ADOPTED LEVELS, GAMMAS for 192Hg

Author: Coral M. Baglin |  Citation: Nucl. Data Sheets 113, 1871 (2012) |  Cutoff date: 15-Jun-2012 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-6.14×103 keV 4S(n)= 9.49×103 keV 3S(p)= 5.49×103 keV 4Q(α)= 3393 keV 17
Reference: 2012WA38

References:
  A  192Tl ε decay (9.6 M+10.8 M)  B  192Pt(α,4nγ), 194Pt(α,6nγ)
  C  197Au(p,6nγ)  D  (HI,xnγ)
  E  160Gd(36S,4nγ)  F  (HI,xnγ):SD

General Comments:

3×10-5% limit set for population of 192Hg by 196Pb α decay (1963Ka17).

See 1985Kl09, 1986Ul02 for hfs and isotope shift data.

Theory (partial list only):

Calculations using Coulomb and proximity potential model: T1/2 for g.s. α and cluster decay (2010Sa39).

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

Q-value: Q(β-), Q(α): from 2011AuZZ (cf. -6140 40 and 3387 16 from 2003Au03).










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
      0.0ABCDEF 0+ 4.85 h 20 
% ε = 100
     
    422.79 10 ABCDEF 2+      422.8 1 
   100
E2
      0.0
0+
   1057.58 14 ABCDEF 4+      634.8 1 
   100
E2
    422.79
2+
   1113.60 14 A      (2)+      690.8 1 
  1113.0 2 
   100 6 
   ≈24
M1+E2
(E2)
    422.79
      0.0
2+
0+
   1535.2 4 A      (3)+      477.6 3 
  1113.0 2 
   ≈23
  ≈100
M1(+E2)
M1,E2
   1057.58
    422.79
4+
2+
   1732.98 16 A      (4)+      619.4 2 
   675.4 1 
    80 12 
   100 6 
E2
M1+E2
   1113.60
   1057.58
(2)+
4+
   1803.05 16 ABCDEF 6+      745.5 1 
   100
E2
   1057.58
4+
   1831.62 21 A      (2+,3,4+)      717.9 3 
   774.1 2 
   100.0 14 
    71 6 


   1113.60
   1057.58
(2)+
4+
   1843.90 16 ABCDEF (5)-      786.3 1 
   100
E1
   1057.58
4+
   1844.59 23 A      (3,4)     1421.8 2 
   100

    422.79
2+
   1908.58 25 A      1,2+     1486.1 4 
  1908.4 3 
    67 8 
   100 8 


    422.79
      0.0
2+
0+
   1977.03 17 AB DEF (7)- 1.04 ns 6     133.1 1 
   174.0 1 
    42.4 27 
   100 4 
E2
E1
   1843.90
   1803.05
(5)-
6+
   1986.9 11 ?    E  (6-)      143?
   100
(M1)
   1843.90
(5)-
   2056.29 23 A      (1,2+)     1633.5 2 
  2056.0 6 ?
   100 8 
   <58


    422.79
      0.0
2+
0+
   2081.69 23 A      (1,2+)     1658.9 2 
  2081.9 6 ?
   100 8 
     3.5 13 


    422.79
      0.0
2+
0+
   2186.98 21 A      (6)-      343.1 2 
   383.9 2 
    35 13 
   100 13 
M1
E1
   1843.90
   1803.05
(5)-
6+
   2216.20 24 AB DEF (8)- 0.92 ns 5     239.2 2 
   100
M1+E2
   1977.03
(7)-
   2223.85 24 AB DEF (9)-      246.8 2 
   100
E2
   1977.03
(7)-
   2276.9 4 A      1,2+     1854.0 4 
  2277.0 6 
   100 9 
    56 9 


    422.79
      0.0
2+
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   2284.7 5 A          1171.1 4 
   100

   1113.60
(2)+
   2300.7 3 A      (6,7,8)-      323.7 2 
   100
M1+E2
   1977.03
(7)-
   2447.2 3 AB DEF 8+      470
   644.1 2 
 
   100 18 

(E2)
   1977.03
   1803.05
(7)-
6+
   2507.3 3  B DEF (10)+ 3.6 ns 5      60.1
   283.4 2 
    ≤3
   100 20 
E2
(E1)
   2447.2
   2223.85
8+
(9)-
   2534.2 5 ?A           999.0 3 ?
   100

   1535.2
(3)+
   2535.5 4  B DE  (12+) 11.1 ns 5      28.4
   100
(E2)
   2507.3
(10)+
   2632.7 3  B DE  (10-)      408.8 2 
   416.5 2 
    38
   100
D

   2223.85
   2216.20
(9)-
(8)-
   2657.1 11 ?  C         854?
   100

   1803.05
6+
   2756.7 3  B DE  (11-)      532.9 2 
   100
(E2)
   2223.85
(9)-
   2902.3 11     E  (10+)      395
 

   2507.3
(10)+
   2951.7 4  B DE  (14+)      416.3 2 
   100
(E2)
   2535.5
(12+)
   3047.0 4    DE  (12+)      144
   511.3 3 
   539.7 3 
 
 
 


(E2)
   2902.3
   2535.5
   2507.3
(10+)
(12+)
(10)+
   3261.9 3  B DE  (12-)      505.2 3 
   629.2 2 
     3.8
   100

(E2)
   2756.7
   2632.7
(11-)
(10-)
   3449.6 4  B DE  (13-)      692.9 2 
   100
(E2)
   2756.7
(11-)
   3608.6 5  B DE  (16+)      656.8 2 
   100
(E2)
   2951.7
(14+)
   3669.8 4    DE  (14+)      622.7 3 
   718.4 3 
  1134
   100
    63
 
(E2)

Q
   3047.0
   2951.7
   2535.5
(12+)
(14+)
(12+)
   3725.6 5    DE  (14+)      678.7 3 
  1190
   100
 
(E2)
Q
   3047.0
   2535.5
(12+)
(12+)
   3894.9 4  B DE  (14-)      445.2 3 
   633.0 2 
     3.8
   100
D
(E2)
   3449.6
   3261.9
(13-)
(12-)
   3984.9 8     E  (14-)      723
   100
(E2)
   3261.9
(12-)
   4010.5 4  B DE  (15-)      560.9 2 
  1058.7 3 
   100
    24
(E2)
D
   3449.6
   2951.7
(13-)
(14+)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   4089.9 4  B DE  (16-) 0.39 ns 4     105
   195.0 2 
 
 

E2
   3984.9
   3894.9
(14-)
(14-)
   4130.6 5    DE  (16+)      405.0 3 
   460.9 3 
   521.9 3 
  1179
    26
   100
    30
 
(E2)
(E2)

Q
   3725.6
   3669.8
   3608.6
   2951.7
(14+)
(14+)
(16+)
(14+)
   4216.9 4  B DE  (17-)      126.9 3 
   206.5 2 
    33
   100
D
(E2)
   4089.9
   4010.5
(16-)
(15-)
   4387.7 5  B DE  (18-)      297.7 2 
   100
(E2)
   4089.9
(16-)
   4389.4 5  B DE  (18+)      780.8 2 
   100
(E2)
   3608.6
(16+)
   4519.8 10     E  (17-)      303
 

   4216.9
(17-)
   4588.4 4    DE  (19-)      200.7 3 
   371.5 2 
     8.2
   100
(M1)
(E2)
   4387.7
   4216.9
(18-)
(17-)
   4741.6 5    DE  (18+)      611.0 2 
   100

   4130.6
(16+)
   4950.5 5    DE  (20-)      562.8 3 
   100
(E2)
   4387.7
(18-)
   5021.6 10     E  (19-)      502
   100
(E2)
   4519.8
(17-)
   5130.7 5  B DE  (20+)      741.3 2 
   100
(E2)
   4389.4
(18+)
   5216.0 5    DE  (21-)      627.6 2 
   100

   4588.4
(19-)
   5271.6 6    DE  (20+)      882.2 3 
   100
(E2)
   4389.4
(18+)
   5316.5 6    DE  (20+)      574.8 3 
   100
(E2)
   4741.6
(18+)
   5543.5 7     E  (21-)      522
   593
   955
 
 
 
[E2]


   5021.6
   4950.5
   4588.4
(19-)
(20-)
(19-)
   5587.1 8     E  (20+)      270
   846
 
 

Q
   5316.5
   4741.6
(20+)
(18+)
   5655.2 6    DE  (22)-      704.7 3 
   100
(E2)
   4950.5
(20-)
   5700.6 6    DE  (22)+      569.9 2 
   100
(E2)
   5130.7
(20+)
   5787.9 6    DE  (22+)      471.4 3 
   100
(E2)
   5316.5
(20+)
   6012.2 6    DE  (23-)      796.2 3 
   100
(E2)
   5216.0
(21-)
   6112.6 9     E  (22+)      841
   982
 
