ADOPTED LEVELS, GAMMAS for 146Nd

Authors: Yu. Khazov, A. Rodionov and G. Shulyak |  Citation: Nucl. Data Sheets 136, 163 (2016) |  Cutoff date: 14-Jul-2016 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-1472 keV 4S(n)= 7565.23 keV 9S(p)= 8589 keV 7Q(α)= 1182.1 keV 21
Reference: 2012WA38

References:
  A  146Pr β- decay  B  146Pm ε decay
  C  145Nd(n,γ) E=THERMAL  D  145Nd(n,γ) E=0.2-0.5 KEV
  E  146Nd(γ,γ’)  F  146Nd(n,n’γ)
  G  Coulomb Excitation  H  144Nd(t,p)
  I  146Nd(E,E’)  J  146Nd(p,p’),(d,d’)
  K  148Nd(p,t)  L  149Sm(n,α)
  M  150Nd(α,α’4nγ)  N  136Xe(13C,3nγ)

General Comments:

Produced and identified by F.W.Aston, Nature, 114, (1924) 273.

The level scheme of 146Nd studied in beta-decay and in electron capture, also in neutron capture reactions and other reactions. The evaluators believe firmly established levels, if they are confirmed by various data. However, a number of levels are doubtful. This primarily concerns to the (n,γ) results, a number of levels do not have a reliable isotope identification and are not suggested by other data, and these levels are not adopted.

Levels: Band assignments are from 136Xe(13C,3nγ)










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     0.0ABCDEFGHIJKLMN 0+ STABLE      
   453.84 3 ABCDEFGHIJKLMN 2+ 20.9 ps 9     453.84 3 
  100
E2
     0.0
0+
   915.4 3 A     G  J     0+      461.6 3 
  100

   453.84
2+
  1043.21 5 ABCD FGHIJKLMN 4+ 3.8 ps 10     589.40 6 
  100
E2
   453.84
2+
  1189.60 4 ABCD FGHIJKLMN 3- 0.62 ps +90-24     146.4 5 
   735.77 4 
    0.60 6 
  100

E1+(M2)
  1043.21
   453.84
4+
2+
  1303.2 4 A       I K    2+      849.1 5 
  1303.4 5 
  100 12 
   90 11 


   453.84
     0.0
2+
0+
  1376.78 5 A CDEFG IJKL   1- 63 fs 13     922.87 8 
  1376.69 10 
   55.5 11 
  100.0 25 
E1+(M2)
E1
   453.84
     0.0
2+
0+
  1470.63 6 A CDEFG IJKL   2+ 0.32 ps 19    1016.67 10 
  1470.60 12 
  100 5 
   97 5 
M1+E2
E2
   453.84
     0.0
2+
0+
  1517.58 8   CD FGHIJKLMN 5-      327.9 1 
   474.46 8 
    0.41 10 
  100 5 
E2
E1+(M2)
  1189.60
  1043.21
3-
4+
  1572 2 ?         J     (0+)        
  1602.64 11 A    F    K    0+     1148.8 1 
  100
E2
   453.84
2+
  1697.23 18 A   E  H JK    0+     1243.42 18 
  100
Q
   453.84
2+
  1745.15 10   CD FGHIJKL   4+      555.58 16 
   701.9 2 
  1291.85 23 
  100 4 
   78 7 
   30.7 18 
E1+(M2)
M1+E2
E2
  1189.60
  1043.21
   453.84
3-
4+
2+
  1769.3 6   CD           (2+,3-)      725.6
  100

  1043.21
4+
  1777.43 10 A CD F    K    3+      588.2 9 
   736.0 10 
  1323.43 15 
   43.8 3 
   57.8
  100 5 
E1+(M2)
M1+E2
M1+E2
  1189.60
  1043.21
   453.84
3-
4+
2+
  1780.01 10       G  J  MN 6+      262.5 10 
   736.8 1 
   11 1 
  100 5 
E1
E2
  1517.58
  1043.21
5-
4+
  1787.30 9 A CDEF  IJK    2+      598.16 22 
  1333.33 16 
  1787.27 15 
   11.5 12 
  100 5 
   12.4 6 

