ADOPTED LEVELS, GAMMAS for 22Ne

Author: M. Shamsuzzoha Basunia |  Citation: Nucl. Data Sheets 127, 69(2015) |  Cutoff date: 1-Apr-2015 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-2843.20 keV 17S(n)= 10364.26 keV 4S(p)= 15266.1 keV 18Q(α)= -9666.81 keV 2
Reference: 2012WA38

References:
  A  22F β- decay  B  22Na ε decay
  C  4He(19F,pγ)  D  11B(13C,d)
  E  12C(18O,8Be),14C(18O,10Be)  F  14C(12C,α)
  G  18O(α,γ)  H  18O(α,n): RES
  I  18O(4He,4He’): RES  J  18O(6Li,d)
  K  18O(7Li,t),(7Li,tγ)  L  19F(α,pγ)
  M  20Ne(t,p)  N  20Ne(t,pγ)
  O  21Ne(n,γ) E=THERMAL  P  21Ne(n,γ): RES
  Q  21Ne(d,p)  R  22Ne(γ,γ’)
  S  22Ne(E,E’)  T  22Ne(p,p’)
  U  Coulomb Excitation  V  23Na(d,3He)
  W  23Na(t,α)  X  26Mg(d,6Li)
  Y  26Mg(3He,7Be)  Z  150Nd(26Mg,22NeG)

General Comments:

2006As01: No evidence of excited state population in 22Ne from 9Be(18O,α14C), (18O,10Be12C), and (18O,9Be13C) reactions.

Other reaction: 22Ne(α,α’): 1971Ol01,1984Sa28,1987Su09










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
      0.0ABCD  GH JKLMNOPQRSTUVWXY  0+ STABLE      
   1274.537 7 AB D  G  JKLMNOPQ S UVWXYZ 2+ 3.60 ps 5     1274.537 7 
  100
E2
      0.0
0+
   3357.2 5 A  D  G  JKLMN  Q S  VWXYZ 4+ 225 fs 4     2082.6 5 
  100
E2
   1274.537
2+
   4456.2 9 A CD  G  JKLMN  Q S  VWXYZ 2+ 3.7 fs 25     1099
   3181.4
   4455.7
 
  100.0 21 
    3.1 21 

M1+E2
E2
   3357.2
   1274.537
      0.0
4+
2+
0+
   5146.0 9   CD  G   KLMN  Q    VWX   2- 0.8 ps 2      689.8
   3871.1
   89 6 
  100 6 
E1+M2
E1+M2
   4456.2
   1274.537
2+
2+
   5329.6 13    D  G    L N  QRS   W    1+ 1.2 fs 3     4054.6
   5328.9
   50 12 
  100 12 
M1+E2
[M1]
   1274.537
      0.0
2+
0+
   5363.4 11    D     JKLMN  Q     WX   2+ 69 fs 12     4088.4
   5362.7
  100 4 
   16 4 
M1+E2
[E2]
   1274.537
      0.0
2+
0+
   5523.3 6 A CD     JKLMN  Q     WX Z (4)+ 21 fs 3     2166.1 5 
   4247.9 10 
  100.0 6 
    1.6 3 
M1
E2
   3357.2
   1274.537
4+
2+
   5641.2 7 A CD      KLMN  Q     WX   3+ < 3 fs    2283.9 7 
   4366.1 10 
   45 3 
  100 3 
M1(+E2)
M1+E2
   3357.2
   1274.537
4+
2+
   5910.1 9 A  D     JKLMN    S   WX   3- 32 fs 11     1453.8
   2552.7
   4635.0
   21 6 
   21 6 
  100 6 
E1(+M2)

E1+M2
   4456.2
   3357.2
   1274.537
2+
4+
2+
   6119.9 16    D     JKLMN  Q S   WX   2+ 14 fs 7     1663.6
   4844.8
   6119.0
   10.3 13 
  100 4 
   18 3 
M1+E2
M1+E2
E2
   4456.2
   1274.537
      0.0
2+
2+
0+
   6235 2          JKLM     S    X   0+ 236 fs 83      905
  100