 
(E2)
Q
   5271.6
   5130.7
(20+)
(20+)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   6125.5 8     E  (23-)      582
   910
 
 
(E2)
(E2)
   5543.5
   5216.0
(21-)
(21-)
   6233.6 12     E  (22+)      962
   100
(Q)
   5271.6
(20+)
   6294.6 10     E  (22+)      978
   100
(E2)
   5316.5
(20+)
   6303.3 9     E  (22+)      716
   987
 
 

Q
   5587.1
   5316.5
(20+)
(20+)
   6428.1 6    DE  (24)+      640
   727.5 3 
 
   100

(E2)
   5787.9
   5700.6
(22+)
(22)+
   6432.8 11     E  (23+) 10 ps +4 -3     129.8
   138
 
 
(M1)

   6303.3
   6294.6
(22+)
(22+)
   6437.6 7    DE  (24-)      782.3 3 
   100

   5655.2
(22)-
   6709.4 11     E  (24+) 14 ps +3-4     276.3
   405.9
   100
    29
(M1)
E2
   6432.8
   6303.3
(23+)
(22+)
   6855.0 6    DE  (25-)      842.8 3 
   100
(E2)
   6012.2
(23-)
   6878.4 11     E  (23-)        
   6949.2 10     E  (25-)      823
   100
(E2)
   6125.5
(23-)
   7035.3 10     E  (24-)      157
   100
(M1)
   6878.4
(23-)
   7043.3 12     E  (25+) 0.7 ps +7-11     333.6
   611.0
    35
   100
(M1)
(E2)
   6709.4
   6432.8
(24+)
(23+)
   7267.6 12     E  (26-)      830
   100
(E2)
   6437.6
(24-)
   7272.5 8     E  (25-)      237
   394
  1148
  1260
 
 
 
 



(E2)
   7035.3
   6878.4
   6125.5
   6012.2
(24-)
(23-)
(23-)
(23-)
   7320.1 12     E  (26+)      892
   100
(E2)
   6428.1
(24)+
   7434.9 13     E  (26+) 2.5 ps +13-7     391.9
   725.3
    89
   100
(M1)
[E2]
   7043.3
   6709.4
(25+)
(24+)
   7516.1 9     E  (26-)      244
   481
 
 
(M1)
(E2)
   7272.5
   7035.3
(25-)
(24-)
   7684.9 9     E  (25-,26-)      413
  1247
 
 

Q
   7272.5
   6437.6
(25-)
(24-)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   7722.0 12     E  (27-)      867
 

   6855.0
(25-)
   7787.8 8     E  (27-)      103
   272
   515
   933
 
 
 
 

(M1)

Q
   7684.9
   7516.1
   7272.5
   6855.0
(25-,26-)
(26-)
(25-)
(25-)
   7819.6 10     E  (27-)      304
   870
 
 

(E2)
   7516.1
   6949.2
(26-)
(25-)
   7838.4 11     E  (27-)      889
   100
Q
   6949.2
(25-)
   7926.7 10     E  (28-)       88
   107
   139
   410?
 
 
 
 

D


   7838.4
   7819.6
   7787.8
   7516.1
(27-)
(27-)
(27-)
(26-)
   7959.0 14     E  (27+) 1.2 ps 10     524.4
   915.6
   100
    60
(M1)
(E2)
   7434.9
   7043.3
(26+)
(25+)
   8180.7 16     E  (28+)      222
 

   7959.0
(27+)
   8194.6 16     E  (28-)      927
   100
(E2)
   7267.6
(26-)
   8207.6 16     E  (28-)      940
   100
Q
   7267.6
(26-)
   8224.3 11     E  (28-)      386
   405
   708
 
 
 

D

   7838.4
   7819.6
   7516.1
(27-)
(27-)
(26-)
   8263.5 11     E  (29-)      337
   476
 
 

(E2)
   7926.7
   7787.8
(28-)
(27-)
   8302.6 14     E  (28+) 0.5 ps 5     343.4
   867.6
    59
   100
(M1)
[E2]
   7959.0
   7434.9
(27+)
(26+)
   8331.1 16     E  (28+)     1011
   100
(E2)
   7320.1
(26+)
   8543.2 12     E  (30-)      280
   616
 
 
(M1)
(E2)
   8263.5
   7926.7
(29-)
(28-)
   8631.0 16     E  (29-)      909
 

   7722.0
(27-)
   8693.0 16     E  (29-)      971
   100
(Q)
   7722.0
(27-)
   8712.6 15     E  (29+) 0.14 ps +49-14     409.1
   753.7
   100
    66
(M1)
(E2)
   8302.6
   7959.0
(28+)
(27+)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   8961.3 15     E  (30+) 0.9 ps 4     248.1
   659.2
   781
   100
    90
 
[M1]
[E2]

   8712.6
   8302.6
   8180.7
(29+)
(28+)
(28+)
   8990.2 13     E  (31-)      447
   727
 
 
(M1)

   8543.2
   8263.5
(30-)
(29-)
   9196.0 16     E  (31+) 2.4 ps +4-3     234.8
   483.2
   100
    16
(M1)
(E2)
   8961.3
   8712.6
(30+)
(29+)
   9375.9 17     E  (32+) 1.5 ps 3     179.8
   414.6
   100
    18
(M1)
[E2]
   9196.0
   8961.3
(31+)
(30+)
   9443.4 13     E  (32-)      454
   900
 
 
(M1)
(E2)
   8990.2
   8543.2
(31-)
(30-)
   9666.0 18     E  (33+)      290
   470
 
 
(M1)

   9375.9
   9196.0
(32+)
(31+)
   9932.8 14     E  (33-)      490
   942
 
 
(M1)
(E2)
   9443.4
   8990.2
(32-)
(31-)
  10038.0 20     E  (34+)      372
 

   9666.0
(33+)
  10464.4 17     E  (34-)      532?
  1021
 
 

(E2)
   9932.8
   9443.4
(33-)
(32-)
      X     F JAP(8)        
    214.4+X 3      F J+2 < 77 ps    214.4 3 
 
(E2)
      X
JAP(8)
    472.2+X 4      F J+4 3.7 ps +8-6     257.8 1 
 
(E2)
    214.4+X
J+2
    772.3+X 4      F J+6 1.74 ps +22-17     300.1 1 
 
(E2)
    472.2+X
J+4
   1113.7+X 4      F J+8 0.84 ps +22-20     341.4 1 
 
(E2)
    772.3+X
J+6
   1495.3+X 4      F J+10 0.48 ps +62-13     381.6 1 
 
(E2)
   1113.7+X
J+8
   1916.4+X 5      F J+12      421.1 2 
 
(E2)
   1495.3+X
J+10
   2375.2+X 5      F J+14 0.18 ps +5-4     458.8 2 
 
(E2)
   1916.4+X
J+12
   2871.2+X 5      F J+16 0.137 ps +17-21     496.0 2 
 
(E2)
   2375.2+X
J+14
   3403.3+X 6      F J+18 0.093 ps +10-14     532.1 2 
 
(E2)
   2871.2+X
J+16
   3970.7+X 6      F J+20 0.068 ps +10-11     567.4 2 
 
(E2)
   3403.3+X
J+18
   4572.4+X 6      F J+22 0.062 ps +10-7     601.7 2 
 
(E2)
   3970.7+X
J+20
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   5207.3+X 7      F J+24 0.050 ps +10-12     634.9 2 
 
(E2)
   4572.4+X
J+22
   5875.4+X 7      F J+26 0.031 ps +9-8     668.1 2 
 
(E2)
   5207.3+X
J+24
   6575.5+X 7      F J+28 0.032 ps +9-8     700.1 2 
 
(E2)
   5875.4+X
J+26
   7307.0+X 8      F J+30 0.021 ps +11-21     731.5 2 
 
(E2)
   6575.5+X
J+28
   8069.3+X 8      F J+32 0.019 ps +18-19     762.3 3 
 
(E2)
   7307.0+X
J+30
   8862.0+X 9      F J+34      792.7 4 
 
(E2)
   8069.3+X
J+32
   9684.9+X 10      F J+36      822.9 4 
 
(E2)
   8862.0+X
J+34
  10538.0+X 11      F J+38      853.1 5 
 

   9684.9+X
J+36
  11426.7+X 13 ?     F J+40      888.7 7 ?
 