M1+E2
E2
  1189.60
   453.84
     0.0
3-
2+
0+
  1811.9 4   CD           (2,3)-        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  1834 10            L          
  1884.7 4    D           (2:4)-        
  1895.5 10    D           (2:5)-        
  1905.58 10 A CD F    KL   2+      715.76 18 
  1451.78 12 
  1906.5 5 
    2.8 3 
  100 5 
    1.9 3 

M1+E2

  1189.60
   453.84
     0.0
3-
2+
0+
  1911.0 5   C        L        721.6 5 
  100

  1189.60
3-
  1918.91 8   CD F  IJ L   4+      448.4 6 
   730.0 10 
   875.7 1 
  1465.04 12 
   58 11 
   26.3
  100 5 
   89 5 


M1+(E2)
E2
  1470.63
  1189.60
  1043.21
   453.84
2+
3-
4+
2+
  1978.36 6 A CD F HIJK    2+      191.2 8 
   508.0 2 
   601.570 22 
   788.88 19 
  1524.72 24 
  1977.55 21 
    0.10 5 
    2.95 15 
   49.9 9 
   40.3 22 
  100 5 
    1.38 9 
D+(Q)


E1+(M2)
M1+E2
E2
  1787.30
  1470.63
  1376.78
  1189.60
   453.84
     0.0
2+
2+
1-
3-
2+
0+
  1989.32 9   CD F  IJK    4+      218.6 10 
   474.0 10 
   800.0 10 
   946.14 9 
  1535.28 19 
  100 21 
   17.9
  100 21 
   68 4 
   31.8 21 



M1+E2
E2
  1769.3
  1517.58
  1189.60
  1043.21
   453.84
(2+,3-)
5-
3-
4+
2+
  2027 2         IJ     1-        
  2029.41 12             MN 7-      249.4 10 
   511.9 10 
   79.8 4 
  100 5 
E1
E2
  1780.01
  1517.58
6+
5-
  2045.70 22   CD F         4-,5      528.3 4 
  1002.45 25 
   52 6 
  100 4 
D+(Q)
D
  1517.58
  1043.21
5-
4+
  2069 2          J     5-        
  2072.80 10   CD F H J     3-      883.14 9 
  1030.4 6 
  100 6 
   50 19 
M1+E2
(E1)
  1189.60
  1043.21
3-
4+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2083.51 10           K  N (6+)     1040.3 1 
  100
(E2)
  1043.21
4+
  2090 2         IJ     (0+)        
  2096.13 10   CD F    K    4+      906.55 15 
  1052.95 15 
  1642.4 4 
   81 7 
  100 7 
   37 7 
E1+(M2)
M1+E2

  1189.60
  1043.21
   453.84
3-
4+
2+
  2119.84 19 A C  F         2+     1665.4 5 
  2119.9 2 
   92 15 
  100 12 

E2
   453.84
     0.0
2+
0+
  2143.56 13 A    F    K    2+      446.4 10 
   766.4 10 
   954.0 15 
  1689.5 3 
  2143.2 4 
   12.4 16 
    5.9 13 
    2.6 5 
  100 5 
   28.1 18 



M1+E2

  1697.23
  1376.78
  1189.60
   453.84
     0.0
0+
1-
3-
2+
0+
  2148.95 16 A    F  I      (1,2+)      772.1 3 
  1696.1 5 
  2148.8 2 
   63 22 
   59 19 
  100 15 



  1376.78
   453.84
     0.0
1-
2+
0+
  2167.97 16   CD F    K    3-      380.9
   650.6 5 
   976.8
  1124.78 16 
  100 14 
   22 3 
   82 9 
   55 5 



D+(Q)
  1787.30
  1517.58
  1189.60
  1043.21
2+
5-
3-
4+
  2197.49 22 A CD F  IJK    2+     1743.8 3 
  100
M1+E2
   453.84
2+
  2208.31 21 A    F H J     2+     2208.4 3 
  100
E2
     0.0
0+
  2220.03 12 A CD F         3+      314.4 2 
  1030.4 6 
  1176.7 2 
  1766.39 21 
   43 7 
   90 33 
   58 7 
  100 7 


M1+E2
M1+E2
  1905.58
  1189.60
  1043.21
   453.84
2+
3-
4+
2+
  2225 2          J     1-        
  2226.05 14   CD F         3+,4+     1036.59 17 
  1182.6 5 
  1771.6 3 
   50 10 
  100 10 
   88 10 