   5329.6
1+
   6311.0 10   CD  G    L          W  Z (6+) 49 fs 4     2953.6
  100
[E2]
   3357.2
4+
   6345.1 10 A CD  G   KLMN  Q     WX   4+ 13 fs 3     2987.7 9 
  100
M1+E2
   3357.2
4+
   6635.8 8   CD       LM   Q     WX   (3,4)+ 49 fs 21     3278.3
   5360.6
   89 6 
  100 6 
M1+E2

   3357.2
   1274.537
4+
2+
   6689.0 11           KLM     S   WX   1- 243 fs 132     5413.7
   6687.9
   45 9 
  100 9 
[E1]
(E1)
   1274.537
      0.0
2+
0+
   6819.4 16   CD      KLM   Q S   WX   2+ < 3 fs    1455.9
   1673.3
   2363.1
   5544.1
   43 16 
   57 16 
  100 16 
   70 16 


M1+E2
M1
   5363.4
   5146.0
   4456.2
   1274.537
2+
2-
2+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   6853.5 16    D  G    LM   QRST  W    (1+) 0.38 fs 16     5578.2
   6852.3
   85 8 
  100 8 
M1+E2
M1
   1274.537
      0.0
2+
0+
   6900 2           KLM     S   W    0+ 76 fs 8     5624.7
  100
E2
   1274.537
2+
   7051 3    D      KLMN  Q S   W    1- 100 fs 30     5776
   7050
  100.0 11 
    9.9 11 
[E1]
[E1]
   1274.537
      0.0
2+
0+
   7341.1 11    D     JKL N  Q     WX Z 0+ < 3 fs    2011.4
   2884.7
  100 8 
   75 8 
(M1)
(E2)
   5329.6
   4456.2
1+
2+
   7341.2 11 A  D       LM              (4)+ 35 fs 21     1430.9
   3983.5 10 
  100 6 
   96 6 

M1+E2
   5910.1
   3357.2
3-
4+
   7405.9 7    D      KLM   Q     WX   (3)- 32 fs 10     2259.8
   6130.4
  100 3 
   56 3 
M1+E2
E1
   5146.0
   1274.537
2-
2+
   7423.0 9 A  D       LM         W  Z (5+) < 3 fs    1900.0 6 
  100

   5523.3
(4)+
   7469 2 ?           L    Q S   W    1,2 55 fs 21     1559
  100

   5910.1
3-
   7489 5       G   KLMN        W    1-      1369
   2125
   6213
   7487
   10 6 
   10 6 
   23 6 
  100 6 



E1
   6119.9
   5363.4
   1274.537
      0.0
2+
2+
2+
0+
   7643.1 13    D     JKLM   Q S    X   2+ 470 as 200     3186.7
   6367.6
   7641.7
   42 5 
  100 5 
   12 5 

M1+E2
E2
   4456.2
   1274.537
      0.0
2+
2+
0+
   7663.7 9            LM   Q S        (2)-      1428.7
  100

   6235
0+
   7722.0 11    D     JKLM   Q      X   3-      1602.0
   2198.6
   2575.8
   3265.5
   4364.3
   6446.5
   19 16 
   25 16 
   22 16 
  100 16 
   78 16 
   69 16 






   6119.9
   5523.3
   5146.0
   4456.2
   3357.2
   1274.537
2+
(4)+
2-
2+
4+
2+
   7921 2    D      KLM   Q S    X   (2)+       580
   1102
   2398
   6645
   20 15 
   29 15 
   33 15 
  100 15 




   7341.2
   6819.4
   5523.3
   1274.537
(4)+
2+
(4)+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   8076.9 14    D      KLM   Q          (4)+      1765.8
   2713.3
   4719.1
   6801.2
   50 22 
   36 22 
  100 22 
   92 22 




