ADOPTED LEVELS, GAMMAS for 96Zr

Authors: D. Abriola, A.A. Sonzogni |  Citation: Nucl. Data Sheets 109, 2501 (2008) |  Cutoff date: 1-Apr-2008 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=162 keV 4S(n)= 7854.4 keV 21S(p)= 11522 keV 7Q(α)= -5002 keV 4
Reference: 2012WA38

References:
  A  96Y β- decay (5.34 S)  B  96Y β- decay (9.6 S)
  C  96Zr(n,n’γ)  D  94Zr(t,p)
  E  94Zr(t,pγ)  F  96Zr(p,p’)
  G  96Zr(p,p’γ)  H  96Zr(d,d’), (pol d,d’)
  I  96Zr(t,t’)  J  96Zr(α,α’)
  K  96Zr(12C,12C’)  L  96Zr(16O,16O’)
  M  Coulomb Excitation  N  98Mo(6Li,8B), 96Zr(6Li,6Li’)
  O  100Mo(d,6Li)  P  176Yb(28Si,xγ)
  Q  96Zr(32S,32S’γ) 

General Comments:

Symbols and Abbreviations:

Xijk=B(E0; 0+i |) 0+j)/β(E2; 0+i |) 2+k)

SPU=Single Particle Unit for E0 Transitions=0.5/A(2/3)

Levels: With a ground state Q(2β-)=3347.7 keV 22 (2003Au03), there have been many experimental programs to determine the 2β- decay half life of 96Zr. The adopted value comes from the latest results of the NEMO collaboration. α list of all experimental efforts can be found at www.nndc.bnl.gov/bbdecay.

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

Q-value: Q(2β-)=3347.7 keV 22 (2003Au03).










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     0.0ABCDEFGHIJKLMNOPQ 0+ 2.0×10+19 y 4       
  1581.64 6 ABCDEFGH     NO   0+ 38.0 ns 7    1581.6 4 
 
E0
     0.0
0+
  1750.497 15 ABCDEFGHIJKLMNOPQ 2+ 0.57 ps 7    1750.42 2 
  100
E2
     0.0
0+
  1897.158 16 ABCDEFGHIJKL NOPQ 3- 68 ps 4     146.653 10 
  1897.21 3 
  100 4 
   19.0 4 
(E1)
[E3]
  1750.497
     0.0
2+
0+
  2225.846 17 ABC EFGH      O   2+ < 10 ps    328.75 3 
   475.33 1 
   644.18 6 
  2225.93 4 
   14 1 
   57 1 
   28 2 
  100 5 
(E1(+M2))
M1+E2
E2
E2
  1897.158
  1750.497
  1581.64
     0.0
3-
2+
0+
0+
  2438.746 18   C EFGHI         3+ 0.38 ps +19-10     688.25 1 
  100
M1+E2
  1750.497
2+
  2668.82 4 A C EFGHI         (2+) 0.24 ps +32-10     442.9 3 
   771.60 4 
   918.6 1 
    6.4 16 
   35 5 
  100 5 

(E1+M2)
M1,E2
  2225.846
  1897.158
  1750.497
2+
3-
2+
  2695.18 3 A C EFGH          0+ 28 ps 7     469.33 3 
  1113.53
  2695.17
  100
 
 
[E2]
E0
E0
  2225.846
  1581.64
     0.0
2+
0+
0+
  2750 15               O   4+        
  2781.2 10 ? B                     884.0?
  100

  1897.158
3-
  2857.373 23  BCDEFGHIJ    OP  4+ 0.60 ps +46-18     631.45 4 
   960.9 2 
  1106.88 2 
   21 4 
   15 4 
  100 6 
E2(+M3)
(E1)
E2(+M3)
  2225.846
  1897.158
  1750.497
2+
3-
2+
  2925.55 3 A CDEFGH J        0+ 20 ps 14     230.38
   699.9 3 
  1175.04 3 
  1343.89
  2925.50
 
   40 3 
  100 15 
 
 
E0
(E2)
(E2)
E0
E0
  2695.18
  2225.846
  1750.497
  1581.64
     0.0
0+
2+
2+
0+
0+
  3039 5      F            3-        
  3082.36 3  BCDEFGHIJ     P  4+ > 1.4 ps    224.8
   643.9 2 
   856.6 2 
  1185.19 3 
  1331.8 2 
   10.3
    7.1 8 
    6.3 13 
  100.0 13 
   10.1 13 


[E2]
E1(+M2)

  2857.373
  2438.746
  2225.846
  1897.158
  1750.497
4+
3+
2+
3-
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3119.87 3  BC EFGHIJ     P  5- 0.58 ps +68-21    1222.70 3 
  100
E2+M3
  1897.158
3-
  3150.28 3   C EFGH          3- > 0.54 ps    711.56 3 
  1252.98 7 
  100 4 
   66 7 
(E1+M2)
M1+E2
  2438.746
  1897.158
3+
3-
  3176.43 3  BCDEFGH J        4+ 0.39 ps +59-28    1279.27 2 
  1425.6 2 
  100.0 19 
    4.7 9 
E1(+M2)
[E2]
  1897.158
  1750.497
3-
2+
  3211.84 4 A C EFGHIJ        2+ 0.090 ps +21-14    1314.64 4 
  1461.5 1 
  3211.8 1 
  100 11 
   54 11 
   64 18 