M1+E2

  1189.60
  1043.21
   453.84
3-
4+
2+
  2231.4 5   CD F  I K    3-     1777.9 6 
  100

   453.84
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2265.97 21 A    F H  K    2+     1812.10 24 
  2266.0 4 
  100 7 
   38 7 
M1+E2

   453.84
     0.0
2+
0+
  2269 2        HIJ     1-        
  2286.42 11   CD F H  K    2+     1243.19 10 
  1832.6 5 
  100 4 
   30 4 
E2
M1+E2
  1043.21
   453.84
4+
2+
  2292.2 9   C                1103.6 15 
  1248.4 15 
 
 


  1189.60
  1043.21
3-
4+
  2302.1 5   CD           (2+:5+)      525.1
  100

  1777.43
3+
  2310.6 6   C                 565.1 6 
  1268.5
  100 8 
   83 15 


  1745.15
  1043.21
4+
4+
  2324.88 22   C    H            807.3 2 
  100

  1517.58
5-
  2335.52 12              N 7-      306.1 1 
   555.5 1 
   34 7 
  100 15 
M1+E2
E1
  2029.41
  1780.01
7-
6+
  2335.65 21 A    F HIJK    3-     1881.8 2 
  100
E1(+M2)
   453.84
2+
  2355.95 13 A   EF H       1+ 15.5 fs 23     979.1 2 ?
  1902.03 19 
  2356.3 4 
   19 7 
   53 10 
  100 10 


D
  1376.78
   453.84
     0.0
1-
2+
0+
  2356.85 11   CD F    K    4+     1167.2 2 
  1313.51 17 
  1903.2 4 
  100 6 
   81 4 
   32 5 
E1(+M2)
M1+E2

  1189.60
  1043.21
   453.84
3-
4+
2+
  2374        I             
  2419.3 3    D           2+:5+        
  2433.6 5   CD           (3-,4-)     1243.9
  100

  1189.60
3-
  2435.34 18   C  F         4+      657.6 4 
  1392.0 3 
  1981.4 3 
    0.42 8 
   64 12 
  100 19 
M1+E2


  1777.43
  1043.21
   453.84
3+
4+
2+
  2437.58 24 A CD F  I K    2+     1247.6 3 
  1983.4 6 
   20 4 
  100 6 

M1+E2
  1189.60
   453.84
3-
2+
  2457.06 17      F  IJ     2+      248.8 2 
  1081.0 4 
  2002.95 21 
   45 7 
   25 7 
  100 11 


M1+E2
  2208.31
  1376.78
   453.84
2+
1-
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2459.97 17 A   E  H       (1,2+)      481.5 5 
  2005.5 4 
  2460.1 2 
    8 5 
   49 3 
  100 5 



  1978.36
   453.84
     0.0
2+
2+
0+
  2469.68 15   CD F         2+,5+,(3+,4+)      724.6 4 
  1426.36 17 
   54 12 
  100 10 


  1745.15
  1043.21
4+
4+
  2474.52 11           K MN 8+      391.0 1 
   445.1 1 
   694.5 1 
   17 4 
  100 10 
   43 7 
(E2)
E1
E2
  2083.51
  2029.41
  1780.01
(6+)
7-
6+
  2479.2 4 A        JK    (2+)     1436.0 4 
  100

  1043.21
4+
  2484.2 3   CD    I      2+     2030.0 3 
  100

   453.84
2+
  2491.45 22   CD F         2+,3+ 0.18 ps +6-4    1301.5 15 
  1448.6 4 
  2037.4 3 
 
   52 11 
  100 11 


M1+E2
  1189.60
  1043.21
   453.84
3-
4+
2+
  2516.28 18   CD F H       2-     1139.47 21 
  2517.3 4 
  100
 
M1+E2

  1376.78
     0.0
1-
0+
  2521.55 20   CD      K    2+:4+      775.6 5 
  1332.3 4 
  1478.6 3 
  2066.0 15 
   37 4 
   59 3 
  100 10 
 




  1745.15
  1189.60
  1043.21
   453.84
4+
3-
4+
2+
  2526 4         IJ     3-        
  2528.4 3   CD      K    2+      716.8 5 
  100