  10538.0+X
J+38
      Y     F J1AP(10)        
    241.2+Y 10      F J1+2      241.2
 

      Y
J1AP(10)
    523.6+Y 11      F J1+4      282.4 2 
 
[E2]
    241.2+Y
J1+2
    845.7+Y 11      F J1+6      322.1 2 
 

    523.6+Y
J1+4
   1207.0+Y 11      F J1+8      361.3 2 
 

    845.7+Y
J1+6
   1607.2+Y 11      F J1+10      400.2 2 
 

   1207.0+Y
J1+8
   2045.2+Y 11      F J1+12      438.0 2 
 

   1607.2+Y
J1+10
   2520.4+Y 12      F J1+14 0.14 ps 4     475.2 2 
 
[E2]
   2045.2+Y
J1+12
   3031.4+Y 12      F J1+16 0.15 ps +5-3     511.0 2 
 
[E2]
   2520.4+Y
J1+14
   3578.1+Y 12      F J1+18 0.100 ps 14     546.7 2 
 
[E2]
   3031.4+Y
J1+16
   4156.9+Y 12      F J1+20 0.064 ps 8     578.8 2 
 
[E2]
   3578.1+Y
J1+18
   4761.3+Y 12      F J1+22 0.052 ps +6-7     604.4 2 
 
[E2]
   4156.9+Y
J1+20
   5385.5+Y 13      F J1+24 0.044 ps 6     624.2 3 
 
[E2]
   4761.3+Y
J1+22
   6037.7+Y 13      F J1+26      652.2 3 
 

   5385.5+Y
J1+24
   6722.0+Y 13      F J1+28      684.3 3 
 

   6037.7+Y
J1+26
   7439.7+Y 14      F J1+30      717.7 3 
 

   6722.0+Y
J1+28
   8189.5+Y 14      F J1+32      749.8 4 
 

   7439.7+Y
J1+30
   8972.6+Y 15      F J1+34      783.1 5 
 

   8189.5+Y
J1+32
   9791.6+Y 18 ?     F J1+36      819 1 ?
 

   8972.6+Y
J1+34
      Z     F J2        
    333.1+Z 3      F J2+2      333.1 3 
 

      Z
J2
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    705.9+Z 4      F J2+4      372.8 2 
 

    333.1+Z
J2+2
   1118.0+Z 5      F J2+6      412.1 2 
 

    705.9+Z
J2+4
   1568.6+Z 5      F J2+8      450.6 3 
 

   1118.0+Z
J2+6
   2056.9+Z 6      F J2+10      488.3 3 
 

   1568.6+Z
J2+8
   2582.4+Z 8      F J2+12      525.5 4 
 

   2056.9+Z
J2+10
   3144.1+Z 9      F J2+14      561.7 4 
 

   2582.4+Z
J2+12
   3741.4+Z 10      F J2+16      597.3 4 
 

   3144.1+Z
J2+14
   4371.5+Z 11      F J2+18      630.1 5 
 

   3741.4+Z
J2+16
   5030.5+Z 14      F J2+20      659.0 8 
 

   4371.5+Z
J2+18
   5711.5+Z 20      F J2+22      681.0 15 
 

   5030.5+Z
J2+20

E(level): From least-squares fit to adopted Eγ, allowing ΔEγ=1 keV whenever authors failed to state the uncertainty in Eγ.

Jπ(level): From γ-ray multipolarities, coincidence data, and band structure in (HI,xnγ) and 192Pt(α,4nγ), 194Pt(α,6nγ), except where noted; continuing Jπ patterns established.

T1/2(level): For SD bands, values are from recoil distance Doppler shift (RDDS) and/or DSAM data in (HI,xnγ):SD. Values for other levels are from Doppler-shift recoil distance in 160Gd(36S,4nγ), unless noted to the contrary.

I(γ): Relative photon branching from each level; values are weighted averages from the two mixtures of 192Tl isomers in 192Tl ε decay (9.6 min+10.8 min), except as 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 - GS band, π=+,α=0.
      0.0 0+ 4.85 h 20 
% ε = 100
     
    422.79 10  2+      422.8 1 
   100
E2
      0.0
0+
   1057.58 14  4+      634.8 1 
   100
E2
    422.79
2+
   1803.05 16  6+      745.5 1 
   100
E2
   1057.58
4+
   2447.2 3  8+      470
   644.1 2 
 
   100 18 

(E2)
   1977.03
   1803.05
(7)-
6+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - band AE, π=-,α=1.
   1843.90 16  (5)-        
   1977.03 17  (7)- 1.04 ns 6     133.1 1 
   174.0 1 
    42.4 27 
   100 4 
E2
E1
   1843.90
   1803.05
(5)-
6+
   2223.85 24  (9)-      246.8 2 
   100
E2
   1977.03
(7)-
   2756.7 3  (11-)      532.9 2 
   100
(E2)
   2223.85
(9)-
   3449.6 4  (13-)      692.9 2 
   100
(E2)
   2756.7
(11-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - band AF, π=-,α=0.
   1986.9 11  (6-)        
   2216.20 24  (8)- 0.92 ns 5     239.2 2 
   100
M1+E2
   1977.03
(7)-
   2632.7 3  (10-)      408.8 2 
   416.5 2 
    38
   100
D

   2223.85
   2216.20
(9)-
(8)-
   3261.9 3  (12-)      505.2 3 
   629.2 2 
     3.8
   100

(E2)
   2756.7
   2632.7
(11-)
(10-)
   3984.9 8  (14-)      723
   100
(E2)
   3261.9
(12-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - band AB, π=+,α=0.
   2535.5 4  (12+) 11.1 ns 5       
   2951.7 4  (14+)      416.3 2 
   100
(E2)
   2535.5
(12+)
   3608.6 5  (16+)      656.8 2 
   100
(E2)
   2951.7
(14+)
   4389.4 5  (18+)      780.8 2 
   100
(E2)
   3608.6
(16+)
   5271.6 6  (20+)      882.2 3 
   100
(E2)
   4389.4
(18+)
   6112.6 9  (22+)      841
   982
 
 
(E2)
Q
   5271.6
   5130.7
(20+)
(20+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 5 - π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   3047.0 4  (12+)        
   3669.8 4  (14+)      622.7 3 
   718.4 3 
  1134
   100
    63
 
(E2)

Q
   3047.0
   2951.7
   2535.5
(12+)
(14+)
(12+)
   4130.6 5  (16+)      405.0 3 
   460.9 3 
   521.9 3 
  1179
    26
   100
    30
 
(E2)
(E2)

Q
   3725.6
   3669.8
   3608.6
   2951.7
(14+)
(14+)
(16+)
(14+)
   4741.6 5  (18+)      611.0 2 
   100

   4130.6
(16+)
   5316.5 6  (20+)      574.8 3 
   100
(E2)
   4741.6
(18+)
   5787.9 6  (22+)      471.4 3 
   100
(E2)
   5316.5
(20+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 6 - band ABCF, π=-,α=0.
   3894.9 4  (14-)        
   4089.9 4  (16-) 0.39 ns 4     105
   195.0 2 
 
 

E2
   3984.9
   3894.9
(14-)
(14-)
   4387.7 5  (18-)      297.7 2 
   100
(E2)
   4089.9
(16-)
   4950.5 5  (20-)      562.8 3 
   100
(E2)
   4387.7
(18-)
   5655.2 6  (22)-      704.7 3 
   100
(E2)
   4950.5
(20-)
   6437.6 7  (24-)      782.3 3 
   100

   5655.2
(22)-
   7267.6 12  (26-)      830
   100
(E2)
   6437.6
(24-)
   8194.6 16  (28-)      927
   100
(E2)
   7267.6
(26-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 7 - band ABCE, π=-,α=1.
   4010.5 4  (15-)        
   4216.9 4  (17-)      126.9 3 
   206.5 2 
    33
   100
D
(E2)
   4089.9
   4010.5
(16-)
(15-)
   4588.4 4  (19-)      200.7 3 
   371.5 2 
     8.2
   100
(M1)
(E2)
   4387.7
   4216.9
(18-)
(17-)
   5216.0 5  (21-)      627.6 2 
   100

   4588.4
(19-)
   6012.2 6  (23-)      796.2 3 
   100
(E2)
   5216.0
(21-)
   6855.0 6  (25-)      842.8 3 
   100
(E2)
   6012.2
(23-)
   7722.0 12  (27-)      867
 

   6855.0
(25-)
   8631.0 16  (29-)      909
 

   7722.0
(27-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 8 - band ABCD, π=+,α=0 (1995Le33).
   5130.7 5  (20+)        
   5700.6 6  (22)+      569.9 2 
   100
(E2)
   5130.7
(20+)
   6428.1 6  (24)+      640
   727.5 3 
 
