ADOPTED LEVELS, GAMMAS for 88Y

Authors: E.A. Mccutchan and A.A. Sonzogni |  Citation: Nucl. Data Sheets 115, 135 (2014) |  Cutoff date: 1-Nov-2013 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-670 keV 6S(n)= 9351.7 keV 19S(p)= 6707.7 keV 15Q(α)= -6965 keV 3
Reference: 2012WA38

References:
  A  88Zr ε decay  B  88Y IT decay (0.301 MS)
  C  88Y IT decay (13.98 MS)  D  74Ge(18O,p3nγ),76Ge(18O,P5NG)
  E  82Se(11B,5nγ)  F  85Rb(α,nγ)
  G  86Sr(3He,p)  H  87Rb(α,3nγ)
  I  87Sr(d,n)  J  87Sr(p,p’) IAR
  K  87Sr(3He,d),(α,t)  L  88Sr(p,n),(p,nγ)
  M  88Sr(3He,t)  N  89Y(d,t),(3He,α)
  O  89Y(γ,nγ)  P  89Y(n,2nγ)
  Q  89Y(p,d)  R  89Y(p,dγ)
  S  90Zr(d,α),(pol d,α)  T  91Zr(pol p,α)

General Comments:

Levels: Configurations are assigned on the basis of L values determined in (3He,d).

Q-value: S(2n)=21158 14; S(2p)=16129.7 19 (2012Wa38)










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
      0.0ABCDEFGHI KLMNOPQRST 4- 106.626 d 21 
% ε = 100
     
    231.927 25   CDEFGHI KLMNOPQRS  5- 0.8 ns 1     231.929 25 
  100
M1
      0.0
4-
    392.86 9 AB   FGH   LMNOPQRS  1+ 0.301 ms 3 
% IT = 100
   392.87 9 
  100
E3
      0.0
4-
    674.55 4   CDEF H  KLMNOP     8+ 13.98 ms 17 
% IT = 100
   442.62 3 
  100
E3
    231.927
5-
    703.83 14 ?   D      K M        (7)+        
    706.79 13      FG    L N PQRS  2- > 10 ps    313.93 10 
   706.3 5 
  100 6 
    8 4 

[E2]
    392.86
      0.0
1+
4-
    707.4 4              N  Q S  1+,2+,3+        
    715.12 13      F H  K M  P R   (6)+      483.50 20 
  100

    231.927
5-
    766.22 16      FG    LMN PQR   (0)+ 2.4 ps +13-6     373.30 15 
  100
(M1)
    392.86
1+
    843.04 12      FGH  KLMN P RS  (5)+ 1.8 ps +9-3     128.0 1 
   611.0 2 
   842.5 3 
  100 5 
   39 3 
   41 4 
M1
[E1]
[E1]
    715.12
    231.927
      0.0
(6)+
5-
4-
    984.66 13      FG   KLMN P R   (4)+ 0.82 ps 8     141.6 1 
   984.6 4 
   64 5 
  100 6 
(M1)
[E1]
    843.04
      0.0
(5)+
4-
   1088.21 10      FG   KLMN P RS  (4,5,6)-     1088.20 10 
  100

      0.0
4-
   1128.6 6           K MN PQRS  3-,4-,5- < 0.25 ps    896.7 6 
  100

    231.927
5-
   1215 3 ?             N              
   1220.83 20      FG   KLMN  QR   (0,1)+ 0.44 ps 4     828.3 3 
  100

    392.86
1+
   1234.0 20            L             1234 2 
  100

      0.0
4-
   1262.0 20            L      S  (2,3,4)-     1262 2 
  100

      0.0
4-
   1275.09 18      FG    L N  QRS  (1,2)+      508.85 10 
   882.1 23 
  100 6 
   22 3 


    766.22
    392.86
(0)+
1+
   1283.81 15      FGH  KLM  P R   (3,4,5)+ 0.19 ps 2     299.1 1 
  1284.2 3 
  100 6 
   28 6 
(M1)
[E1]
    984.66
      0.0
(4)+
4-
   1315 4              N    S  (4,5,6)-        
   1320.13 10      F    K MN    S  - 0.24 ps 3    1088.2 1 
  100