   6311.0
   5363.4
   3357.2
   1274.537
(6+)
2+
4+
2+
   8134.3 4    D     JKLM   Q      X   2+      1314.9
   6858.6
    8 3 
  100 3 

M1+E2
   6819.4
   1274.537
2+
2+
   8162.2 13            LM     S        2+,3,4+      1342.8
   4804.4
   6886.5
    8 8 
   44 8 
  100 8 



   6819.4
   3357.2
   1274.537
2+
4+
2+
   8375.9 16    D      KLM   Q      X   (3)-       712.2
   5018.1
   7100.1
    8 7 
  100 7 
   28 7 



   7663.7
   3357.2
   1274.537
(2)-
4+
2+
   8452 7                        X          
   8489.6 12    D      KLM   Q          2+       412.7
   1148.4
   2254.5
   2848.2
   5131.8
   32 32 
  100 32 
   82 32 
   71 32 
   71 32 





   8076.9
   7341.2
   6235
   5641.2
   3357.2
(4)+
(4)+
0+
3+
4+
   8561.4 19            LM   QR         (1,2)+ 0.35 fs 13     1872.3
   8559.6
   72 12 
  100 12 


   6689.0
      0.0
1-
0+
   8573 10                        X          
   8596.0 9    D      KLM   Q S              519.1
   3449.7
  100 6 
   20 6 


   8076.9
   5146.0
(4)+
2-
   8741.0 14    D       LM   Q      X   (3)-      1399.6
   1689.9
   4284.3
   5383.1
   19 12 
   28 12 
  100 12 
   28 12 




   7341.2
   7051
   4456.2
   3357.2
(4)+
1-
2+
4+
   8855.3 15            LM   Q          (4)+      1449.3
   2544.1
   39 10 
  100 10 


   7405.9
   6311.0
(3)-
(6+)
   8900.3 16    D  G    L    Q  T            1477.2
   1559.0
   2211.2
   2589.1
   3258.8
   3536.6
   54 33 
  100 33 
   71 33 
   79 33 
   54 33 
   58 33 






   7423.0
   7341.2
   6689.0
   6311.0
   5641.2
   5363.4
(5+)
(4)+
1-
(6+)
3+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   8976 3    D     J LM                   1312
   1925
   56 11 
  100 11 


   7663.7
   7051
(2)-
1-
   9045 3            LM   Q      X   (2+,3-)      1402
   1994
   5687
   71 24 
   92 24 
  100 24 



   7643.1
   7051
   3357.2
2+
1-
4+
   9097 3    D     J LM   Q          (1 TO 3)-        
   9178 3                  RS        1+ 84 as 3     9176
  100

      0.0
0+
   9178.1 7    D     J LM      T       (4)+      3267.6
   4721.3
   5819.9
   64 11 
   25 11 
  100 11 



   5910.1
   4456.2
   3357.2
3-
2+
4+
   9229 3          J LM          X   2+      1565
   2178
   79 9 
  100 9 


   7663.7
   7051
(2)-
1-
   9250 3            L                    1528
   3130
  100 11 
   56 11 


   7722.0
   6119.9
3-
2+
   9324 2    D       L                    1602
  100

   7722.0
3-
   9508 10    D     J LM                     
   9541 10             M              2+        
   9625 12    D     J L               5      3314
   6267
   45
  100


   6311.0
   3357.2
(6+)
4+
   9654 10    D        M                     
   9725 10          J LM              (3-)        
   9841 10          J LM              (2+)        
  10066 10          J  M              (0+)        
  10137 10          J LM              2+        
  10208.5 10       G  J LM    R         1- < 2 keV    8932.0
  10206.0
   25 6 
  100 6 

E1
   1274.537
      0.0
2+
0+
  10280.4 10       G  J L               (0+,1-,2+) < 2 keV    2791.2
   3426.6
   4950.2
   5823.4
   9003.9
   23 7 
   45 9 
  100 12 
    2 1 
   57 12 