  1897.158
  1750.497
     0.0
3-
2+
0+
  3243.61 7   C               > 0.097 ps    574.74 6 
  1018.3 2 
  100 25 
  100 25 


  2668.82
  2225.846
(2+)
2+
  3248.63 5   C  F H J        2+ 0.19 ps +5-4    1022.8 1 
  3248.56 6 
   22 5 
  100 11 

[E2]
  2225.846
     0.0
2+
0+
  3309.19 9  BC EFGH       P  (4+,5+,6+)      132.9
   189.4
   226.82 8 
   62.5
   25
  100


E2
  3176.43
  3119.87
  3082.36
4+
5-
4+
  3363.30 4   C  FGH               924.55 4 
  100

  2438.746
3+
  3399 11        H          (4+)        
  3427 5      F H J        4+        
  3448.72 8   C  F H          (2+) > 0.66 ps    780.2 2 
  1551.50 8 
  100 19 
   75 19 


  2668.82
  1897.158
(2+)
3-
  3450.16 17 A    F                 781.2 2 
  1225.2 5 
  1699.6 4 
  100 15 
   12 5 
   60 15 



  2668.82
  2225.846
  1750.497
(2+)
2+
2+
  3457 2      F H          (6+)        
  3472.14 7   C  F H J        2+ 0.15 ps +4-2    3472.07 7 
  100
[E2]
     0.0
0+
  3483.44 9  BCDEFGHIJ     P  6+ 25 ps 9     173.7
   363.58 8 
   401.0
   626
    9.4
  100
    1.17
    3.1
(M1)
E1


  3309.19
  3119.87
  3082.36
  2857.373
(4+,5+,6+)
5-
4+
4+
  3509.16 7 A C  FGH          2+ 0.104 ps 21    1283.1 1 
  1612.1 1 
  1759.0 2 
   33 3 
  100 3 
   17 3 



  2225.846
  1897.158
  1750.497
2+
3-
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3556.18 8   C  F HIJ        2+ 0.16 ps 4    3556.11 8 
  100
[E2]
     0.0
0+
  3577.62 5   C  FGH              1138.87 5 
  100

  2438.746
3+
  3586 2      F H          (4-)        
  3602.17 20   C  F H          (1,2+) 0.19 ps +19-7    3602.1 2 
  100

     0.0
0+
  3608 15          J        (5-,6+)        
  3611 5      F                   
  3620.73 7   C    H          (1,2+) 0.005 ps 3    3620.66 7 
  100

     0.0
0+
  3630 20         I         (6+)        
  3676 5      F HI                
  3695 5      F   J               
  3700.68 10 A C    H          (1,2+) 0.006 ps 3    3700.6 1 
  100

     0.0
0+
  3732     F H                 
  3749.38 10  BC EF HIJ        4+ > 0.26 ps   1852.2 1 
  100

  1897.158
3-
  3761 8    D    I         2+        
  3772.2 4  B  EF H       P  6+      289.0
   462.7
   652.1
   690.0
   914.8
    1.49
    0.75
    2.5
    1.94
  100
(M1(+E2))

(E1)

(E2)
  3483.44
  3309.19
  3119.87
  3082.36
  2857.373
6+
(4+,5+,6+)
5-
4+
4+
  3833     F H          4+        
  3857.48 20   C  F H          2+ 0.055 ps +21-14    3857.4 2 
  100
[E2]
     0.0
0+
  3865.16 10   C                   1426.4 1 
  100

  2438.746
3+
  3895 5      F            4+        
  3924.6 10  B   F HIJ             804.7
  100

  3119.87
5-
  3947.19 10   C  F H          (1,2+) 0.010 ps +6-4    3947.1 1 
  100

     0.0
0+
  3997     F H          (2+)        
  4014.07 20   C EFGH J        5-      894.2 2 
  100

  3119.87
5-
  4024.5 8 ?A                     2274.0 8 ?
  100

  1750.497
2+
  4034 8    D F H          3-        
  4037.89 20   C               (1,2+) 0.007 ps +6-5    4037.8 2 
  100

     0.0
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  4038 5      F HI                
  4055 5      F            2+        
  4068 2      F H          (1-)        
  4126.3 10  B   F HI         (4+)     1006.4
  100

  3119.87
5-
  4132.4 3   C    H          (1,2+) < 0.017 ps   4132.3 3 
  100

     0.0
0+
  4139 5      F   J        3-        
  4160        I         5-        
  4205 5      F H          4+        
  4234.7 5  B  EF H J     P  7-      751.5
  1114.6
   40
  100


  3483.44
  3119.87
6+
5-
  4258.0 4 A  D   H          3-     1332.4 4 
  100

  2925.55
0+
  4261.3 5  B                (5+,6+)      489.0
   778.0
  1179.0
   85
  100
   23



  3772.2
  3483.44
  3082.36
6+
6+
4+
  4323 8        HI         (3-)        
  4341 7    D F H J        2+        
  4389.5 5  B  E          P  8+ 127 ps 10     154.7
   617.2
   906.2
    0.8
  100
   36.8
[E1]
E2
E2
  4234.7
  3772.2
  3483.44
7-
6+
6+
  4390        I         (4+)        
  4430 5      F H J        6+        
  4470        I         5-        
  4479 5      F            4+        
  4512.5 7 A      H          (1,2+)     4512.4 7 
  100