    231.927
5-
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   1461.6 3     EF H          S  (6-,7-) 1.8 ps +6-4    1229.7 3 
  100

    231.927
5-
   1475 4 ?      G           S  2-,3-,4-        
   1476.86 13    DEF HI K MN       9+ 0.11 ps 3     802.25 16 
  100
(M1+E2)
    674.55
8+
   1559.2 4                  R        793.2 8 
  1166.2 5 
   67 26 
  100 20 


    766.22
    392.86
(0)+
1+
   1570.37 19      F    KLMN  QRS       286.2 8 
   295.1 3 ?
   349.57 8 
   863.0 4 
  1177.3 3 
   26 4 
   14 3 
  100 8 
   27 5 
   40 7 





   1283.81
   1275.09
   1220.83
    707.4
    392.86
(3,4,5)+
(1,2)+
(0,1)+
1+,2+,3+
1+
   1575.50 24      F    K MN    S  (1,2)+      868.7 2 
  100

    706.79
2-
   1595.8 5      FG   KLMN    S  3-,4-     1362 2 ?
  1595.9 5 
  <33
  100


    231.927
      0.0
5-
4-
   1702.39 20      FG   KLMN  QRS  3+,4+ 0.130 ps 15     481 1 ?
   717.85 20 
   862 2 ?
  1309.0 4 
  <25
  100 12 
  <25
   10 6 




   1220.83
    984.66
    843.04
    392.86
(0,1)+
(4)+
(5)+
1+
   1735 4           K MN    S  (-)        
   1761.0 20       G   KLMN    S  (4,5,6)-     1761 2 
  100

      0.0
4-
   1832.0 20       G   KLMN    S  3-,4-     1832 2 
  100

      0.0
4-
   1881 5           K MN       (-)        
   1900 4              N    S         
   1913 5           K MN       -        
   1951 4       G   K MN   R   1+,2+,3+        
   1962.5 4                 QR       1962.5 4 
  100

      0.0
4-
   1971 5           K M    R          
   2056 4       G   K MN  QR   1+,2+,3+        
   2121 8       G          R   4-,5-,6-        
   2136 5           K MN       (-)        
   2210 5       G     MN       1+,2+,3+        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   2252 5           K MN              
   2293 3       G           S  (2-)        
   2305 5 ?          K MN              
   2312.24 9    D                 (9+)     1608.4 1 
  1637.7 1 
  100 13 
   59 5 

(M1+E2)
    703.83
    674.55
(7)+
8+
   2367 10       G                     
   2443.87 9    DE  H             (10+) < 2 ps    131.4 10 
   967.6 3 ?
  1769.3 1 
    2.8 5 
    9 3 
  100 4 
(M1)

(E2)
   2312.24
   1476.86
    674.55
(9+)
9+
8+
   2444 3       G           S  (3-)        
   2529 6       G              (3+)        
   2584 12       G              (2-)        
   2722 9       G              3+,4+,5+        
   2734 3                   S  (3-)        
   2764 3                   S  (2-)        
   2787 3       G           S  (1-)        
   2830 3       G           S  (4-)        
   2944 3                   S  (2-)        
   2957 7       G                     
   2997 3                   S  (-)        
   3025 3                   S  (-)        
   3036.6 7     E                    1559.7
  100

   1476.86
9+
   3052 3       G         Q S  (-)        
   3093 3                   S  (3-)        
   3122 3                   S  (1-)        
   3145 3       G           S  (-)        
   3206.7 3        H                 1729.8 3 
  100

   1476.86
9+
   3208 3                   S  (-)        
   3256.52 9    DE                (10-)      219.9
   812.0 10 
   944.3 1 
  1779.3 2 
 
    1.1 5 
  100 6 
   67 5 




   3036.6
   2443.87
   2312.24
   1476.86

(10+)
(9+)
9+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   3262 5       G                     
   3284.1 6     E                (11+)      840.0
  1807.3
 
 