   7489
   6853.5
   5329.6
   4456.2
   1274.537
1-
(1+)
1+
2+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  10294.8 10       G     M              (2+) < 2 keV    2805.6
   3441.0
   4964.6
   5837.8
   9018.3
   19 5 
   16 5 
   30 7 
   11 4 
  100 12 




D
   7489
   6853.5
   5329.6
   4456.2
   1274.537
1-
(1+)
1+
2+
2+
  10384 15          J LM O                   
  10416.4 3          J LM  P                4071
 

   6345.1
4+
  10462.5 5             M  P           3-        
  10501.6 3             M  P           2+        
  10544.9 4             M  P           2+        
  10616 3       GH J LM              (5-) 6 keV    4270
   7258
  100 8 
   52 8 


   6345.1
   3357.2
4+
4+
  10696 4       G  J                 < 4 keV    7337
  100

   3357.2
4+
  10706 6       GH    M              < 10 keV    9429
  100

   1274.537
2+
  10749 3       GH   L               5- 6 keV    4437
   7390
  100 10 
   92 10 


   6311.0
   3357.2
(6+)
4+
  10857 3       GH J  M              3- 6 keV    9580
  100

   1274.537
2+
  10890 10                    T       1+        
  10921 3       GH    M              1- 24 keV    9644
  10918
  100 9 
   79 9 


   1274.537
      0.0
2+
0+
  11032 6       GH J L             Z (8+,6+) < 10 keV    4721
 

   6311.0
(6+)
  11064 10             M              2+        
  11130 5       G  J L               6,7 < 5 keV    4818
  100

   6311.0
(6+)
  11172       H                          
  11194 3       GH    M              7 keV    2294
   9917
  100 4 
   18 4 


   8900.3
   1274.537

2+
  11269 5       GH J  M              2+,3+,4+ 12 keV    6122
   7910
  100 15 
   81 15 


   5146.0
   3357.2
2-
4+
  11323       H                          
  11431 8       GH    M              48 keV   10154
  100

   1274.537
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  11465 3       GH                   (1-) < 3 keV    6320
  10190
  11464
  100 4 
   33 4 
   49 4 



   5146.0
   1274.537
      0.0
2-
2+
0+
  11522 8       GH   LM              7-      5221
  100

   6311.0
(6+)
  11577 5       GH    M              18 keV      
  11656 10             M                     
  11686 5       GH                   (2+) 9 keV      
  11708 15        HI   M              (2+) 5 keV      
  11745      G                    41 keV      
  11751      G                    1- 8 keV      
  11772 10         I   M              3-        
  11892 6       G I   M     ST       1 10 keV      
  12000 10                    T       1+        
  12020 10         I                  0+ 68 keV      
  12071 15             M                     
  12218 15             M                     
  12250 10         I                  0+ 76 keV      
  12280 10       G I                  1- 51 keV      
  12390 10         I   M              3- 99 keV      
  12450 20             M              (0+,1-)        
  12570 10         I         S        (1-) 105 keV      
  12610 10         I                  (2+) 124 keV      
  12643 15             M                     
  12700 10         I                  3- 15 keV      
  12800 10         I                  2+ 50 keV      
  12820 10         I                  1- 170 keV      
  12862 15         I   M              (3-) 145 keV      
  12900 10         I   M              3- 39 keV      
  12990 10         I                  0+ 80 keV      
  13030 10         I                  2+ 90 keV      
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  13078 20             M                     
  13190 10         I                  3- 79 keV      
  13210 10         I                  0+ 81 keV      
  13274 20             M                     
  13392 8         I   M              3- 58 keV      
  13460 10                    T              
  13490 10         I                  4+ 29 keV      
  13540 10         I                  0+ 96 keV      
  13570 10         I                  3- 136 keV      
  13650 10         I                  (3-) 48 keV      
  13670 10         I                  (2+) 41 keV      
  13690 10         I                  (5-) 50 keV      
  13730 10         I                  4+ 57 keV      
  13820 10         I                  (2+) 51 keV      
  13880 10         I          T       4+ 46 keV      
  14060 20                    T              
  14470    E                             
  15580 40                    T              
  16510 10                    T              
     17.00E3 10      F                            
     17.48E3 10     E                             
     18.43E3 10     EF                     ≈ 330 keV      
  19280 20      F  I                  (7-) 88 keV      
     19.45E3 10     E                      (6+)        
  19560 20         I                  (7-) 75 keV      
     19.89E3 10     E                      (10+)        
     20.00E3 10      F                     (9-) ≈ 270 keV      
     20.70E3 10      F                     (11-) ≈ 340 keV      
  20850 20         I                  (9-) 110 keV      
  21840 20     EF  I                  (9-) 170 keV      
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     22.20E3 10      F                     (12+) ≈ 250 keV      
     22.90E3 10      F                     ≈ 290 keV      
     24.14E3 20      F  I                         
     25.00E3 10      F                     (9-) ≈ 350 keV      
     25.90E3 10      F                            
     26.89E3 20      F  I                         