  1811.9
(2,3)-
  2530 8         IJ     3-        
  2546.72 24    D           2+,(4+)     1169.5 4 
  1502.9 4 
  100 17 
   73 13 


  1376.78
  1043.21
1-
4+
  2552.20 9 A CD F H  K    2+      479.2 5 
   765.1 5 
   774.4 3 
   807.3 2 
  1081.23 11 
  1363.5 3 
  1509.5 5 
  2098.0 7 
   95 20 
   14 6 
    8.5 5 
   80 6 
   26 3 
  100 8 
    2.5 2 
    8 4 





E1+M2
(E2)

  2072.80
  1787.30
  1777.43
  1745.15
  1470.63
  1189.60
  1043.21
   453.84
3-
2+
3+
4+
2+
3-
4+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2555.80 24    D   H J     3+,4+      565.1 6 
   578.0 5 
   86 21 
  100 21 


  1989.32
  1978.36
4+
2+
  2561.93 22   CD F         3+      677.1 5 
  2108.05 25 
    0.10 5 
  100

M1+E2
  1884.7
   453.84
(2:4)-
2+
  2570 3         IJ     5-        
  2574.30 20   CD      K    2+      584.6 6 
  2120.2 3 
   84 13 
  100 11 


  1989.32
   453.84
4+
2+
  2583 4     E     K    2+        
  2590.26 17   CD           4+     1073.2 10 
  2136.7 2 
   56 4 
  100 6 


  1517.58
   453.84
5-
2+
  2593.52 12              N 8+      564.1 1 
   813.5 1 
  100 20 
   51 10 
E1
E2
  2029.41
  1780.01
7-
6+
  2597.9 7     E  H       (1,2+) 0.14 ps 7    2144
  2598
   34 17 
  100


   453.84
     0.0
2+
0+
  2602.20 23   CD           2-,3-      528.3 4 
  1412.7 15 
  2149.1 3 
  100 10 
 
   55 7 



  2072.80
  1189.60
   453.84
3-
3-
2+
  2610.9 4      F    K    0+     1234.0 5 
  2157.1 5 
  100
   28
(E1)
(E2)
  1376.78
   453.84
1-
2+
  2623 3         IJK    4+        
  2628.5 10             M  (8+)      848.5
  100
(E2)
  1780.01
6+
  2641 3        H  K    (1-)        
  2660.88 14   CD   H       3+,4+      565.1 6 
   883.3 2 
  1190.8 4 
  2207.0 3 
   29 5 
  100 5 
   27 5 
   21 5 




  2096.13
  1777.43
  1470.63
   453.84
4+
3+
2+
2+
  2663.3 12   C E   IJK    (1-),2+      894.0
  100

  1769.3
(2+,3-)
  2681.24 18 A   EF H       1- 0.083 ps 32    2227.25 25 
  2681.35 25 
  100 5 
   95 5 

E1
   453.84
     0.0
2+
0+
  2690 3        HIJK    (3-)        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2705         J     (6+)        
  2705.80 7 A C    H       2,3(-)      562.10 14 
   727.20 14 
   928.15 30 
  1235.25 13 
  1329.0 2 
  1515.9 5 
  2252.13 10 
   36.0 19 
   55.1 28 
   16.4 11 
   35.5 19 
   56.1 28 
   25.2 28 
  100 5 







  2143.56
  1978.36
  1777.43
  1470.63
  1376.78
  1189.60
   453.84
2+
2+
3+
2+
1-
3-
2+
  2706.22 12             MN 9-      112.7 1 
   676.8 1 
    2.0 5 
  100 5 
E1
E2
  2593.52
  2029.41
8+
7-
  2707.1 5   CD      K    (3+,4+)        
  2710.8 4   C     I          1193.2 4 
  100

  1517.58
5-
  2729 3        H  K    0+        
  2750.1 5   CD    IJK    5-        
  2756.9 3     EF         1- 5.3 fs 14    1286.2 4 
  2302.9 4 
  2757.2 6 
   72 16 
  100 16 
   78 13 


E1
  1470.63
   453.84
     0.0
2+
2+
0+
  2776.1 9 A    F         1,2+     2776.1 9 
  100

     0.0
0+
  2783.8 4   CD           (3+,4+)        
  2803.4 4   CD           2+,(3+)     1059.4 10 
  1426.7 10 
  100 6 
   90 15 