(E2)
   2443.87
   1476.86
(10+)
9+
   3320 5       G                     
   3366 5       G                     
   3628 5       G         Q           
   3652.14 9    DE  H             (11-) < 2 ps    395.61 3 
  1208.29 6 
   31.9 15 
  100 4 
M1(+E2)
E1(+M2)
   3256.52
   2443.87
(10-)
(10+)
   3726.8 10     E                    1282.9
  100

   2443.87
(10+)
   3777 8       G                     
   3857 11       G                     
   3917.7 10     E                     661.2
  100

   3256.52
(10-)
   3964.24 14    D   H             (12-) < 2 ps    312.1 1 
   680.0
 
 
(M1+E2)

   3652.14
   3284.1
(11-)
(11+)
   4028 8       G                     
   4087 8       G              (0-,1-,2-)        
   4148 5       G                     
   4178.24 17    DE  H             (13-) 2.5 ps 3     214.0 1 
  100
(M1+E2)
   3964.24
(12-)
   4431.5 7     E                     253.4
   467.2
 
 


   4178.24
   3964.24
(13-)
(12-)
   4621.3 13     E                     894.5
  100

   3726.8

   4824.35 20    DE  H             (14-) < 0.3 ps    646.1 1 
  100
(M1)
   4178.24
(13-)
   4878.2 10     E                     914.0
  100

   3964.24
(12-)
   4967.9 13     E                    1241.1
  100

   3726.8

   5264.3 14     E                     296.4
   643.0
 
 


   4967.9
   4621.3


   5558.7 3    DE                (15) 0.10 ps 5     734.4 2 
  100
D(+Q)
   4824.35
(14-)
   5993.4 3    D                 (16)      434.7 2 
  100
D
   5558.7
(15)
   6264.6 3    DE                (14)     2086.8 10 
  100

   4178.24
(13-)
   6537.0 4    D                 (17)      543.6 2 
  100
D
   5993.4
(16)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   6815.4 3    DE                (15)      550.8 2 
  1991.0 2 
   51 6 
  100 8 
D

   6264.6
   4824.35
(14)
(14-)
      7.07E+3 2                 Q    (0+)        
   7112.4 5    D                 (18)      575.4 3 
  100
D
   6537.0
(17)
   7142.6 7    DE                (16)      327.0 10 
  1584.0
 
 
D

   6815.4
   5558.7
(15)
(15)
   7166.9 9     E                    1608.1
  100

   5558.7
(15)
   7419.2 6    D                 (19)      306.8 3 
  100
(D)
   7112.4
(18)
   7597.6 9     E                     430.7
  2038.8?
 
 


   7166.9
   5558.7

(15)
   7847.2 8    DE                (17)      704.6 2 
  100
(D)
   7142.6
(16)
   7903.2 13     E                     305.6
  100

   7597.6

   8337.4 17     E                     434.2
  100

   7903.2

   8627.4 13    DE                (18)      780.2 10 
  100
D
   7847.2
(17)
      8.88E+3 2                 Q    (2+)        
   8880.4 19     E                     543.0
 

   8337.4

   9145.1 11 ?   D                     2032.6 10 ?
  100

   7112.4
(18)
   9454.9 22     E                     574.5
  100

   8880.4

   9618.4 11 ?   D                     3081.3 10 ?
  100

   6537.0
(17)
     10.29E+3 2                 Q    (2+)        
  11418         J           (2+) 20 keV      
  11482         J           20 keV      
  11630         J           (2+) 35 keV      
  11909         J           (4+,5+) 35 keV      
  12082         J           30 keV      
  12446         J           (4+) 70 keV      
  12690         J           (4+,5+) 80 keV      

E(level): From a least-squares fit to Eγ by evaluators for levels connected by γ’s. For those levels observed in transfer reactions, the most precisely measured value is given.

T1/2(level): From DSAM in 85Rb(α,nγ), except where noted.