     0.0
0+
  4520        I         (4+)        
  4531 6        H J        3-        
  4570.1 8  B             P  (5-,6+)      335.4
  1712.7?
   60
  100


  4234.7
  2857.373
7-
4+
  4580        I         4+        
  4640 8        H J               
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  4689.7 11  B             P       455.0
  100

  4234.7
7-
  4698 5      F            2+        
  4737.5 8 A                 (1,2+)     4737.4 8 
  100

     0.0
0+
  4751.5 7  B      I         (7,8+)      979.2
  100

  3772.2
6+
  4757.2 8  B                     522.6
  100

  4234.7
7-
  4807 5      F  IJ        3-        
  4837.75 20 A    F            (1-,2+)     1625.8 4 
  1912.1 4 
  2940.0 4 
  3086.9 7 
  3257.4 7 
  4839.2 8 
   99 30 
   35 8 
   59 15 
   45 7 
   36 8 
  100 19 






  3211.84
  2925.55
  1897.158
  1750.497
  1581.64
     0.0
2+
0+
3-
2+
0+
0+
  4845.4 14  B      IJ             719.1
  100

  4126.3
(4+)
  4881.9 10 ?A                     1956.3 10 ?
  100

  2925.55
0+
  4895.2 7 A    F            (1,2+)     4895.1 7 
  100

     0.0
0+
  4906.9 8  B             P  (10+)      517.4
  100

  4389.5
8+
  4914.1 10 ?A                 (1,2+)     4914.0 10 ?
  100

     0.0
0+
  4929.1 9 A    F   J        (1,2+)     4929.0 9 
  100

     0.0
0+
  4979 5      F                   
  5014 5      F                   
  5065 5      F                   
  5066.2 6  B                (7+,8+)      314.7
   676.7
   804.9
  1582.9
   38.9
   22.2
   77.8
  100




  4751.5
  4389.5
  4261.3
  3483.44
(7,8+)
8+
(5+,6+)
6+
  5103 15          J               
  5117.8 11  B   F                 728.3
  100

  4389.5
8+
  5196.9 10 ?A                     3615.2 10 ?
  100

  1581.64
0+
  5228.5 6 A                 (1,2+)     5228.3 6 
  100

     0.0
0+
  5235.3 8  B                (7,8+)      845.8
  1463.0
  100
   71


  4389.5
  3772.2
8+
6+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  5245 5      F                   
  5272.0 6 A                 (1,2+)     5271.8 6 
  100

     0.0
0+
  5312.5 7 A                     3730.8 7 
  100

  1581.64
0+
  5329 5      F   J        4+        
  5371 15          J        4+        
  5384 5      F                   
  5408.3 7 A                     3826.6 7 
  100

  1581.64
0+
  5443.1 5 A    F            (1,2+)     3861.7 6 
  5442.5 7 
  100 11 
   36 5 


  1581.64
     0.0
0+
0+
  5483.8 11                P  (10+)     1094.3
  100

  4389.5
8+
  5502.2 8 ?A                 (1,2+)     5502.0 8 ?
  100

     0.0
0+
  5507.6 5  B                (7+,8+)      441.4
   600.7
   750.5
   756.1
  1118.1
  1246.3
  1735.3
   27
   33
   33
   73
  100
   60
   80







  5066.2
  4906.9
  4757.2
  4751.5
  4389.5
  4261.3
  3772.2
(7+,8+)
(10+)

(7,8+)
8+
(5+,6+)
6+
  5538.9 6 A                 (1,2+)     5538.7 6 
  100

     0.0
0+
  5551.6 6 A                 (1,2+)     5551.4 6 
  100

     0.0
0+
  5573.9 6 A                 (1,2+)     3992.2 8 
  5573.7 8 
   73
  100


  1581.64
     0.0
0+
0+
  5601.5 6 A                 (1,2+)     5601.3 6 
  100

     0.0
0+
  5625.9 10 A                     4044.2 10 
  100

  1581.64
0+
  5628.9 11  B                    1239.4
  100

  4389.5
8+
  5652.9 10 ?A                     4071.2 10 ?
  100

  1581.64
0+
  5701.3 6 A                     4119.6 6 
  100

  1581.64
0+
  5719.1 8 A                 (1,2+)     5718.9 8 
  100

     0.0
0+
  5737.7 13                P  (11+)      830.8
  100

  4906.9
(10+)
  5741.5 10 ?A                     4159.8 10 ?
  100

  1581.64
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  5783.1 8 A                 (1,2+)     5782.9 8 
  100

     0.0
0+
  5804.5 7 A                 (1,2+)     5804.3 7 
  100

     0.0
0+
  5838.3 10 A                 (1,2+)     5838.1 10 
  100

     0.0
0+
  5847.5 6 A                 (1,2+)     5847.3 6 
  100

     0.0
0+
  5899.8 11  B                    1510.3
  100

  4389.5
8+
  5914.7 6 A                 (1,2+)     4162.9 10 
  4334.2 15 ?
  5914.9 8 
  100 19 
   19 5 
   97 17 



  1750.497
  1581.64
     0.0
2+
0+
0+
  5934.6 6 A                 (1,2+)     5934.4 6 
  100

     0.0
0+
  6143.6 8 ?A                 (1,2+)     4562.7 10 ?
  6141.6 14 
    6E+1 3 
    1.0E+2 3 


  1581.64
     0.0
0+
0+
  6231.6 11 A                 (1,2+)     6231.4 11 
  100

     0.0
0+
  6245.7 16                P  (12+)      508.0
  100

  5737.7
(11+)
  6460.5 19                P  (13+)      214.8
  100

  6245.7
(12+)
  6821.3 22                P  (14+)      360.8
  100

  6460.5
(13+)

E(level): From a least-squares fit to the Eγ assuming ΔEγ=1 keV when unknown.