  1745.15
  1376.78
4+
1-
  2807        IJK    3-        
  2820 3         IJK    0+        
  2829.9 7     E          1- 67 fs 12    2376
  2830
   18 8 
  100


   453.84
     0.0
2+
0+
  2844.6 3   C     IJK    3-        
  2855.3 3      F         2+     1665.5 5 
  2401.5 5 
  2855.4 5 
  100
   53
   23
(E1)
E2
E2
  1189.60
   453.84
     0.0
3-
2+
0+
  2856 3         I K    3-        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  2870.6 3   C      JK    2+        
  2877 19         I      5-        
  2885.4 3   C  F   JK    (4+)     1842.4 5 
 
(E2)
  1043.21
4+
  2905.7 4    D F         3+,4+     1862.4 5 
 
(E2)
  1043.21
4+
  2913.55 17      F    K    3     1169.0 3 
  1869.8 5 
  2459.5 2 
  100 10 
 
   59 6 
D+(Q)

D+(Q)
  1745.15
  1043.21
   453.84
4+
4+
2+
  2923.3 5   C     IJK    5-     1732.1 15 
  1880.5 5 
 
 


  1189.60
  1043.21
3-
4+
  2930.4 5   CD    IJK    4+     1739.6
  2476.6 15 
 
 


  1189.60
   453.84
3-
2+
  2945 3           K    0+        
  2958.6 5    D                  
  2970.32 18 A C     IJK    2+     1183.1 5 
  1500.0 5 
  1593.9 5 
  1780.2 7 
  2517.3 4 
   28.1 23 
   26.1 29 
   41.5 29 
   23.0 13 
  100 6 





  1787.30
  1470.63
  1376.78
  1189.60
   453.84
2+
2+
1-
3-
2+
  2996.5 5   CD      K    3+,4+     1805.0 15 
  2542.4 15 
 
 


  1189.60
   453.84
3-
2+
  3000    E          1        
  3005 4         IJ     5-        
  3013.3 4   CD     J     4+        
  3028 20        H  K    0+        
  3034.7 5    D      K    (2)+        
  3042.5 5   CD      K    2+     2589.4 15 
  3043.5 15 
 
 


   453.84
     0.0
2+
0+
  3064.7 5    D           +        
  3091.3 3   C      JK    (2+,4+)        
  3103 4          J     2+        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3109.02 12              N 9-      634.5 1 
   773.5 1 
   14 4 
  100 10 
E1
E2
  2474.52
  2335.52
8+
7-
  3123.82 12             MN 10+      417.6 1 
   649.3 1 
   51 5 
  100 5 
E1
E2
  2706.22
  2474.52
9-
8+
  3126 4           K    1-        
  3145.4 3   C            2+     1958.9 15 
  2691.3 3 
  3146.0 15 
 
 
 



  1189.60
   453.84
     0.0
3-
2+
0+
  3149 5          JK    (4+,6+)        
  3162 4          J     4+        
  3172.1 5    D      K    2+        
  3178.81 20   CD F         3+,(5+)     1190.2 4 
  1989.2 5 
  2135.3 3 
  2725.9 15 
   87 15 
   51 30 
  100 10 
 


M1+E2

  1989.32
  1189.60
  1043.21
   453.84
4+
3-
4+
2+
  3210.3 10   C      J     4+     2019.1 15 
  2758.3 15 
 
 


  1189.60
   453.84
3-
2+
  3220 4           K    2+        
  3229.8 4    D           3+,4+        
  3231 4          J     (4-)        
  3236 4           K    2+        
  3245.52 13              N 10-      136.5 1 
   539.3 1 
   85 6 
  100
M1+E2
M1+E2
  3109.02
  2706.22
9-
9-
  3246.9 4   C            2+:4+     2204.3 15 
  2793.0 4 
 
 


  1043.21
   453.84
4+
2+
  3249 4          J     3-        
  3273         J     (6+)        
  3275.9 7     E          1+ 22.4 fs 34    2822
  3276
   25 4 
  100


   453.84
     0.0
2+
0+
  3283 4          JK    2+        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3292.20 22 A   E          1 12.7 fs 31    1148.9 4 
  1504.9 10 
  1915.1 5 
  3292.12 30 
  100 6 
   17 4 
   38 3 
   67 4 