T1/2(level): LABEL=T1/2 or Γ

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Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
    231.927 5- 0.8 ns 1     231.929 25 M1 0.0191B(M1)(W.u.)=0.0022 3, α=0.0191, α(K)=0.01687 24, α(L)=0.00190 3, α(M)=0.000325 5, α(N)=4.37×10-5 7, α(O)=3.02E-6 5
    392.86 1+ 0.301 ms 3 
% IT = 100
   392.87 9 E3 0.0279B(E3)(W.u.)=5.91 6, α=0.0279, α(K)=0.0239 4, α(L)=0.00331 5, α(M)=0.000569 8, α(N)=7.34E-5 11, α(O)=4.01E-6 6
    674.55 8+ 13.98 ms 17 
% IT = 100
   442.62 3 E3 0.01776B(E3)(W.u.)=0.0558 7, α=0.01776, α(K)=0.01532 22, α(L)=0.00204 3, α(M)=0.000351 5, α(N)=4.56E-5 7, α(O)=2.60E-6 4
    706.79 2- > 10 ps    706.3 5 [E2] B(E2)(W.u.)<1.0
    766.22 (0)+ 2.4 ps +13-6     373.30 15 (M1) 0.00582B(M1)(W.u.)=0.18 +6-6, α=0.00582, α(K)=0.00514 8, α(L)=0.000571 8, α(M)=9.77×10-5 14, α(N)=1.314E-5 19, α(O)=9.15E-7 13
    843.04 (5)+ 1.8 ps +9-3     128.0 1 M1 0.0922B(M1)(W.u.)=3.0 +6-10, α=0.0922, α(K)=0.0810 12, α(L)=0.00929 14, α(M)=0.001592 23, α(N)=0.000213 3, α(O)=1.457×10-5 21
(5)+ 1.8 ps +9-3     611.0 2 [E1] B(E1)(W.u.)=1.8E-4 +4-6
(5)+ 1.8 ps +9-3     842.5 3 [E1] B(E1)(W.u.)=7.1E-5 +14-24
    984.66 (4)+ 0.82 ps 8     141.6 1 (M1) 0.0701B(M1)(W.u.)=3.6 5, α=0.0701, α(K)=0.0617 9, α(L)=0.00706 10, α(M)=0.001208 17, α(N)=0.0001619 23, α(O)=1.108×10-5 16
(4)+ 0.82 ps 8     984.6 4 [E1] B(E1)(W.u.)=0.00026 4
   1283.81 (3,4,5)+ 0.19 ps 2     299.1 1 (M1) 0.01005B(M1)(W.u.)=3.4 5, α=0.01005, α(K)=0.00887 13, α(L)=0.000992 14, α(M)=0.0001696 24, α(N)=2.28×10-5 4, α(O)=1.583E-6 23
(3,4,5)+ 0.19 ps 2    1284.2 3 [E1] B(E1)(W.u.)=0.00018 5
   1476.86 9+ 0.11 ps 3     802.25 16 (M1+E2)-0.23 129.93×10-4B(E2)(W.u.)=33 9, B(M1)(W.u.)=0.37 10, α=9.93E-4 15, α(K)=0.000878 13, α(L)=9.59E-5 15, α(M)=1.637E-5 25, α(N)=2.21E-6 4, α(O)=1.551E-7 23
   2312.24 (9+)     1637.7 1 (M1+E2)+0.34 83.44×10-4α=3.44×10-4, α(K)=0.000198 3, α(L)=2.14E-5 3, α(M)=3.65E-6 6, α(N)=4.92E-7 7, α(O)=3.49E-8 5
   2443.87 (10+) < 2 ps    131.4 10 (M1) 0.0858B(M1)(W.u.)>0.12, α=0.0858 22, α(K)=0.0755 19, α(L)=0.00865 22, α(M)=0.00148 4, α(N)=0.000199 5, α(O)=1.36×10-5 4
(10+) < 2 ps   1769.3 1 (E2) 3.88×10-4B(E2)(W.u.)>0.6, α=3.88E-4, α(K)=0.0001677 24, α(L)=1.81E-5 3, α(M)=3.09E-6 5, α(N)=4.16E-7 6, α(O)=2.93E-8 5
   3284.1 (11+)     1807.3(E2) 3.98×10-4α=3.98×10-4, α(K)=0.0001611 23, α(L)=1.738E-5 25, α(M)=2.96E-6 5, α(N)=3.99E-7 6, α(O)=2.81E-8 4
   3652.14 (11-) < 2 ps    395.61 3 M1(+E2)-0.09 90.00508B(M1)(W.u.)>0.04, α=0.00508 11, α(K)=0.00449 9, α(L)=0.000498 11, α(M)=8.52×10-5 19, α(N)=1.146E-5 24, α(O)=7.98E-7 15
(11-) < 2 ps   1208.29 6 E1(+M2)-0.03 52.37×10-4B(E1)(W.u.)>7.3E-5, α=2.37E-4 5, α(K)=0.000168 5, α(L)=1.80E-5 5, α(M)=3.07E-6 8, α(N)=4.14E-7 11, α(O)=2.91E-8 8
   3964.24 (12-) < 2 ps    312.1 1 (M1+E2)-0.07 40.00909α=0.00909 15, α(K)=0.00802 13, α(L)=0.000896 15, α(M)=0.0001533 25, α(N)=2.06×10-5 4, α(O)=1.429E-6 22
   4178.24 (13-) 2.5 ps 3     214.0 1 (M1+E2)-0.09 40.0239B(E2)(W.u.)=170 20, B(M1)(W.u.)=0.87 10, α=0.0239 5, α(K)=0.0211 5, α(L)=0.00239 6, α(M)=0.000408 10, α(N)=5.48E-5 13, α(O)=3.76E-6 8
   4824.35 (14-) < 0.3 ps    646.1 1 (M1) 1.60×10-3B(M1)(W.u.)>0.27, α=1.60×10-3, α(K)=0.001418 20, α(L)=0.0001554 22, α(M)=2.65E-5 4, α(N)=3.58E-6 5, α(O)=2.51E-7 4
   5558.7 (15) 0.10 ps 5     734.4 2 D(+Q)-0.05 10 