E(γ): From the following data sets: 96Y β- decay (5.43 s),(9.6 s), (n,n’γ), (p,p’γ)

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Band Transitions:

E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - 4p-4h INTRUDER band
  1581.64 6  0+ 38.0 ns 7       
  2225.846 17  2+ < 10 ps    328.75 3 
   475.33 1 
   644.18 6 
  2225.93 4 
   14 1 
   57 1 
   28 2 
  100 5 
(E1(+M2))
M1+E2
E2
E2
  1897.158
  1750.497
  1581.64
     0.0
3-
2+
0+
0+
  2857.373 23  4+ 0.60 ps +46-18     631.45 4 
   960.9 2 
  1106.88 2 
   21 4 
   15 4 
  100 6 
E2(+M3)
(E1)
E2(+M3)
  2225.846
  1897.158
  1750.497
2+
3-
2+
  3483.44 9  6+ 25 ps 9     173.7
   363.58 8 
   401.0
   626
    9.4
  100
    1.17
    3.1
(M1)
E1


  3309.19
  3119.87
  3082.36
  2857.373
(4+,5+,6+)
5-
4+
4+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - Negative parity sequence
  1897.158 16  3- 68 ps 4       
  3119.87 3  5- 0.58 ps +68-21    1222.70 3 
  100
E2+M3
  1897.158
3-
  4234.7 5  7-      751.5
  1114.6
   40
  100