   100

(E2)
   5787.9
   5700.6
(22+)
(22)+
   7320.1 12  (26+)      892
   100
(E2)
   6428.1
(24)+
   8331.1 16  (28+)     1011
   100
(E2)
   7320.1
(26+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 9 - SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
      X JAP(8)        
    214.4+X 3  J+2 < 77 ps    214.4 3 
 
(E2)
      X
JAP(8)
    472.2+X 4  J+4 3.7 ps +8-6     257.8 1 
 
(E2)
    214.4+X
J+2
    772.3+X 4  J+6 1.74 ps +22-17     300.1 1 
 
(E2)
    472.2+X
J+4
   1113.7+X 4  J+8 0.84 ps +22-20     341.4 1 
 
(E2)
    772.3+X
J+6
   1495.3+X 4  J+10 0.48 ps +62-13     381.6 1 
 
(E2)
   1113.7+X
J+8
   1916.4+X 5  J+12      421.1 2 
 
(E2)
   1495.3+X
J+10
   2375.2+X 5  J+14 0.18 ps +5-4     458.8 2 
 
(E2)
   1916.4+X
J+12
   2871.2+X 5  J+16 0.137 ps +17-21     496.0 2 
 
(E2)
   2375.2+X
J+14
   3403.3+X 6  J+18 0.093 ps +10-14     532.1 2 
 
(E2)
   2871.2+X
J+16
   3970.7+X 6  J+20 0.068 ps +10-11     567.4 2 
 
(E2)
   3403.3+X
J+18
   4572.4+X 6  J+22 0.062 ps +10-7     601.7 2 
 
(E2)
   3970.7+X
J+20
   5207.3+X 7  J+24 0.050 ps +10-12     634.9 2 
 
(E2)
   4572.4+X
J+22
   5875.4+X 7  J+26 0.031 ps +9-8     668.1 2 
 
(E2)
   5207.3+X
J+24
   6575.5+X 7  J+28 0.032 ps +9-8     700.1 2 
 
(E2)
   5875.4+X
J+26
   7307.0+X 8  J+30 0.021 ps +11-21     731.5 2 
 
(E2)
   6575.5+X
J+28
   8069.3+X 8  J+32 0.019 ps +18-19     762.3 3 
 
(E2)
   7307.0+X
J+30
   8862.0+X 9  J+34      792.7 4 
 
(E2)
   8069.3+X
J+32
   9684.9+X 10  J+36      822.9 4 
 
(E2)
   8862.0+X
J+34
  10538.0+X 11  J+38      853.1 5 
 

   9684.9+X
J+36
  11426.7+X 13  J+40      888.7 7 ?
 

  10538.0+X
J+38
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 10 - SD-2 band (1995Fa03,1995Ko17).
      Y J1AP(10)        
    241.2+Y 10  J1+2      241.2
 

      Y
J1AP(10)
    523.6+Y 11  J1+4      282.4 2 
 
[E2]
    241.2+Y
J1+2
    845.7+Y 11  J1+6      322.1 2 
 

    523.6+Y
J1+4
   1207.0+Y 11  J1+8      361.3 2 
 

    845.7+Y
J1+6
   1607.2+Y 11  J1+10      400.2 2 
 

   1207.0+Y
J1+8
   2045.2+Y 11  J1+12      438.0 2 
 

   1607.2+Y
J1+10
   2520.4+Y 12  J1+14 0.14 ps 4     475.2 2 
 
[E2]
   2045.2+Y
J1+12
   3031.4+Y 12  J1+16 0.15 ps +5-3     511.0 2 
 
[E2]
   2520.4+Y
J1+14
   3578.1+Y 12  J1+18 0.100 ps 14     546.7 2 
 
[E2]
   3031.4+Y
J1+16
   4156.9+Y 12  J1+20 0.064 ps 8     578.8 2 
 
[E2]
   3578.1+Y
J1+18
   4761.3+Y 12  J1+22 0.052 ps +6-7     604.4 2 
 
[E2]
   4156.9+Y
J1+20
   5385.5+Y 13  J1+24 0.044 ps 6     624.2 3 
 
[E2]
   4761.3+Y
J1+22
   6037.7+Y 13  J1+26      652.2 3 
 

   5385.5+Y
J1+24
   6722.0+Y 13  J1+28      684.3 3 
 

   6037.7+Y
J1+26
   7439.7+Y 14  J1+30      717.7 3 
 

   6722.0+Y
J1+28
   8189.5+Y 14  J1+32      749.8 4 
 

   7439.7+Y
J1+30
   8972.6+Y 15  J1+34      783.1 5 
 

   8189.5+Y
J1+32
   9791.6+Y 18  J1+36      819 1 ?
 

   8972.6+Y
J1+34
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 11 - SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
      Z J2        
    333.1+Z 3  J2+2      333.1 3 
 

      Z
J2
    705.9+Z 4  J2+4      372.8 2 
 

    333.1+Z
J2+2
   1118.0+Z 5  J2+6      412.1 2 
 

    705.9+Z
J2+4
   1568.6+Z 5  J2+8      450.6 3 
 

   1118.0+Z
J2+6
   2056.9+Z 6  J2+10      488.3 3 
 

   1568.6+Z
J2+8
   2582.4+Z 8  J2+12      525.5 4 
 

   2056.9+Z
J2+10
   3144.1+Z 9  J2+14      561.7 4 
 

   2582.4+Z
J2+12
   3741.4+Z 10  J2+16      597.3 4 
 

   3144.1+Z
J2+14
   4371.5+Z 11  J2+18      630.1 5 
 

   3741.4+Z
J2+16
   5030.5+Z 14  J2+20      659.0 8 
 

   4371.5+Z
J2+18
   5711.5+Z 20  J2+22      681.0 15 
 

   5030.5+Z
J2+20
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 12 - band ABDE (1994Le08,1995Le33).
   4519.8 10  (17-)        
   5021.6 10  (19-)      502
   100
(E2)
   4519.8
(17-)
   5543.5 7  (21-)      522
   593
   955
 
 
 
[E2]


   5021.6
   4950.5
   4588.4
(19-)
(20-)
(19-)
   6125.5 8  (23-)      582
   910
 
 
(E2)
(E2)
   5543.5
   5216.0
(21-)
(21-)
   6949.2 10  (25-)      823
   100
(E2)
   6125.5
(23-)
   7819.6 10  (27-)      304
   870
 
 

(E2)
   7516.1
   6949.2
(26-)
(25-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 13 - π=(+) DIPOLE band (1994Le08,1995Le33).
   6303.3 9  (22+)        
   6432.8 11  (23+) 10 ps +4 -3     129.8
   138
 
 
(M1)

   6303.3
   6294.6
(22+)
(22+)
   6709.4 11  (24+) 14 ps +3-4     276.3
   405.9
   100
    29
(M1)
E2
   6432.8
   6303.3
(23+)
(22+)
   7043.3 12  (25+) 0.7 ps +7-11     333.6
   611.0
    35
   100
(M1)
(E2)
   6709.4
   6432.8
(24+)
(23+)
   7434.9 13  (26+) 2.5 ps +13-7     391.9
   725.3
    89
   100
(M1)
[E2]
   7043.3
   6709.4
(25+)
(24+)
   7959.0 14  (27+) 1.2 ps 10     524.4
   915.6
   100
    60
(M1)
(E2)
   7434.9
   7043.3
(26+)
(25+)
   8302.6 14  (28+) 0.5 ps 5     343.4
   867.6
    59
   100
(M1)
[E2]
   7959.0
   7434.9
(27+)
(26+)
   8712.6 15  (29+) 0.14 ps +49-14     409.1
   753.7
   100
    66
(M1)
(E2)
   8302.6
   7959.0
(28+)
(27+)
   8961.3 15  (30+) 0.9 ps 4     248.1
   659.2
   781
   100
    90
 
[M1]
[E2]

   8712.6
   8302.6
   8180.7
(29+)
(28+)
(28+)
   9196.0 16  (31+) 2.4 ps +4-3     234.8
   483.2
   100
    16
(M1)
(E2)
   8961.3
   8712.6
(30+)
(29+)
   9375.9 17  (32+) 1.5 ps 3     179.8
   414.6
   100
    18
(M1)
[E2]
   9196.0
   8961.3
(31+)
(30+)
   9666.0 18  (33+)      290
   470
 
 
(M1)

   9375.9
   9196.0
(32+)
(31+)
  10038.0 20  (34+)      372
 

   9666.0
(33+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 14 - π=(-) DIPOLE band (1994Le08,1995Le33).
   6878.4 11  (23-)        
   7035.3 10  (24-)      157
   100
(M1)
   6878.4
(23-)
   7272.5 8  (25-)      237
   394
  1148
  1260
 
 
 
 



(E2)
   7035.3
   6878.4
   6125.5
   6012.2
(24-)
(23-)
(23-)
(23-)
   7516.1 9  (26-)      244
   481
 
 
(M1)
(E2)
   7272.5
   7035.3
(25-)
(24-)
   7787.8 8  (27-)      103
   272
   515
   933
 
 
 
 

(M1)

Q
   7684.9
   7516.1
   7272.5
   6855.0
(25-,26-)
(26-)
(25-)
(25-)
   7926.7 10  (28-)       88
   107
   139
   410?
 