E(level): From 19F(α,pγ), except otherwise noted.

T1/2(level): Γ0 values from (α,n):res, except otherwise noted

E(γ): From level energy difference, recoil energy subtracted, except otherwise noted.

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Additional Gamma Data:













E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Additional Data
   1274.537 2+ 3.60 ps 5     1274.537 7 E2 B(E2)(W.u.)=12.76 18
   3357.2 4+ 225 fs 4     2082.6 5 E2 B(E2)(W.u.)=17.5 4
   4456.2 2+ 3.7 fs 25     3181.4M1+E2+0.09 2B(E2)(W.u.)=1.0 8, B(M1)(W.u.)=0.18 12
2+ 3.7 fs 25     4455.7E2 B(E2)(W.u.)=0.7 5
   5146.0 2- 0.8 ps 2      689.8E1+M2-0.29 2B(E1)(W.u.)=0.0014 4, B(M2)(W.u.)=1.2×103 4
2- 0.8 ps 2     3871.1E1+M2+0.96 18B(E1)(W.u.)=5.1E-6 17, B(M2)(W.u.)=1.4 5
   5329.6 1+ 1.2 fs 3     4054.6M1+E2+1.9 5B(E2)(W.u.)=31 12, B(M1)(W.u.)=0.020 11
1+ 1.2 fs 3     5328.9[M1] B(M1)(W.u.)=0.081 25
   5363.4 2+ 69 fs 12     4088.4M1+E2-0.19 4B(E2)(W.u.)=0.06 3, B(M1)(W.u.)=0.0039 8
2+ 69 fs 12     5362.7[E2] B(E2)(W.u.)=0.070 22
   5523.3 (4)+ 21 fs 3     2166.1 5 M1 B(M1)(W.u.)=0.102 15
(4)+ 21 fs 3     4247.9 10 E2 B(E2)(W.u.)=0.084 20
   5641.2 3+ < 3 fs    2283.9 7 M1(+E2)-0.12 17B(M1)(W.u.)>0.18
3+ < 3 fs    4366.1 10 M1+E2+0.15 2B(E2)(W.u.)>0.36, B(M1)(W.u.)>0.059
   5910.1 3- 32 fs 11     1453.8E1(+M2)+0.19 10B(E1)(W.u.)=(0.0013 6), B(M2)(W.u.)=(1.0×102 5)
3- 32 fs 11     4635.0E1+M2+0.17 6B(E1)(W.u.)=0.00019 7, B(M2)(W.u.)=1.1 9
   6119.9 2+ 14 fs 7     1663.6M1+E2+1.1 3B(E2)(W.u.)=38 22, B(M1)(W.u.)=0.012 8
2+ 14 fs 7     4844.8M1+E2+2.3 3B(E2)(W.u.)=2.7 14, B(M1)(W.u.)=0.0017 10
2+ 14 fs 7     6119.0E2 B(E2)(W.u.)=0.18 10
   6311.0 (6+) 49 fs 4     2953.6[E2] B(E2)(W.u.)=14.0 12
   6345.1 4+ 13 fs 3     2987.7 9 M1+E2+0.68 16B(E2)(W.u.)=16 7, B(M1)(W.u.)=0.043 12
   6635.8 (3,4)+ 49 fs 21     3278.3M1+E2-0.9 3B(E2)(W.u.)=1.8 10, B(M1)(W.u.)=0.0033 18
   6689.0 1- 243 fs 132     5413.7[E1] B(E1)(W.u.)=7.E-6 4
1- 243 fs 132     6687.9(E1) B(E1)(W.u.)=8.E-6 5
   6819.4 2+ < 3 fs    2363.1M1+E2+2.5 4B(E2)(W.u.)>2.1×102, B(M1)(W.u.)>0.021
2+ < 3 fs    5544.1M1 B(M1)(W.u.)>0.011
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Additional Data
   6853.5 (1+) 0.38 fs 16     5578.2M1+E2+1.3 5B(E2)(W.u.)=22 12, B(M1)(W.u.)=0.06 4
(1+) 0.38 fs 16     6852.3M1 B(M1)(W.u.)=0.10 5
   6900 0+ 76 fs 8     5624.7E2 B(E2)(W.u.)=0.36 4
   7051 1- 100 fs 30     5776[E1] B(E1)(W.u.)=4.1E-5 13
1- 100 fs 30     7050[E1] B(E1)(W.u.)=2.2E-6 7
   7341.1 0+ < 3 fs    2011.4(M1) B(M1)(W.u.)>0.51
0+ < 3 fs    2884.7(E2) B(E2)(W.u.)>1.1×102
   7341.2 (4)+ 35 fs 21     3983.5 10 M1+E2-0.7 3B(E2)(W.u.)=0.7 6, B(M1)(W.u.)=0.0033 22
   7405.9 (3)- 32 fs 10     2259.8M1+E2+1.3 4B(E2)(W.u.)=33 13, B(M1)(W.u.)=0.014 7
(3)- 32 fs 10     6130.4E1 B(E1)(W.u.)=4.2E-5 14
   7643.1 2+ 470 as 200     6367.6M1+E2-0.08 5 
   8134.3 2+      6858.6M1+E2-0.48 5 