  3483.44
  3119.87
6+
5-

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  1750.497 2+ 0.57 ps 7    1750.42 2 E2 0.000398B(E2)(W.u.)=2.3 3, α=0.000398 6, α(K)=0.000184 3, α(L)=2.01E-5 3, α(M)=3.48E-6 5, α(N)=4.94E-7 7, α(O)=3.52E-8 5, α(N+)=0.000190 3
  1897.158 3- 68 ps 4     146.653 10 (E1) 0.0371B(E1)(W.u.)=0.00123 10, α=0.0371, α(K)=0.0327 5, α(L)=0.00366 6, α(M)=0.000632 9, α(N)=8.84E-5 13, α(O)=5.80E-6 9, α(N+)=9.42E-5 14
3- 68 ps 4    1897.21 3 [E3] 0.000440B(E3)(W.u.)=57 4, α=0.000440 7, α(K)=0.000268 4, α(L)=2.97E-5 5, α(M)=5.14E-6 8, α(N)=7.31E-7 11, α(O)=5.17E-8 8, α(N+)=0.0001367 20
  2225.846 2+ < 10 ps    328.75 3 (E1(+M2))-0.02 50.00380B(E1)(W.u.)>6.4E-5, α=0.00380 16, α(K)=0.00336 14, α(L)=0.000371 17, α(M)=6.4E-5 3, α(N)=9.1E-6 5, α(O)=6.2E-7 3, α(N+)=9.7E-6 5
2+ < 10 ps    475.33 1 M1+E2-0.09 +1-20.00361B(E2)(W.u.)>0.16, B(M1)(W.u.)>0.0058, α=0.00361 5, α(K)=0.00318 5, α(L)=0.000355 5, α(M)=6.16E-5 9, α(N)=8.76E-6 13, α(O)=6.19E-7 9, α(N+)=9.38E-6 14
2+ < 10 ps    644.18 6 E2 0.00203B(E2)(W.u.)>2.7, α=0.00203 3, α(K)=0.001783 25, α(L)=0.000204 3, α(M)=3.53E-5 5, α(N)=4.98E-6 7, α(O)=3.37E-7 5, α(N+)=5.31E-6 8
2+ < 10 ps   2225.93 4 E2 0.000550B(E2)(W.u.)>0.020, α=0.000550 8, α(K)=0.0001185 17, α(L)=1.283E-5 18, α(M)=2.22E-6 4, α(O)=2.26E-8 4, α(N+)=0.000417 6
  2438.746 3+ 0.38 ps +19-10     688.25 1 M1+E2+0.02 +2-10.001529B(E2)(W.u.)=0.1 +3-1, B(M1)(W.u.)=0.18 +5-9, α=0.001529 22, α(K)=0.001350 19, α(L)=0.0001491 21, α(M)=2.59E-5 4, α(O)=2.62E-7 4, α(N+)=3.94E-6 6
  2668.82 (2+) 0.24 ps +32-10     771.60 4 (E1+M2)+0.08 +6-70.00050B(E1)(W.u.)=(0.0007 +4-7), B(M2)(W.u.)=(4.×101 +6-4), α=0.00050 4, α(K)=0.00044 3, α(L)=4.8E-5 4, α(M)=8.4E-6 6, α(N)=1.19E-6 9, α(O)=8.4E-8 6, α(N+)=1.28E-6 10
(2+) 0.24 ps +32-10     918.6 1 M1,E2 0.000813B(E2)(W.u.)=5.×101 7, B(M1)(W.u.)=0.04 6, α=0.000813 13, α(K)=0.000718 11, α(L)=7.95E-5 16, α(M)=1.38E-5 3, α(N)=1.96E-6 4, α(O)=1.377E-7 20, α(N+)=2.09E-6 4
  2695.18 0+ 28 ps 7     469.33 3 [E2] 0.00507B(E2)(W.u.)=34 9, α=0.00507 8, α(K)=0.00445 7, α(L)=0.000522 8, α(M)=9.06E-5 13, α(N)=1.269E-5 18, α(O)=8.30E-7 12, α(N+)=1.352E-5 19
  2857.373 4+ 0.60 ps +46-18     631.45 4 E2(+M3)-0.02 80.00215B(E2)(W.u.)=(56 +20-44), α=0.00215 12, α(K)=0.00189 11, α(L)=0.000216 13, α(M)=3.75E-5 22, α(N)=5.3E-6 4, α(O)=3.56E-7 21, α(N+)=5.6E-6 4
4+ 0.60 ps +46-18     960.9 2 (E1) 0.000311B(E1)(W.u.)=7.E-5 +3-6, α=0.000311 5, α(K)=0.000275 4, α(L)=2.99E-5 5, α(M)=5.18E-6 8, α(N)=7.36E-7 11, α(O)=5.22E-8 8, α(N+)=7.88E-7 11
4+ 0.60 ps +46-18    1106.88 2 E2(+M3)-0.03 30.000536B(E2)(W.u.)=(16 +5-13), B(M3)(W.u.)=(8.×104 +17-8), α=0.000536 10, α(K)=0.000472 8, α(L)=5.23E-5 9, α(M)=9.06E-6 16, α(O)=9.01E-8 16, α(N+)=2.18E-6 4
  2925.55 0+ 20 ps 14     699.9 3 (E2) 0.001621B(E2)(W.u.)=1.8 14, α=0.001621 23, α(K)=0.001427 20, α(L)=0.0001620 23, α(M)=2.81E-5 4, α(O)=2.70E-7 4, α(N+)=4.24E-6 6
0+ 20 ps 14    1175.04 3 (E2) 0.000473B(E2)(W.u.)=0.3 3, α=0.000473 7, α(K)=0.000413 6, α(L)=4.56E-5 7, α(M)=7.90E-6 11, α(N)=1.121E-6 16, α(O)=7.88E-8 11, α(N+)=6.07E-6 9
  3082.36 4+ > 1.4 ps    856.6 2 [E2] 0.000969B(E2)(W.u.)<1.6, α=0.000969 14, α(K)=0.000854 12, α(L)=9.57E-5 14, α(M)=1.660E-5 24, α(O)=1.624E-7 23, α(N+)=2.51E-6 4