 
 
 

D


   7838.4
   7819.6
   7787.8
   7516.1
(27-)
(27-)
(27-)
(26-)
   8263.5 11  (29-)      337
   476
 
 

(E2)
   7926.7
   7787.8
(28-)
(27-)
   8543.2 12  (30-)      280
   616
 
 
(M1)
(E2)
   8263.5
   7926.7
(29-)
(28-)
   8990.2 13  (31-)      447
   727
 
 
(M1)

   8543.2
   8263.5
(30-)
(29-)
   9443.4 13  (32-)      454
   900
 
 
(M1)
(E2)
   8990.2
   8543.2
(31-)
(30-)
   9932.8 14  (33-)      490
   942
 
 
(M1)
(E2)
   9443.4
   8990.2
(32-)
(31-)
  10464.4 17  (34-)      532?
  1021
 
 

(E2)
   9932.8
   9443.4
(33-)
(32-)

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
    422.79 2+      422.8 1 E2 0.0410α=0.0410
   1057.58 4+      634.8 1 E2 0.01550α=0.01550
   1113.60 (2)+      690.8 1 M1+E21.7 +5-30.0197α=0.0197 23
   1535.2 (3)+      477.6 3 M1(+E2)0.4 +5-40.093α=0.093 23
   1732.98 (4)+      619.4 2 E2 0.01637α=0.01637
(4)+      675.4 1 M1+E20.7 +3-20.032α=0.032 5
   1803.05 6+      745.5 1 E2 0.01095α=0.01095
   1977.03 (7)- 1.04 ns 6     133.1 1 E2 1.740B(E2)(W.u.)≈84, α=1.740
(7)- 1.04 ns 6     174.0 1 E1 0.1048B(E1)(W.u.)≈3.7E-5, α=0.1048
   1986.9 (6-)      143(M1) 2.84α=2.84
   2186.98 (6)-      343.1 2 M1 0.251α=0.251
(6)-      383.9 2 E1 0.01579α=0.01579
   2216.20 (8)- 0.92 ns 5     239.2 2 M1+E20.64 110.54B(E2)(W.u.)=2.3 6, B(M1)(W.u.)=0.00081 10, α=0.54 4
   2223.85 (9)-      246.8 2 E2 0.194α=0.194
   2300.7 (6,7,8)-      323.7 2 M1+E20.75 +17-160.218α=0.218 22
   2447.2 8+      644.1 2 (E2) 0.01501α=0.01501
   2507.3 (10)+ 3.6 ns 5      60.1E2 55.7B(E2)(W.u.)=24 +27-24, α=55.7
(10)+ 3.6 ns 5     283.4 2 (E1) 0.0318B(E1)(W.u.)=1.3E-6 7, α=0.0318
   2535.5 (12+) 11.1 ns 5      28.4(E2) 2.20×103B(E2)(W.u.)=19 4, α=2.20E3
   2756.7 (11-)      532.9 2 (E2) 0.0231α=0.0231
   2951.7 (14+)      416.3 2 (E2) 0.0427α=0.0427
   3047.0 (12+)      539.7 3 (E2) 0.0224α=0.0224
   3261.9 (12-)      629.2 2 (E2) 0.01581α=0.01581
   3449.6 (13-)      692.9 2 (E2) 0.01280α=0.01280
   3608.6 (16+)      656.8 2 (E2) 0.01438α=0.01438
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   3669.8 (14+)      622.7 3 (E2) 0.01618α=0.01618
   3725.6 (14+)      678.7 3 (E2) 0.01339α=0.01339
   3894.9 (14-)      633.0 2 (E2) 0.01560α=0.01560
   3984.9 (14-)      723(E2) 0.01169α=0.01169
   4010.5 (15-)      560.9 2 (E2) 0.0205α=0.0205
   4089.9 (16-) 0.39 ns 4     195.0 2 E2 0.427α=0.427
   4130.6 (16+)      405.0 3 (E2) 0.0459α=0.0459
(16+)      460.9 3 (E2) 0.0329α=0.0329
   4216.9 (17-)      206.5 2 (E2) 0.350α=0.350
   4387.7 (18-)      297.7 2 (E2) 0.1089α=0.1089
   4588.4 (19-)      200.7 3 (M1) 1.095α=1.095
(19-)      371.5 2 (E2) 0.0579α=0.0579
   4950.5 (20-)      562.8 3 (E2) 0.0204α=0.0204
   5021.6 (19-)      502(E2) 0.0267α=0.0267
   5130.7 (20+)      741.3 2 (E2) 0.01108α=0.01108
   5316.5 (20+)      574.8 3 (E2) 0.0194α=0.0194
   5543.5 (21-)      522[E2] 0.0243α=0.0243
   5655.2 (22)-      704.7 3 (E2) 0.01234α=0.01234
   5700.6 (22)+      569.9 2 (E2) 0.0198α=0.0198
   5787.9 (22+)      471.4 3 (E2) 0.0311α=0.0311
   6125.5 (23-)      582(E2) 0.0188α=0.0188
   6428.1 (24)+      727.5 3 (E2) 0.01153α=0.01153
   6432.8 (23+) 10 ps +4 -3     129.8(M1) 3.75α=3.75
   6709.4 (24+) 14 ps +3-4     276.3(M1) 0.452B(M1)(W.u.)=0.042 +13-10, α=0.452
(24+) 14 ps +3-4     405.9E2 0.0456B(E2)(W.u.)=9.2 +27-20, α=0.0456
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   7035.3 (24-)      157(M1) 2.18α=2.18
   7043.3 (25+) 0.7 ps +7-11     333.6(M1) 0.270B(M1)(W.u.)=0.20 +32-20, α=0.270
(25+) 0.7 ps +7-11     611.0(E2) 0.01688B(E2)(W.u.)=1.0×102 +16-10, α=0.01688
   7434.9 (26+) 2.5 ps +13-7     391.9(M1) 0.1752B(M1)(W.u.)=0.063 +18-33, α=0.1752
(26+) 2.5 ps +13-7     725.3[E2] 0.01161B(E2)(W.u.)=8.3 +24-44, α=0.01161
   7516.1 (26-)      244(M1) 0.636α=0.636
(26-)      481(E2) 0.0296α=0.0296
   7787.8 (27-)      272(M1) 0.472α=0.472
   7959.0 (27+) 1.2 ps 10     524.4(M1) 0.0809B(M1)(W.u.)=0.08 7, α=0.0809
(27+) 1.2 ps 10     915.6(E2) B(E2)(W.u.)=4 4
   8263.5 (29-)      476(E2) 0.0304α=0.0304
   8302.6 (28+) 0.5 ps 5     343.4(M1) 0.250B(M1)(W.u.)=0.4 4, α=0.250
(28+) 0.5 ps 5     867.6[E2] B(E2)(W.u.)=20 +21-20
   8543.2 (30-)      280(M1) 0.436α=0.436
(30-)      616(E2) 0.01657α=0.01657
   8712.6 (29+) 0.14 ps +49-14     409.1(M1) 0.1562B(M1)(W.u.)=1.3 13, α=0.1562
(29+) 0.14 ps +49-14     753.7(E2) 0.01070B(E2)(W.u.)=9.×101 +10-9, α=0.01070
   8961.3 (30+) 0.9 ps 4     248.1[M1] 0.607α=0.607
(30+) 0.9 ps 4     659.2[E2] 0.01426α=0.01426
   8990.2 (31-)      447(M1) 0.1234α=0.1234
   9196.0 (31+) 2.4 ps +4-3     234.8(M1) 0.707B(M1)(W.u.)=0.38 +5-7, α=0.707
(31+) 2.4 ps +4-3     483.2(E2) 0.0293B(E2)(W.u.)=11.6 +15-20, α=0.0293
   9375.9 (32+) 1.5 ps 3     179.8(M1) 1.489B(M1)(W.u.)=0.94 19, α=1.489
(32+) 1.5 ps 3     414.6[E2] 0.0431B(E2)(W.u.)=31 7, α=0.0431
   9443.4 (32-)      454(M1) 0.1184α=0.1184
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   9666.0 (33+)      290(M1) 0.396α=0.396
   9932.8 (33-)      490(M1) 0.0967α=0.0967
    214.4+X J+2 < 77 ps    214.4 3 (E2) 0.309B(E2)(W.u.)>190, α=0.309
    472.2+X J+4 3.7 ps +8-6     257.8 1 (E2) 0.1693B(E2)(W.u.)=1.7×103 +3-4, α=0.1693
    772.3+X J+6 1.74 ps +22-17     300.1 1 (E2) 0.1063B(E2)(W.u.)=1.84×103 +18-24, α=0.1063
   1113.7+X J+8 0.84 ps +22-20     341.4 1 (E2) 0.0732B(E2)(W.u.)=2.1×103 +5-6, α=0.0732
   1495.3+X J+10 0.48 ps +62-13     381.6 1 (E2) 0.0538B(E2)(W.u.)=2.1×103 +6-21, α=0.0538
   1916.4+X J+12      421.1 2 (E2) 0.0414α=0.0414
   2375.2+X J+14 0.18 ps +5-4     458.8 2 (E2) 0.0333B(E2)(W.u.)=2.3×103 +5-7, α=0.0333
   2871.2+X J+16 0.137 ps +17-21     496.0 2 (E2) 0.0275B(E2)(W.u.)=2.0×103 +4-3, α=0.0275
   3403.3+X J+18 0.093 ps +10-14     532.1 2 (E2) 0.0232B(E2)(W.u.)=2.12×103 +32-23, α=0.0232
   3970.7+X J+20 0.068 ps +10-11     567.4 2 (E2) 0.0200B(E2)(W.u.)=2.1×103 4, α=0.0200
   4572.4+X J+22 0.062 ps +10-7     601.7 2 (E2) 0.01747B(E2)(W.u.)=1.73×103 +20-28, α=0.01747
   5207.3+X J+24 0.050 ps +10-12     634.9 2 (E2) 0.01549B(E2)(W.u.)=1.6×103 4, α=0.01549
   5875.4+X J+26 0.031 ps +9-8     668.1 2 (E2) 0.01385B(E2)(W.u.)=2.1×103 6, α=0.01385
   6575.5+X J+28 0.032 ps +9-8     700.1 2 (E2) 0.01252B(E2)(W.u.)=1.6×103 +4-5, α=0.01252
   7307.0+X J+30 0.021 ps +11-21     731.5 2 (E2) 0.01140B(E2)(W.u.)=1.9×103 +20-11, α=0.01140
   8069.3+X J+32 0.019 ps +18-19     762.3 3 (E2) 0.01045B(E2)(W.u.)=1.7×103 +18-17, α=0.01045
    523.6+Y J1+4      282.4 2 [E2] 0.1277α=0.1277
   2520.4+Y J1+14 0.14 ps 4     475.2 2 [E2] 0.0305B(E2)(W.u.)=2500 700, α=0.0305
   3031.4+Y J1+16 0.15 ps +5-3     511.0 2 [E2] 0.0256B(E2)(W.u.)=1.6×103 +4-6, α=0.0256
   3578.1+Y J1+18 0.100 ps 14     546.7 2 [E2] 0.0218B(E2)(W.u.)=1720 250, α=0.0218