  2143.56
  1787.30
  1376.78
     0.0
2+
2+
1-
0+
  3310 4          J     4+        
  3319.72 13              N 10+      613.5 1 
   726.2 1 
  100 5 
    3.1 8 
E1
E2
  2706.22
  2593.52
9-
8+
  3329.6 3   C       K    (3-,4,5+)     1102.7
  1812.1 3 
   12 8 
  100 7 


  2226.05
  1517.58
3+,4+
5-
  3335.4 4 A                  1192.2 8 
  1958.3 5 
  2881.8 6 
   25 3 
  100 6 
   41 3 



  2143.56
  1376.78
   453.84
2+
1-
2+
  3347.2 9 A              1,2+     1650.1 10 
  2893.0 15 
  100 11 
   18 2 


  1697.23
   453.84
0+
2+
  3356 4          JK    3-        
  3368.88 22 A         K    1-,2      816.5 10 
  1012.7 6 
  1463.8 7 
  1991.9 5 
  2179.3 3 
  2915.1 8 
    7.9 34 
   63 18 
   25 3 
   29 3 
  100 6 
   21 2 






  2552.20
  2355.95
  1905.58
  1376.78
  1189.60
   453.84
2+
1+
2+
1-
3-
2+
  3384.9 7   C            (2,3,4)     2193.8 15 
  2342.8 15 
  2931.7 15 
 
 
 



  1189.60
  1043.21
   453.84
3-
4+
2+
  3391.8 3 A         K    1-      839.5 10 
  1614.1 7 
  1920.9 5 
  2938.4 5 
   36 10 
   69 8 
   68 8 
  100 7 




  2552.20
  1777.43
  1470.63
   453.84
2+
3+
2+
2+
  3404.72 13             MN 11-      159.2 1 
   280.9 1 
   698.5 1 
    4.6 12 
   97 5 
  100 5 
M1+E2
E1
E2
  3245.52
  3123.82
  2706.22
10-
10+
9-
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3411.0 7     E          1+ 8.5 fs 13    2957
  3411
   29 4 
  100 5 


   453.84
     0.0
2+
0+
  3419 4          JK    0+        
  3429.0 7     E          1 32 fs 7    2975
  3429
   65 10 
  100 5 


   453.84
     0.0
2+
0+
  3435 4          J     5-        
  3443 4           K    2+        
  3451    E          (2+,1)        
  3455 4          JK    4+        
  3468 4           K    3-        
  3472.6 8   C      J     4+     2280.9 15 
  2428.5 15 
  3021.9 15 
 
 
 



  1189.60
  1043.21
   453.84
3-
4+
2+
  3481 4          JK    2+        
  3496 4          JK    5-        
  3500.72 13             MN 11-      181.0 1 
   794.5 1 
    8.9 25 
  100 5 
E1
E2
  3319.72
  2706.22
10+
9-
  3521 5           K    3-        
  3534.1 4 A         K    1-     1555.6 8 
  2157.1 7 
  3080.4 5 
   91 8 
   63 8 
  100 6 



  1978.36
  1376.78
   453.84
2+
1-
2+
  3546 5          JK    2+        
  3558 5          JK    5-        
  3569 5           K    2+        
  3577.0 7     E          1(+) 7.0 fs 12    3123
  3577
   47 7 
  100 5 


   453.84
     0.0
2+
0+
  3585 4          J     2+        
  3594.6 4 A                  2217.7 5 
  3140.9 6 
  100 13 
   98 7 


  1376.78
   453.84
1-
2+
  3601 5           K    4+        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3616 5          JK    5-        
  3618.5 3 A                  1831.1 3 
  3165.6 10 
  100 6 
   11 1 


  1787.30
   453.84
2+
2+
  3625 5          JK    2+        
  3634.0 7     E          1 25 fs 5    3180
  3634
   46 10 
  100 5 


   453.84
     0.0
2+
0+
  3646 5           K           
  3667 5          JK    5-        
  3670 5           K    (2+)        
  3692 5           K    (5-)        
  3701 5           K    (2+)        
  3709.8 14 A   E     K    2+ 45 fs 15    3256.5 18 
  3709.0 20 
   36 4 
  100 11 


