γ): From 40Ca(32S,3pnγ) (2005St08).
  2093.9   770.6E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
   790.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
  2157.8    63.9E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   854.2E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): from linear polarization in 40Ca(31P,2pnγ).
   943.6E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
  2251.2   824E(γ): From 40Ca(32S,3pnγ) (2005St08).
   928.1E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  2302.1   874E(γ): From 40Ca(32S,3pnγ) (2005St08).
   979.3E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24), 12C(58Ni,pnγ) (1998So23) and 40Ca(32S,3pnγ) (2005St08).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  2474.4   223E(γ): From 40Ca(32S,3pnγ) (2005St08).
   316.6E(γ): Weighted average of 54Fe(16O,pnγ) (1997Ba24) and 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  2659.2   601E(γ): From 40Ca(32S,3pnγ) (2005St08).
   704E(γ): From 40Ca(32S,3pnγ) (2005St08).
  2829.8   529E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1526.0E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
  2933.1   875.0E(γ): From 54Fe(16O,pnγ) (1997Ba24)
I(γ): From 54Fe(16O,pnγ) (1997Ba24)
  2938.8   464.4E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
   687.5E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  2983.0   681.1E(γ): From 40Ca(32S,3pnγ) (2005St08).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
   889E(γ): From 40Ca(32S,3pnγ) (2005St08).
   923E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1027E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1132E(γ): From 40Ca(32S,3pnγ) (2005St08).
E(level)E(gamma)Comments
  3170.2  1012.4E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  3183.2  1025.4E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  3341.0  1183.2E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  3626.8  1325.0E(γ): From 40Ca(32S,3pnγ) (2005St08).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
  1533E(γ): From 40Ca(32S,3pnγ) (2005St08).
  3719.1  1417.3E(γ): From 40Ca(32S,3pnγ) (2005St08).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
  1625E(γ): From 40Ca(32S,3pnγ) (2005St08).
  3843.5   661E(γ): From 40Ca(32S,3pnγ) (2005St08).
   904E(γ): From 40Ca(32S,3pnγ) (2005St08).
  4320.3  1338E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1490.5E(γ): From 40Ca(32S,3pnγ) (2005St08).
M(γ): From R(DCO) in 40Ca(32S,3pnγ).
  4366.2  1196.0E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  4388.2  1204.9E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  1218.0E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  4585.8  1402.6E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  4897.3   577E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1179E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1271E(γ): From 40Ca(32S,3pnγ) (2005St08).
  1713.9E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  5002.5  1159E(γ): From 40Ca(32S,3pnγ) (2005St08).
M(γ): D+Q from γ(θ) in 54Fe(16O,pnγ). Δπ=no from level scheme.
  5087.2   699.0E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  5652.7   755.4E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
M(γ): Other: (d) from R(DCO) in 40Ca(32S,3pnγ), although Q cannot be excluded based on large uncertainties.
  1067.1E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
  1333E(γ): From 40Ca(32S,3pnγ) (2005St08).
  6063.5   976.3E(γ): From 12C(58Ni,pnγ) (1998So23).
I(γ): From 12C(58Ni,pnγ) (1998So23).
E(level)E(gamma)Comments
  6803.7  1151.0E(γ): From 40Ca(32S,3pnγ) (2005St08).
  7709.5  1646E(γ): From 40Ca(32S,3pnγ) (2005St08).
I(γ): From 40Ca(32S,3pnγ) (2005St08).
  8499.7  1696E(γ): From 40Ca(32S,3pnγ) (2005St08).
I(γ): From 40Ca(32S,3pnγ) (2005St08).

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