   4156.9+Y J1+20 0.064 ps 8     578.8 2 [E2] 0.0191B(E2)(W.u.)=2000 300, α=0.0191
   4761.3+Y J1+22 0.052 ps +6-7     604.4 2 [E2] 0.01730B(E2)(W.u.)=2.02×103 +28-24, α=0.01730
   5385.5+Y J1+24 0.044 ps 6     624.2 3 [E2] 0.01609B(E2)(W.u.)=2000 300, α=0.01609
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
      0.00+ 4.85 h 20 
% ε = 100
<r2>1/2(charge)=5.423 4 (2004An14).
E(level): <r2>1/2(charge)=5.423 4 (2004An14). GS band, π=+,α=0.
Jπ(level): Based on smooth progression of level energies and independently established Jπ(g.s.) and mult(423γ), definite Jπ has been assigned to all members of the g.s. band.
    422.792+   E(level): GS band, π=+,α=0.
Jπ(level): Based on smooth progression of level energies and independently established Jπ(g.s.) and mult(423γ), definite Jπ has been assigned to all members of the g.s. band.
   1057.584+   E(level): GS band, π=+,α=0.
Jπ(level): Based on smooth progression of level energies and independently established Jπ(g.s.) and mult(423γ), definite Jπ has been assigned to all members of the g.s. band.
   1803.056+   E(level): GS band, π=+,α=0.
Jπ(level): Based on smooth progression of level energies and independently established Jπ(g.s.) and mult(423γ), definite Jπ has been assigned to all members of the g.s. band.
   1843.90(5)-   E(level): band AE, π=-,α=1.
   1977.03(7)- 1.04 ns 6  E(level): band AE, π=-,α=1.
   1986.9(6-)   E(level): band AF, π=-,α=0.
   2216.20(8)- 0.92 ns 5  E(level): band AF, π=-,α=0.
   2223.85(9)-   E(level): band AE, π=-,α=1.
   2447.28+   E(level): GS band, π=+,α=0.
Jπ(level): Based on smooth progression of level energies and independently established Jπ(g.s.) and mult(423γ), definite Jπ has been assigned to all members of the g.s. band.
   2535.5(12+) 11.1 ns 5  E(level): From 170Er(Mg,xnγ). band AB, π=+,α=0.
   2632.7(10-)   E(level): band AF, π=-,α=0.
   2756.7(11-)   E(level): band AE, π=-,α=1.
   2951.7(14+)   E(level): From 170Er(Mg,xnγ). band AB, π=+,α=0.
   3047.0(12+)   E(level): π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   3261.9(12-)   E(level): band AF, π=-,α=0.
   3449.6(13-)   E(level): band AE, π=-,α=1.
   3608.6(16+)   E(level): From 170Er(Mg,xnγ). band AB, π=+,α=0.
   3669.8(14+)   E(level): π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   3894.9(14-)   E(level): band ABCF, π=-,α=0.
   3984.9(14-)   E(level): band AF, π=-,α=0.
   4010.5(15-)   E(level): band ABCE, π=-,α=1.
   4089.9(16-) 0.39 ns 4  E(level): band ABCF, π=-,α=0.
   4130.6(16+)   E(level): π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   4216.9(17-)   E(level): band ABCE, π=-,α=1.
E(level)Jπ(level)T1/2(level)Comments
   4387.7(18-)   E(level): band ABCF, π=-,α=0.
   4389.4(18+)   E(level): From 170Er(Mg,xnγ). band AB, π=+,α=0.
   4519.8(17-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABDE (1994Le08,1995Le33).
   4588.4(19-)   E(level): band ABCE, π=-,α=1.
   4741.6(18+)   E(level): π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   4950.5(20-)   E(level): band ABCF, π=-,α=0.
   5021.6(19-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABDE (1994Le08,1995Le33).
   5130.7(20+)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABCD, π=+,α=0 (1995Le33).
   5216.0(21-)   E(level): band ABCE, π=-,α=1.
   5271.6(20+)   E(level): From 170Er(Mg,xnγ). band AB, π=+,α=0.
   5316.5(20+)   E(level): π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   5543.5(21-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABDE (1994Le08,1995Le33).
   5655.2(22)-   E(level): band ABCF, π=-,α=0.
   5700.6(22)+   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABCD, π=+,α=0 (1995Le33).
   5787.9(22+)   E(level): π=+,α=0 VIBRATIONAL band (1986Hu02,1994Le08).
   6012.2(23-)   E(level): band ABCE, π=-,α=1.
   6112.6(22+)   E(level): From 170Er(Mg,xnγ). band AB, π=+,α=0.
   6125.5(23-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABDE (1994Le08,1995Le33).
   6303.3(22+)   E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   6428.1(24)+   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABCD, π=+,α=0 (1995Le33).
   6432.8(23+) 10 ps +4 -3  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   6437.6(24-)   E(level): band ABCF, π=-,α=0.
   6709.4(24+) 14 ps +3-4  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   6855.0(25-)   E(level): band ABCE, π=-,α=1.
   6878.4(23-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
E(level)Jπ(level)T1/2(level)Comments
   6949.2(25-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABDE (1994Le08,1995Le33).
   7035.3(24-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   7043.3(25+) 0.7 ps +7-11  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   7267.6(26-)   E(level): band ABCF, π=-,α=0.
   7272.5(25-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   7320.1(26+)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABCD, π=+,α=0 (1995Le33).
   7434.9(26+) 2.5 ps +13-7  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   7516.1(26-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   7722.0(27-)   E(level): band ABCE, π=-,α=1.
   7787.8(27-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   7819.6(27-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABDE (1994Le08,1995Le33).
   7926.7(28-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   7959.0(27+) 1.2 ps 10  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   8194.6(28-)   E(level): band ABCF, π=-,α=0.
   8263.5(29-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   8302.6(28+) 0.5 ps 5  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   8331.1(28+)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. band ABCD, π=+,α=0 (1995Le33).
   8543.2(30-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   8631.0(29-)   E(level): band ABCE, π=-,α=1.
   8712.6(29+) 0.14 ps +49-14  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   8961.3(30+) 0.9 ps 4  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   8990.2(31-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
   9196.0(31+) 2.4 ps +4-3  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   9375.9(32+) 1.5 ps 3  E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   9443.4(32-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
E(level)Jπ(level)T1/2(level)Comments
   9666.0(33+)   E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
   9932.8(33-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
  10038.0(34+)   E(level): π=(+) DIPOLE band (1994Le08,1995Le33).
  10464.4(34-)   E(level): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV. π=(-) DIPOLE band (1994Le08,1995Le33).