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
      0.00+ STABLE δ<r2>(20Ne,22Ne)=-0.321 fm2 4 (stat) 43 (syst) (2011Ma48,2008Ge07). Absolute 22Ne charge radius=2.952 fm 9 (2008Ge07) deduced with respect to known 20Ne charge radius=3.006 fm 5.
E(level): δ<r2>(20Ne,22Ne)=-0.321 fm2 4 (stat) 43 (syst) (2011Ma48,2008Ge07). Absolute 22Ne charge radius=2.952 fm 9 (2008Ge07) deduced with respect to known 20Ne charge radius=3.006 fm 5. Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’). Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
   1274.5372+ 3.60 ps 5  Q=-0.19 4, μ=+0.65 2
E(level): Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’). Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
   3357.24+ 225 fs 4  μ=+2.2 6
E(level): From 22F β- decay. Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’). Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
   4456.22+ 3.7 fs 25  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   5146.02- 0.8 ps 2  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   5329.61+ 1.2 fs 3  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   5363.42+ 69 fs 12  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   5523.3(4)+ 21 fs 3  E(level): From 22F β- decay.
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   5641.23+ < 3 fs E(level): From 22F β- decay.
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   5910.13- 32 fs 11  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   6119.92+ 14 fs 7  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   62350+ 236 fs 83  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   6311.0(6+) 49 fs 4  E(level): Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
Jπ(level): Identified as member of a rotational band based on 0+ g.s. in 1976Fi02 (α,pγ).
   6345.14+ 13 fs 3  E(level): From 22F β- decay.
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   6635.8(3,4)+ 49 fs 21  T1/2(level): From 1993Ol05 (α,pγ).
   6689.01- 243 fs 132  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   6819.42+ < 3 fs T1/2(level): From 1993Ol05 (α,pγ).
   6853.5(1+) 0.38 fs 16  T1/2(level): From (γ,γ’).
   69000+ 76 fs 8  T1/2(level): From 1993Ol05 (α,pγ).
   70511- 100 fs 30  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   7341.10+ < 3 fs Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   7341.2(4)+ 35 fs 21  E(level): From 22F β- decay.
Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   7405.9(3)- 32 fs 10  Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
T1/2(level): From 1993Ol05 (α,pγ).
   7423.0(5+) < 3 fs E(level): From 22F β- decay.
T1/2(level): From 1993Ol05 (α,pγ).
   74691,2 55 fs 21  T1/2(level): From 1993Ol05 (α,pγ).
E(level)Jπ(level)T1/2(level)Comments
   74891-   Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   7643.12+ 470 as 200  T1/2(level): From (e,e’).
   7663.7(2)-   XREF: S(7630).
   7722.03-   Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   7921(2)+   Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   8134.32+   Jπ(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180|’) (α,α’).
   8489.62+   XREF: M(8500).
   8561.4(1,2)+ 0.35 fs 13  E(level): From (γ,γ’).
T1/2(level): From (γ,γ’).
   91781+ 84 as 3  XREF: S(9140).
T1/2(level): From (γ,γ’).
   9508   E(level): From (t,p).
   96255   XREF: d(9640)L(9609).
   9654   XREF: d(9630).
   9725(3-)   XREF: L(9697).
E(level): Average of data from (t,p) and (6Li,d). Uncertainty - lowest experimental value.
   9841(2+)   E(level): From (t,p).
  10066(0+)   E(level): Average of data from (t,p) and (6Li,d). Uncertainty - lowest experimental value.
  101372+   E(level): Average of data from (t,p) and (6Li,d). Uncertainty - lowest experimental value.
  10208.51- < 2 keV E(level): From (α,γ).
T1/2(level): From (α,γ).
  10280.4(0+,1-,2+) < 2 keV E(level): From (α,γ).
T1/2(level): From (α,γ).
  10294.8(2+) < 2 keV E(level): From (α,γ).