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
      0.04- 106.626 d 21 
% ε = 100
Q=+0.16 3, μ=-0.42 1
δ<r2>89,88=+0.009 fm2 1 (2013An02, 2007Ch07).
E(level): δ<r2>89,88=+0.009 fm2 1 (2013An02, 2007Ch07).
    231.9275- 0.8 ns 1  configuration=π2p1/2 ν1g9/2-1.
    392.861+ 0.301 ms 3 
% IT = 100
configuration=π2p1/2 ν2p1/2-1.
    674.558+ 13.98 ms 17 
% IT = 100
Q=+0.06 6, μ=+4.88 3
δ<r2>=+0.026 fm2 relative to ground state (2007Ch07).
E(level): δ<r2>=+0.026 fm2 relative to ground state (2007Ch07).
    703.83(7)+   configuration=π1g9/2 ν1g9/2-1.
    715.12(6)+   configuration=π1g9/2 ν1g9/2-1.
    766.22(0)+ 2.4 ps +13-6  configuration=π2p1/2 ν2p1/2-1.
    843.04(5)+ 1.8 ps +9-3  configuration=π1g9/2 ν1g9/2-1.
    984.66(4)+ 0.82 ps 8  configuration=π1g9/2 ν1g9/2-1.
   1088.21(4,5,6)-   XREF: γ(1103).
   14752-,3-,4-   Probably different from 1477 level since L(d,α)=3 is in conflict to Jπ=(9)+.
E(level): Probably different from 1477 level since L(d,α)=3 is in conflict to Jπ=(9)+.
   1476.869+ 0.11 ps 3  configuration=π1g9/2 ν1g9/2-1.
   1570.37   XREF: Q(1573).
   1702.393+,4+ 0.130 ps 15  XREF: γ(1712).
   1962.5   XREF: Q(1950).
   21214-,5-,6-   E(level): Probable doublet.
   2136(-)   E(level): Probable doublet.
   2293(2-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   2312.24(9+)   Jπ(level): From angular distribution and linear polarization in 74Ge(18O,3npγ),76Ge(18O,p5nγ). Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   2443.87(10+) < 2 ps T1/2(level): From Recoil-distance Doppler shift in 74Ge(18O,3npγ).
   2444(3-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   2734(3-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   2764(2-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   2787(1-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   2830(4-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
E(level)Jπ(level)T1/2(level)Comments
   2944(2-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   2997(-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3025(-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3052(-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3093(3-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3122(1-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3145(-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3208(-)   Jπ(level): From σ(θ) in 91Zr(pol p,α).
   3284.1(11+)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   3652.14(11-) < 2 ps Jπ(level): From angular distribution and linear polarization in 74Ge(18O,3npγ),76Ge(18O,p5nγ). Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
T1/2(level): From Recoil-distance Doppler shift in 74Ge(18O,3npγ).
   3964.24(12-) < 2 ps Jπ(level): From angular distribution and linear polarization in 74Ge(18O,3npγ),76Ge(18O,p5nγ). Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
T1/2(level): From Recoil-distance Doppler shift in 74Ge(18O,3npγ).
   4178.24(13-) 2.5 ps 3  T1/2(level): From Recoil-distance Doppler shift in 74Ge(18O,3npγ).
   4824.35(14-) < 0.3 ps Jπ(level): From angular distribution and linear polarization in 74Ge(18O,3npγ),76Ge(18O,p5nγ). Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
T1/2(level): From Recoil-distance Doppler shift in 74Ge(18O,3npγ).
   5558.7(15) 0.10 ps 5  Jπ(level): From angular distribution and linear polarization in 74Ge(18O,3npγ),76Ge(18O,p5nγ). Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   5993.4(16)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   6264.6(14)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   6537.0(17)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   6815.4(15)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
      7.07E+3(0+)   IAS: 0.0.
Jπ(level): From 88Sr IAS.
   7112.4(18)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   7142.6(16)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   7419.2(19)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   7847.2(17)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
   8627.4(18)   Jπ(level): Assumption of increasing spin with increasing excitation energy is included in the spin assignment.
      8.88E+3(2+)   IAS: 1836.
Jπ(level): From 88Sr IAS.
E(level)Jπ(level)T1/2(level)Comments
     10.29E+3(2+)   IAS: 3218.
Jπ(level): From 88Sr IAS.
  11418(2+) 20 keV IAS: 4414.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
Jπ(level): From 88Sr IAS.
  11482 20 keV IAS: 4514.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
  11630(2+) 35 keV IAS: 4632.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
Jπ(level): From 88Sr IAS.
  11909(4+,5+) 35 keV IAS: 4873.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
Jπ(level): From 88Sr IAS.
  12082 30 keV IAS: 5109.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
  12446(4+) 70 keV IAS: 5465.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
Jπ(level): From 88Sr IAS.
  12690(4+,5+) 80 keV IAS: 5729.
E(level): IAR energy deduced for S(p)=6707.7 keV 15.
Jπ(level): From 88Sr IAS.