      XJAP(8)   E(level): From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
    214.4+XJ+2 < 77 ps Q(transition)>6 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)>6 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
    472.2+XJ+4 3.7 ps +8-6  Q(transition)=18.3 16 (1994Wi06), 19.3 +50-25 (1993De35) in (HI,xnγ):SD.
E(level): Q(transition)=18.3 16 (1994Wi06), 19.3 +50-25 (1993De35) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
    772.3+XJ+6 1.74 ps +22-17  Q(transition)=18.5 10 (1994Wi06), 17.5 +35-25 (1994Le24), 17 +11-3 (1993De35) in (HI,xnγ):SD.
E(level): Q(transition)=18.5 10 (1994Wi06), 17.5 +35-25 (1994Le24), 17 +11-3 (1993De35) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   1113.7+XJ+8 0.84 ps +22-20  Q(transition)=19.2 +24-21 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=19.2 +24-21 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   1495.3+XJ+10 0.48 ps +62-13  Q(transition)=20 +4-7 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=20 +4-7 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   1916.4+XJ+12   E(level): From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   2375.2+XJ+14 0.18 ps +5-4  Q(transition)=20.7 +31-25 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=20.7 +31-25 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   2871.2+XJ+16 0.137 ps +17-21  Q(transition)=19.3 +17-11 (1994Wi06), 19.9 +31-25 (1998Bu03). From (HI,xnγ):SD.
E(level): Q(transition)=19.3 +17-11 (1994Wi06), 19.9 +31-25 (1998Bu03). From (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   3403.3+XJ+18 0.093 ps +10-14  Q(transition)=19.6 +17-11 (1994Wi06), 20.3 +31-21 (1998Bu03). From (HI,xnγ):SD.
E(level): Q(transition)=19.6 +17-11 (1994Wi06), 20.3 +31-21 (1998Bu03). From (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   3970.7+XJ+20 0.068 ps +10-11  Q(transition)=19.6 +19-13 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=19.6 +19-13 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   4572.4+XJ+22 0.062 ps +10-7  Q(transition)=17.7 12 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=17.7 12 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   5207.3+XJ+24 0.050 ps +10-12  Q(transition)=17.4 +24-15 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=17.4 +24-15 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   5875.4+XJ+26 0.031 ps +9-8  Q(transition)=19.3 +29-23 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=19.3 +29-23 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   6575.5+XJ+28 0.032 ps +9-8  Q(transition)=16.9 +15-20 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=16.9 +15-20 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   7307.0+XJ+30 0.021 ps +11-21  Q(transition)=19 +|@-4 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=19 +|@-4 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   8069.3+XJ+32 0.019 ps +18-19  Q(transition)=18 +|@-6 (1994Wi06) in (HI,xnγ):SD.
E(level): Q(transition)=18 +|@-6 (1994Wi06) in (HI,xnγ):SD. From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   8862.0+XJ+34   E(level): From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
   9684.9+XJ+36   E(level): From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
  10538.0+XJ+38   E(level): From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
  11426.7+XJ+40   E(level): From 170Er(Mg,xnγ). SD-1 band (1992La07,1994Ga07,1995Fa03,1997Mo12,1998Bu03).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1990Be01).
E(level)Jπ(level)T1/2(level)Comments
      YJ1AP(10)   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
    241.2+YJ1+2   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
    523.6+YJ1+4   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
    845.7+YJ1+6   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   1207.0+YJ1+8   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   1607.2+YJ1+10   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   2045.2+YJ1+12   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   2520.4+YJ1+14 0.14 ps 4  Q(transition)=22.1 +29-30 (1995Ko17) in (HI,xnγ):SD.
E(level): Q(transition)=22.1 +29-30 (1995Ko17) in (HI,xnγ):SD. SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   3031.4+YJ1+16 0.15 ps +5-3  Q(transition)=17.8 +28-20 (1995Ko17) in (HI,xnγ):SD.
E(level): Q(transition)=17.8 +28-20 (1995Ko17) in (HI,xnγ):SD. SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   3578.1+YJ1+18 0.100 ps 14  Q(transition)=18.2 13 (1995Ko17) in (HI,xnγ):SD.
E(level): Q(transition)=18.2 13 (1995Ko17) in (HI,xnγ):SD. SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   4156.9+YJ1+20 0.064 ps 8  Q(transition)=19.4 13 (1995Ko17) in (HI,xnγ):SD.
E(level): Q(transition)=19.4 13 (1995Ko17) in (HI,xnγ):SD. SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   4761.3+YJ1+22 0.052 ps +6-7  Q(transition)=19.4 13 (1995Ko17) in (HI,xnγ):SD.
E(level): Q(transition)=19.4 13 (1995Ko17) in (HI,xnγ):SD. SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   5385.5+YJ1+24 0.044 ps 6  Q(transition)=19.5 13 (1995Ko17) in (HI,xnγ):SD.
E(level): Q(transition)=19.5 13 (1995Ko17) in (HI,xnγ):SD. SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   6037.7+YJ1+26   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   6722.0+YJ1+28   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   7439.7+YJ1+30   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   8189.5+YJ1+32   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   8972.6+YJ1+34   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
   9791.6+YJ1+36   E(level): SD-2 band (1995Fa03,1995Ko17).
Jπ(level): From fit to expansions relating second moment of inertia and angular frequency (1995Ko17), J≈(10) for E(level)=y.
      ZJ2   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
    333.1+ZJ2+2   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
    705.9+ZJ2+4   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   1118.0+ZJ2+6   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   1568.6+ZJ2+8   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   2056.9+ZJ2+10   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
E(level)Jπ(level)T1/2(level)Comments
   2582.4+ZJ2+12   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   3144.1+ZJ2+14   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   3741.4+ZJ2+16   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   4371.5+ZJ2+18   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   5030.5+ZJ2+20   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).
   5711.5+ZJ2+22   E(level): SD-3 band (1995Fa03). PERCENT POPULATION=0.1 (1995Fa03).