T1/2(level): From (α,γ).
  10616(5-) 6 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  10696 < 4 keV T1/2(level): From (α,γ).
  10706 < 10 keV XREF: M(10720).
T1/2(level): From (α,γ).
  108573- 6 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  109211- 24 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  11032(8+,6+) < 10 keV E(level): From (α,γ).
T1/2(level): From (α,γ).
E(level)Jπ(level)T1/2(level)Comments
  111306,7 < 5 keV E(level): From (α,γ).
T1/2(level): From (α,γ).
  11194 7 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  112692+,3+,4+ 12 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  11431 48 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  11465(1-) < 3 keV E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
  11708(2+) 5 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  117723-   E(level): From (t,p).
  118921 10 keV T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  120200+ 68 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  122500+ 76 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  122801- 51 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  123903- 99 keV T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  12570(1-) 105 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  12610(2+) 124 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  127003- 15 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  128002+ 50 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  128201- 170 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  12862(3-) 145 keV XREF: I(12840).
T1/2(level): From (4He,4He’):Re.
  129003- 39 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  129900+ 80 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  130302+ 90 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  131903- 79 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  132100+ 81 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  133923- 58 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  134904+ 29 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
E(level)Jπ(level)T1/2(level)Comments
  135400+ 96 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  135703- 136 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  13650(3-) 48 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  13670(2+) 41 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  13690(5-) 50 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  137304+ 57 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  13820(2+) 51 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  138804+ 46 keV XREF: t(13890).
Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
     18.43E3 ≈ 330 keV T1/2(level): From (12C,α).
  19280(7-) 88 keV XREF: F(19130).
Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  19560(7-) 75 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
     20.00E3(9-) ≈ 270 keV Jπ(level): From (12C,α). Jπ assignments are based on the analysis of double (α,α) angular correlations with the residual 18O nucleus in the 0+ ground state.
     20.70E3(11-) ≈ 340 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  20850(9-) 110 keV Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
  21840(9-) 170 keV XREF: F(21600).
Jπ(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
T1/2(level): From 18O(4He,4He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
     22.20E3(12+) ≈ 250 keV Jπ(level): From (12C,α). Jπ assignments are based on the analysis of double (α,α) angular correlations with the residual 18O nucleus in the 0+ ground state.
T1/2(level): From (12C,α).
     22.90E3 ≈ 290 keV T1/2(level): From (12C,α).
     24.14E3   XREF: F(24000).
     25.00E3(9-) ≈ 350 keV Jπ(level): From (12C,α). Jπ assignments are based on the analysis of double (α,α) angular correlations with the residual 18O nucleus in the 0+ ground state.
T1/2(level): From (12C,α).
     26.89E3   XREF: F(27000).