4+ > 1.4 ps   1185.19 3 E1(+M2)+0.02 30.000244B(E1)(W.u.)<0.00010, B(M2)(W.u.)<0.54, α=0.000244 4, α(K)=0.000186 3, α(L)=2.02E-5 4, α(M)=3.49E-6 6, α(N)=4.96E-7 9, α(O)=3.53E-8 6, α(N+)=3.44E-5 5
  3119.87 5- 0.58 ps +68-21    1222.70 3 E2+M3-0.05 30.000444B(E2)(W.u.)=14 +5-14, B(M3)(W.u.)=1.6×105 +20-16, α=0.000444 9, α(K)=0.000383 8, α(L)=4.22E-5 9, α(M)=7.31E-6 15, α(N)=1.037E-6 21, α(O)=7.31E-8 15, α(N+)=1.245E-5 18
  3150.28 3- > 0.54 ps    711.56 3 (E1+M2)-0.07 40.000593B(E1)(W.u.)<0.00100, B(M2)(W.u.)<94, α=0.000593 25, α(K)=0.000524 22, α(L)=5.7E-5 3, α(M)=9.9E-6 5, α(N)=1.41E-6 7, α(O)=9.9E-8 5, α(N+)=1.51E-6 7
3- > 0.54 ps   1252.98 7 M1+E2+1.7 30.000427B(E2)(W.u.)<4.2, B(M1)(W.u.)<0.0027, α=0.000427 6, α(K)=0.000363 6, α(L)=3.98E-5 6, α(M)=6.90E-6 10, α(N)=9.81E-7 14, α(O)=6.95E-8 10, α(N+)=1.70E-5 4
  3176.43 4+ 0.39 ps +59-28    1279.27 2 E1(+M2)-0.03 30.000277B(E1)(W.u.)=(0.0004 +3-4), B(M2)(W.u.)=(1.0 +21-10), α=0.000277 5, α(K)=0.000163 3, α(L)=1.76E-5 3, α(M)=3.05E-6 6, α(N)=4.34E-7 8, α(O)=3.09E-8 6, α(N+)=9.37E-5 14
4+ 0.39 ps +59-28    1425.6 2 [E2] 0.000371B(E2)(W.u.)=0.4 +4-4, α=0.000371 6, α(K)=0.000276 4, α(L)=3.02E-5 5, α(M)=5.23E-6 8, α(N)=7.43E-7 11, α(O)=5.27E-8 8, α(N+)=5.96E-5 9
  3248.63 2+ 0.19 ps +5-4    3248.56 6 [E2] 0.000950B(E2)(W.u.)=0.26 +7-8, α=0.000950 14, α(K)=6.22E-5 9, α(L)=6.70E-6 10, α(M)=1.159E-6 17, α(O)=1.188E-8 17, α(N+)=0.000880 13
  3309.19 (4+,5+,6+)      226.82 8 E2 0.0573α=0.0573, α(K)=0.0496 7, α(L)=0.00646 9, α(M)=0.001124 16, α(N)=0.0001541 22, α(O)=8.79×10-6 13, α(N+)=0.0001629 23
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  3472.14 2+ 0.15 ps +4-2    3472.07 7 [E2] 0.001033B(E2)(W.u.)=0.29 +4-8, α=0.001033 15, α(K)=5.59E-5 8, α(L)=6.01E-6 9, α(M)=1.040E-6 15, α(O)=1.066E-8 15, α(N+)=0.000971 14
  3483.44 6+ 25 ps 9     173.7(M1) 0.0452B(M1)(W.u.)=0.014 5, α=0.0452, α(K)=0.0397 6, α(L)=0.00456 7, α(M)=0.000793 12, α(N)=0.0001124 16, α(O)=7.81×10-6 11, α(N+)=0.0001202 17
6+ 25 ps 9     363.58 8 E1 0.00290B(E1)(W.u.)=0.00023 9, α=0.00290 4, α(K)=0.00256 4, α(L)=0.000283 4, α(M)=4.89E-5 7, α(N)=6.92E-6 10, α(O)=4.77E-7 7, α(N+)=7.39E-6 11
  3556.18 2+ 0.16 ps 4    3556.11 8 [E2] 0.001064B(E2)(W.u.)=0.24 6, α=0.001064 15, α(K)=5.38E-5 8, α(L)=5.78E-6 8, α(M)=1.000E-6 14, α(O)=1.026E-8 15, α(N+)=0.001004 14
  3772.2 6+      289.0(M1(+E2))-0.4 50.014α=0.014 4, α(K)=0.012 4, α(L)=0.0014 5, α(M)=0.00024 8, α(N)=3.5×10-5 11, α(O)=2.3E-6 6, α(N+)=3.7E-5 12
6+      652.1(E1) 0.000698α=0.000698 10, α(K)=0.000617 9, α(L)=6.75×10-5 10, α(M)=1.169E-5 17, α(O)=1.165E-7 17, α(N+)=1.775E-6 25
6+      914.8(E2) 0.000827α=0.000827 12, α(K)=0.000729 11, α(L)=8.14×10-5 12, α(M)=1.412E-5 20, α(O)=1.388E-7 20, α(N+)=2.14E-6 3
  3857.48 2+ 0.055 ps +21-14    3857.4 2 [E2] 0.001166B(E2)(W.u.)=0.46 +12-18, α=0.001166 17, α(K)=4.73E-5 7, α(L)=5.08E-6 8, α(M)=8.78E-7 13, α(N)=1.252E-7 18, α(O)=9.02E-9 13, α(N+)=0.001113 16
  4389.5 8+ 127 ps 10     154.7[E1] 0.0317B(E1)(W.u.)=4.0E-6 4, α=0.0317, α(K)=0.0280 4, α(L)=0.00313 5, α(M)=0.000540 8, α(N)=7.57E-5 11, α(O)=4.99E-6 7, α(N+)=8.07E-5 12
8+ 127 ps 10     617.2E2 0.00228B(E2)(W.u.)=1.38 11, α=0.00228 4, α(K)=0.00201 3, α(L)=0.000230 4, α(M)=3.99E-5 6, α(N)=5.61E-6 8, α(O)=3.78E-7 6, α(N+)=5.99E-6 9
8+ 127 ps 10     906.2E2 0.000846B(E2)(W.u.)=0.075 6, α=0.000846 12, α(K)=0.000746 11, α(L)=8.33E-5 12, α(M)=1.445E-5 21, α(O)=1.419E-7 20, α(N+)=2.19E-6 3