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Additional Gamma Comments:

E(level)E(gamma)Comments
    422.79    422.8M(γ): stretched Q from γ(θ) in (HI,xnγ):SD; not M2 from K/L in (p,6nγ) and 192Tl ε decay.
   1113.60   1113.0E(γ): Multiply placed with intensity suitably divided
I(γ): Multiply placed with intensity suitably divided
   1535.2   1113.0E(γ): Multiply placed with intensity suitably divided
I(γ): Multiply placed with intensity suitably divided
   1831.62    717.9I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
    774.1I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   1908.58   1486.1I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   1908.4I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   1986.9    143E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   2056.29   1633.5I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   2056.0I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   2081.69   1658.9I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   2081.9I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
   2186.98    343.1I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
    383.9I(γ): From 192Tl ε decay using source enhanced in (2-) 192Tl.
M(γ): E1,M1 from K/L in (α,4nγ); E1,E2 from α(K)exp in ε decay.
   2447.2    470E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    644.1M(γ): M1 from α(K)exp in 192Tl ε decay, but stretched Q from γ(θ) in 170Er(Mg,xnγ); establishes Δπ=no.
   2507.3     60.1E(γ): from (α,xnγ). ΔEγ unstated by authors; uncertainty in level energy difference is ≈0.4 keV.
I(γ): from I(γ+ce) and α in 192Pt(α,4nγ), 194Pt(α,6nγ).
M(γ): from (α,xnγ).
    283.4E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
I(γ): Deduced from I(γ+ce) in 192Pt(α,4nγ), 194Pt(α,6nγ) and α.
M(γ): From ce data in 192Pt(α,4nγ), 194Pt(α,6nγ).
   2535.5     28.4E(γ): uncertainty unstated by authors; Eγ=28.2 5 from level energy difference.
   2632.7    408.8E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
I(γ): From 170Er(Mg,xnγ).
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    416.5E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
I(γ): From 170Er(Mg,xnγ).
   2657.1    854E(γ): from (p,6nγ).
   2756.7    532.9E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   2902.3    395E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   2951.7    416.3E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
E(level)E(gamma)Comments
   3047.0    144E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    511.3E(γ): complex peak (wider than normal).. From 170Er(Mg,xnγ).
    539.7E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   3261.9    505.2E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
    629.2E(γ): Complex peak (wider than normal).
   3449.6    692.9E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   3608.6    656.8E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   3669.8    718.4E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
   1134E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   3725.6    678.7E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   1190E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   3894.9    445.2E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    633.0E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
I(γ): From 170Er(Mg,xnγ).
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   3984.9    723E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   4010.5    560.9E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
I(γ): From 170Er(Mg,xnγ).
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   1058.7E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
M(γ): from γ(θ) in (HI,xnγ).
   4089.9    105E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    195.0E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   4130.6    521.9E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
   1179E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   4216.9    126.9E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
M(γ): from γ(θ) in (HI,xnγ).
    206.5E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
I(γ): From 170Er(Mg,xnγ).
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   4387.7    297.7E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   4389.4    780.8E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 170Er(Mg,xnγ).
   4519.8    303E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
E(level)E(gamma)Comments
   4588.4    200.7E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
M(γ): d from γ(θ) in 170Er(Mg,xnγ).
    371.5E(γ): From 170Er(Mg,xnγ).
I(γ): From 170Er(Mg,xnγ).
M(γ): Q from γ(θ) in 170Er(Mg,xnγ) for cascade γ.
   4741.6    611.0E(γ): From 170Er(Mg,xnγ).
   4950.5    562.8E(γ): From 170Er(Mg,xnγ).
M(γ): Q from γ(θ) in 170Er(Mg,xnγ) for cascade γ.
   5021.6    502E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   5130.7    741.3E(γ): Weighted average from 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ), rounded to the nearest tenth of a keV.
M(γ): From 192Pt(α,4nγ), 194Pt(α,6nγ) and 170Er(Mg,xnγ).
   5216.0    627.6E(γ): From 170Er(Mg,xnγ).
   5271.6    882.2E(γ): From 170Er(Mg,xnγ).
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   5316.5    574.8E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   5543.5    522E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    593E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    955E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   5587.1    270E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    846E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   5655.2    704.7E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   5700.6    569.9E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   5787.9    471.4E(γ): From 170Er(Mg,xnγ).
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   6012.2    796.2E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   6112.6    841E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    982E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   6125.5    582E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    910E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   6233.6    962E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   6294.6    978E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   6303.3    716E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    987E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
E(level)E(gamma)Comments
   6428.1    640E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    727.5E(γ): From 170Er(Mg,xnγ).
M(γ): From 170Er(Mg,xnγ).
   6432.8    129.8E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    138E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   6437.6    782.3E(γ): From 170Er(Mg,xnγ).
   6709.4    276.3E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    405.9E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   6855.0    842.8E(γ): complex peak (wider than normal) in 170Er(Mg,xnγ).. From 170Er(Mg,xnγ).
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   6949.2    823E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   7035.3    157E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   7043.3    333.6E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    611.0E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   7267.6    830E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   7272.5    237E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    394E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   1148E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   1260E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   7320.1    892E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   7434.9    391.9E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    725.3E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   7516.1    244E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    481E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   7684.9    413E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   1247E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   7722.0    867E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
E(level)E(gamma)Comments
   7787.8    103E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    272E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    515E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    933E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   7819.6    304E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    870E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   7838.4    889E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   7926.7     88E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    107E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    139E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    410E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   7959.0    524.4E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    915.6E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8180.7    222E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   8194.6    927E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8207.6    940E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8224.3    386E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    405E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    708E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   8263.5    337E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
    476E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   8302.6    343.4E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    867.6E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8331.1   1011E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8543.2    280E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    616E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
E(level)E(gamma)Comments
   8631.0    909E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   8693.0    971E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8712.6    409.1E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    753.7E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   8961.3    248.1E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    659.2E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    781E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   8990.2    447E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    727E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   9196.0    234.8E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    483.2E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   9375.9    179.8E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
    414.6E(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
I(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
M(γ): From 160Gd(36S,4nγ). Authors do not state uncertainties in Eγ or Iγ. Multipolarity is based on γ anisotropy assigning Δπ=(no) for intraband transitions.
   9443.4    454E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    900E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
   9666.0    290E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    470E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   9932.8    490E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    942E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
  10038.0    372E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
  10464.4    532E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
   1021E(γ): From 160Gd(36S,4nγ); ΔEγ unstated by authors.
M(γ): From γ asymmetry in (36S,4nγ), assigning Δπ=(no) for intraband transitions.
    214.4+X    214.4E(γ): 214.9 2 (1994Ga07) in (HI,xnγ):SD.. From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
    472.2+X    257.8E(γ): 258.2 1 (1994Ga07) in (HI,xnγ):SD.. From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
    772.3+X    300.1E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
E(level)E(gamma)Comments
   1113.7+X    341.4E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   1495.3+X    381.6E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   1916.4+X    421.1E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   2375.2+X    458.8E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   2871.2+X    496.0E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   3403.3+X    532.1E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   3970.7+X    567.4E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   4572.4+X    601.7E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   5207.3+X    634.9E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   5875.4+X    668.1E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   6575.5+X    700.1E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   7307.0+X    731.5E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   8069.3+X    762.3E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   8862.0+X    792.7E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
   9684.9+X    822.9E(γ): From (HI,xnγ):SD.
M(γ): From (HI,xnγ):SD.
  10538.0+X    853.1E(γ): From (HI,xnγ):SD.
  11426.7+X    888.7E(γ): From (HI,xnγ):SD.
    241.2+Y    241.2E(γ): from 1995Ko17 only in (HI,xnγ):SD.. From (HI,xnγ):SD.
    523.6+Y    282.4E(γ): From (HI,xnγ):SD.
    845.7+Y    322.1E(γ): From (HI,xnγ):SD.
   1207.0+Y    361.3E(γ): From (HI,xnγ):SD.
   1607.2+Y    400.2E(γ): From (HI,xnγ):SD.
   2045.2+Y    438.0E(γ): From (HI,xnγ):SD.
   2520.4+Y    475.2E(γ): From (HI,xnγ):SD.
   3031.4+Y    511.0E(γ): From (HI,xnγ):SD.
E(level)E(gamma)Comments
   3578.1+Y    546.7E(γ): From (HI,xnγ):SD.
   4156.9+Y    578.8E(γ): From (HI,xnγ):SD.
   4761.3+Y    604.4E(γ): From (HI,xnγ):SD.
   5385.5+Y    624.2E(γ): From (HI,xnγ):SD.
   6037.7+Y    652.2E(γ): From (HI,xnγ):SD.
   6722.0+Y    684.3E(γ): From (HI,xnγ):SD.
   7439.7+Y    717.7E(γ): From (HI,xnγ):SD.
   8189.5+Y    749.8E(γ): From (HI,xnγ):SD.
   8972.6+Y    783.1E(γ): From (HI,xnγ):SD.
   9791.6+Y    819E(γ): not reported by 1995Ko17 in (HI,xnγ):SD.. From (HI,xnγ):SD.
    333.1+Z    333.1E(γ): From (HI,xnγ):SD.
    705.9+Z    372.8E(γ): From (HI,xnγ):SD.
   1118.0+Z    412.1E(γ): From (HI,xnγ):SD.
   1568.6+Z    450.6E(γ): From (HI,xnγ):SD.
   2056.9+Z    488.3E(γ): From (HI,xnγ):SD.
   2582.4+Z    525.5E(γ): From (HI,xnγ):SD.
   3144.1+Z    561.7E(γ): From (HI,xnγ):SD.
   3741.4+Z    597.3E(γ): From (HI,xnγ):SD.
   4371.5+Z    630.1E(γ): From (HI,xnγ):SD.
   5030.5+Z    659.0E(γ): From (HI,xnγ):SD.
   5711.5+Z    681.0E(γ): From (HI,xnγ):SD.

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