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Additional Gamma Comments:

E(level)E(gamma)Comments
   3357.2   2082.6E(γ): From 22F β- decay, except otherwise noted.
   4456.2   1099E(γ): Placement from (26Mg,22Neγ)
   5146.0    689.8I(γ): From (t,pγ)
   3871.1I(γ): From (t,pγ)
   5523.3   2166.1E(γ): From 22F β- decay, except otherwise noted.
I(γ): From 22F β- decay, except otherwise noted.
   4247.9E(γ): From 22F β- decay, except otherwise noted.
I(γ): From 22F β- decay, except otherwise noted.
   5641.2   2283.9E(γ): From 22F β- decay, except otherwise noted.
I(γ): Other value: 30 4 in (t,pγ). From 22F β- decay, except otherwise noted.
   4366.1E(γ): From 22F β- decay, except otherwise noted.
I(γ): From 22F β- decay, except otherwise noted.
   6119.9   1663.6I(γ): From (t,pγ)
   4844.8I(γ): From (t,pγ)
   6119.0I(γ): From (t,pγ)
M(γ): From (e,e’) based on B(E2)
   6345.1   2987.7E(γ): From 22F β- decay, except otherwise noted.
   7051   5776I(γ): From (t,pγ)
   7050I(γ): From (t,pγ)
   7341.2   1430.9E(γ): γ-ray not seen in 22F β- decay. Iγ from (α,pγ)
   3983.5E(γ): From 22F β- decay, except otherwise noted.
   7423.0   1900.0E(γ): From 22F β- decay, except otherwise noted.
   8134.3   6858.6I(γ): From 1976Fi02 (α,pγ)
   9178   9176E(γ): placement in (γ,γ)
  10208.5   8932.0I(γ): From (α,γ)
  10206.0I(γ): From (α,γ)
  10280.4   2791.2I(γ): From (α,γ)
   3426.6I(γ): From (α,γ)
   4950.2I(γ): From (α,γ)
   5823.4I(γ): From (α,γ)
   9003.9I(γ): From (α,γ)
E(level)E(gamma)Comments
  10294.8   2805.6I(γ): From (α,γ)
   3441.0I(γ): From (α,γ)
   4964.6I(γ): From (α,γ)
   5837.8I(γ): From (α,γ)
   9018.3I(γ): From (α,γ)
  10616   4270I(γ): From (α,γ)
   7258I(γ): From (α,γ)
  10749   4437I(γ): From (α,γ)
   7390I(γ): From (α,γ)
  10921   9644I(γ): From (α,γ)
  10918I(γ): From (α,γ)
  11032   4721E(γ): Placement from (26Mg,22Neγ)
  11194   2294I(γ): From (α,γ)
   9917I(γ): From (α,γ)
  11269   6122I(γ): From (α,γ)
   7910I(γ): From (α,γ)
  11465   6320I(γ): From (α,γ)
  10190I(γ): From (α,γ)
  11464I(γ): From (α,γ)

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