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Additional Gamma Comments:

E(level)E(gamma)Comments
    231.927    231.929E(γ): from 74Ge(18O,p3nγ),76Ge(18O,p5nγ)
M(γ): E1 or M1 from K/(L+M) in 87Rb(α,3nγ), Δπ=no from level scheme.
    392.86    392.87M(γ): from α(K)exp=0.025 10 in 88Zr ε decay.
    674.55    442.62M(γ): E3 or M3 from K/(L+M) in 87Rb(α,3nγ), Δπ=yes from level scheme.
    766.22    373.30M(γ): d from comparison to RUL, Δπ=no from level scheme
    843.04    128.0M(γ): from comparison to RUL
    984.66    141.6M(γ): from comparison to RUL
   1088.21   1088.20E(γ): Multiply placed
   1283.81    299.1M(γ): from comparison to RUL
   1320.13   1088.2E(γ): Multiply placed
   2443.87    131.4M(γ): Dipole from comparison with RUL, Δπ=no from level scheme.
   3284.1   1807.3M(γ): from ADO ratio in 82Se(11B,5nγ).
   3964.24    680.0E(γ): observed only in 82Se(11B,5nγ).
   4178.24    214.0M(γ): other: (E2) from ADO ratio in 82Se(11B,5nγ), however, E2 is not allowed by comparison to RUL.
   4824.35    646.1M(γ): d from angular distribution and linear polarization in 74Ge(18O,3npγ),76Ge(18O,p5nγ); Δπ=no from level scheme

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