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     0.00+ 2.0×10+19 y 4  <r2>1/2(charge)=4.3498 11 (2004An14).
  1581.640+ 38.0 ns 7  E(level): 4p-4h INTRUDER band.
  1897.1583- 68 ps 4  μ=+2.9 5 (2003Ku11), G=+0.98 15
E(level): Negative parity sequence.
  2225.8462+ < 10 ps E(level): 4p-4h INTRUDER band.
  2438.7463+ 0.38 ps +19-10  J=3 from γ(θ) in (n,n’γ); π=+ from M1 to 2+.
  2857.3734+ 0.60 ps +46-18  E(level): From 96Y β- decay (5.34 s). 4p-4h INTRUDER band.
T1/2(level): From (n,n’γ).
  3082.364+ > 1.4 ps E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3119.875- 0.58 ps +68-21  E(level): From 96Y β- decay (5.34 s). Negative parity sequence.
T1/2(level): From (n,n’γ).
  3150.283- > 0.54 ps J=3 or 5 from γ(θ) in (n,n’γ); σ(n,n’) excludes J=5; π=- from M1 to 3-.
E(level): J=3 or 5 from γ(θ) in (n,n’γ); σ(n,n’) excludes J=5; π=- from M1 to 3-. From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3176.434+ 0.39 ps +59-28  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3211.842+ 0.090 ps +21-14  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3243.61 > 0.097 ps E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3248.632+ 0.19 ps +5-4  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3448.72(2+) > 0.66 ps E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3472.142+ 0.15 ps +4-2  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3483.446+ 25 ps 9  E(level): 4p-4h INTRUDER band.
  3509.162+ 0.104 ps 21  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3556.182+ 0.16 ps 4  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3602.17(1,2+) 0.19 ps +19-7  E(level): From 96Y β- decay (9.6 s). From 96Y β- decay (5.34 s).
Jπ(level): γ to 0+.
T1/2(level): From (n,n’γ).
  3620.73(1,2+) 0.005 ps 3  E(level): From 96Y β- decay (9.6 s). From 96Y β- decay (5.34 s).
Jπ(level): γ to 0+.
T1/2(level): From (n,n’γ).
  3700.68(1,2+) 0.006 ps 3  E(level): From 96Y β- decay (9.6 s). From 96Y β- decay (5.34 s).
Jπ(level): γ to 0+.
T1/2(level): From (n,n’γ).
  3749.384+ > 0.26 ps E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3857.482+ 0.055 ps +21-14  E(level): From 96Y β- decay (5.34 s).
T1/2(level): From (n,n’γ).
  3947.19(1,2+) 0.010 ps +6-4  E(level): From 96Y β- decay (9.6 s). From 96Y β- decay (5.34 s).
Jπ(level): γ to 0+.
T1/2(level): From (n,n’γ).
  4037.89(1,2+) 0.007 ps +6-5  E(level): From 96Y β- decay (9.6 s). From 96Y β- decay (5.34 s).
Jπ(level): γ to 0+.
T1/2(level): From (n,n’γ).
E(level)Jπ(level)T1/2(level)Comments
  4132.4(1,2+) < 0.017 ps E(level): From 96Y β- decay (9.6 s). From 96Y β- decay (5.34 s).
Jπ(level): γ to 0+.
T1/2(level): From (n,n’γ).
  4234.77-   E(level): Negative parity sequence.
  4261.3(5+,6+)   γ’s to 4+ and 6+, γ from (7+,8+), E=5066.2.
  4512.5(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  4737.5(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  4895.2(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  4914.1(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  4929.1(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5228.5(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5272.0(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5443.1(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5502.2(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5538.9(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5551.6(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5573.9(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5601.5(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5719.1(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5783.1(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5804.5(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5838.3(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5847.5(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5914.7(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  5934.6(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  6143.6(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.
  6231.6(1,2+)   E(level): From 96Y β- decay (9.6 s).
Jπ(level): γ to 0+.

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Additional Gamma Comments:

E(level)E(gamma)Comments
  1581.64  1581.6E(γ): from 96Y β- decay (5.34 s)
M(γ): ce data and no γ observed (1988Ma01,1990Ma03,1986HeZP, \1988HeZM)
  1750.497  1750.42M(γ): stretched Q from γγ(θ) in β-decay; E2 from RUL
  1897.158   146.653E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
M(γ): stretched d from γγ(θ) in β- decay and ΔJπ
  1897.21E(γ): From 96Zr(n,n’γ)
I(γ): From 96Zr(n,n’γ)
  2225.846   328.75I(γ): From (n,n’γ); Iγ(329:475:644:2226)=16.1 6:58.4 22:21.9 7:100 6- decay 5.34 s) 9.5:56:27:100 (β- decay 9.6 s), and 7.6 6:44.4 12:22.8 8:100 4 (p,p’γ)
M(γ): from γ(θ) in (n,n’γ) and ΔJπ
   475.33I(γ): From (n,n’γ); Iγ(329:475:644:2226)=16.1 6:58.4 22:21.9 7:100 6- decay 5.34 s) 9.5:56:27:100 (β- decay 9.6 s), and 7.6 6:44.4 12:22.8 8:100 4 (p,p’γ)
M(γ): from γ(θ) in (n,n’γ) and ce data in (t,pγ)
   644.18I(γ): From (n,n’γ); Iγ(329:475:644:2226)=16.1 6:58.4 22:21.9 7:100 6- decay 5.34 s) 9.5:56:27:100 (β- decay 9.6 s), and 7.6 6:44.4 12:22.8 8:100 4 (p,p’γ)
M(γ): Q from γ(θ) in (n,n’γ); E2 from RUL
  2225.93I(γ): From (n,n’γ); Iγ(329:475:644:2226)=16.1 6:58.4 22:21.9 7:100 6- decay 5.34 s) 9.5:56:27:100 (β- decay 9.6 s), and 7.6 6:44.4 12:22.8 8:100 4 (p,p’γ)
M(γ): Q from γ(θ) in (n,n’γ); E2 from RUL
  2438.746   688.25M(γ): from (n,n’γ)
  2668.82   442.9I(γ): From (n,n’γ); Iγ(443:772:919)=-:20 3:100 6- decay 5.34 s), -:23.0 16:100 3 (p,p’γ)
   771.60I(γ): From (n,n’γ); Iγ(443:772:919)=-:20 3:100 6- decay 5.34 s), -:23.0 16:100 3 (p,p’γ)
M(γ): from γ(θ) in (n,n’γ) and ΔJπ
   918.6I(γ): From (n,n’γ); Iγ(443:772:919)=-:20 3:100 6- decay 5.34 s), -:23.0 16:100 3 (p,p’γ)
M(γ): From ce data in (t,pγ)
  2695.18  1113.53E(γ): From difference in energies of initial and final levels
M(γ): ce data and no γ observed (1988Ma01,1990Ma03,1986HeZP, \1988HeZM)
  2695.17E(γ): From difference in energies of initial and final levels
M(γ): ce data and no γ observed (1988Ma01,1990Ma03,1986HeZP, \1988HeZM)
  2857.373   631.45E(γ): From 96Y β- decay (9.6 s)
I(γ): From (n,n’γ); Iγ(632:962:1107)=16:8:100 (β- decay 9.6 s), 16:-:100 (t,pγ), 11.5 22:-:100 4 (p,p’γ). From 96Y β- decay (9.6 s)
M(γ): From γ(θ) in (n,n’γ) and RUL
   960.9E(γ): From 96Y β- decay (9.6 s)
I(γ): From (n,n’γ); Iγ(632:962:1107)=16:8:100 (β- decay 9.6 s), 16:-:100 (t,pγ), 11.5 22:-:100 4 (p,p’γ). From 96Y β- decay (9.6 s)
M(γ): stretched d from γγ(θ) in β- decay and ΔJπ
  1106.88E(γ): From 96Y β- decay (9.6 s)
I(γ): From (n,n’γ); Iγ(632:962:1107)=16:8:100 (β- decay 9.6 s), 16:-:100 (t,pγ), 11.5 22:-:100 4 (p,p’γ). From 96Y β- decay (9.6 s)
M(γ): From γ(θ) in (n,n’γ) and RUL
  2925.55   230.38E(γ): From difference in energies of initial and final levels
M(γ): ce data and no γ observed (1988Ma01,1990Ma03,1986HeZP, \1988HeZM)
   699.9E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
M(γ): ce data in (t,pγ) give M1,E2; ΔJ rules out M1
  1175.04M(γ): ce data in (t,pγ) give M1/E2; ΔJ rules out M1
  1343.89E(γ): From difference in energies of initial and final levels
M(γ): ce data and no γ observed (1988Ma01,1990Ma03,1986HeZP, \1988HeZM)
  2925.50E(γ): From difference in energies of initial and final levels
M(γ): ce data and no γ observed (1988Ma01,1990Ma03,1986HeZP, \1988HeZM)
  3082.36   224.8E(γ): observed only in 96Y β- Decay (9.6 s)
   643.9E(γ): From 96Zr(p,p’γ)
I(γ): From 96Zr(p,p’γ)
   856.6E(γ): From 96Zr(p,p’γ)
I(γ): From 96Zr(p,p’γ)
  1185.19E(γ): From 96Zr(n,n’γ)
I(γ): From 96Zr(n,n’γ)
M(γ): From ce data in (t,pγ)
  1331.8E(γ): From 96Zr(p,p’γ)
I(γ): From 96Zr(p,p’γ)
E(level)E(gamma)Comments
  3119.87  1222.70M(γ): From ce data in (t,pγ)
  3150.28   711.56E(γ): from (n,n’γ)
I(γ): from (p,p’γ)
M(γ): from γ(θ) in (n,n’γ) and ΔJπ
  1252.98E(γ): from (n,n’γ)
I(γ): from (p,p’γ)
M(γ): D+Q from γ(θ) in (n,n’γ); M1+E2 from RUL
  3176.43  1279.27E(γ): From 96Zr(p,p’γ)
I(γ): From 96Zr(p,p’γ)
M(γ): From ce data in (t,pγ)
  1425.6E(γ): From 96Zr(p,p’γ)
I(γ): From 96Zr(p,p’γ)
  3309.19   226.82M(γ): From ce data in (t,pγ)
  3450.16   781.2E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  1225.2E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  1699.6E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  3483.44   173.7E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): this γ is designated as E1 (1987StZX,1988StZS) without giving experimental details for this assignment. If this γ is a dipole, it should be M1.
   363.58E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): From ce data in (t,pγ)
   401.0E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
   626E(γ): From 96Y β- decay (9.6 s)
I(γ): from 1987St12 Iin 96Y β- decay (9.6 s); 626γ is not shown in 1987StZX. From 96Y β- decay (9.6 s)
  3700.68  3700.6E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  3772.2   289.0E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): from γ(θ) and ΔJπ
   462.7E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
   652.1E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): stretched d from γγ(θ) in β- decay and ΔJπ
   690.0E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
   914.8E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): stretched Q from γγ(θ) in β-decay and ΔJπ
  3924.6   804.7E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
  4126.3  1006.4E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
  4234.7   751.5E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
  1114.6E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
  4258.0  1332.4E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  4389.5   154.7E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
   617.2E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): stretched Q from γγ(θ) in β- decay; E2 from RUL
   906.2E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
M(γ): stretched Q from γγ(θ) in β- decay; E2 from RUL
E(level)E(gamma)Comments
  4570.1   335.4E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
  4837.75  1625.8E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  1912.1E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  2940.0E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  3086.9E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  3257.4E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  4839.2E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  4845.4   719.1E(γ): From 96Y β- decay (9.6 s)
I(γ): From 96Y β- decay (9.6 s)
  4895.2  4895.1E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  4929.1  4929.0E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  5443.1  3861.7E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)
  5442.5E(γ): From 96Y β- decay (5.34 s)
I(γ): From 96Y β- decay (5.34 s)

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