   453.84
     0.0
2+
0+
  3713.5 10   C            (2,3,4)     2526.3 15 
  3257.6 15 
 
 


  1189.60
   453.84
3-
2+
  3727 5           K    2+        
  3738.8 9   C       K    3-     2549.7 15 
  2695.4 15 
 
 


  1189.60
  1043.21
3-
4+
  3751.0 7     E     K    1- 16.7 fs 30    3297
  3751
   33 6 
  100 5 


   453.84
     0.0
2+
0+
  3753 4          J     (4+)        
  3762 5           K           
  3770    E          (2+,1)        
  3780.0 7     E     K    1 23 fs 4    3326
  3780
   13 4 
  100 5 


   453.84
     0.0
2+
0+
  3789 5           K           
  3794.8 7   C E          1 ≤ 21 fs   2604.8 15 
  3343.0 15 
  3793.7 15 
 
   44 10 
  100 5 



  1189.60
   453.84
     0.0
3-
2+
0+
  3813.3 9   C       K    3-     3359.8
  3811.6
 
 


   453.84
     0.0
2+
0+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  3827.6 9   C E     K    1(-)     3373.1 15 
  3828.4 15 
 
 


   453.84
     0.0
2+
0+
  3847 5           K           
  3866 5           K    (2+)        
  3875 5           K    (5-)        
  3884 5           K    (4+)        
  3893.0 7     E     K    1 15.2 fs 32    3439
  3893
   16 8 
  100


   453.84
     0.0
2+
0+
  3902.22 14              N 12+      497.5 1 
   778.4 1 
   37 5 
  100 5 
E1
E2
  3404.72
  3123.82
11-
10+
  3913 5           K    (3-)        
  3922 5           K    3-        
  3931 5           K           
  3939 5           K    (2+)        
  3949 5           K    (2+)        
  3958.12 16              N 12-      712.6 1 
  100
E2
  3245.52
10-
  3962.8 9   C                2773.8 15 
  2919.3 15 
 
 


  1189.60
  1043.21
3-
4+
  3975.0 7     E          1 17 fs 4    3521
  3975
   24 6 
  100 5 


   453.84
     0.0
2+
0+
  3993.72 14              N 12+      493.0 1 
   674.0 1 
  100 5 
   70 7 
E1
E2
  3500.72
  3319.72
11-
10+
  4006 6           K    (2+)        
  4014    E          (1)        
  4028.12 14             MN 13-      125.9 1 
   527.4 1 
   623.4 1 
    3.3 8 
    6.6 12 
  100 5 
E1
E2
E2
  3902.22
  3500.72
  3404.72
12+
11-
11-
  4039 6           K    (2+,3-)        
  4042    E          (1)        
  4054 6           K    (2+)        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  4066 6           K    (2+)        
  4121 6           K    (2+)        
  4138 6           K    (2+,3-)        
  4168 6           K    2+        
  4179 6           K    3-        
  4196 6           K    2+        
  4212 6           K    2+        
  4243 6           K    1-        
  4256 6           K    2+        
  4295.02 14              N 13-      301.3 1 
   794.3 1 
   890.3 1 
   73 5 
  100 5 
   27 4 
E1
E2
E2
  3993.72
  3500.72
  3404.72
12+
11-
11-
  4302 6           K    (4+)        
  4310 6           K    (1-)        
  4325 6           K    (4+)        
  4341 6           K    (2+,3-)        
  4380 6           K    (3-)        
  4388 6           K    (2+)        
  4404 6           K    4+        
  4411 6           K    (4+)        
  4422 6           K    (3-)        
  4442 6           K    3-        
  4454.3 9   C       K    (3-)     3265.9 15 
  3999.6 15 
 
 


  1189.60
   453.84
3-
2+
  4461 6           K    3-        
  4485.5 9   C       K    (3-)     3294.8 15 
  4033.1 15 
 
 


  1189.60
   453.84
3-
2+
  4501 7           K    (3-)        
  4517 7           K    (4+)        
  4533 7           K    (3-)        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  4545 7           K    4+        
  4558 7           K    (3-)        
  4571 7           K    (3-)        
  4591 7           K    (2+,3-)        
  4649 7           K    (3-)        
  4694.22 15              N 14+      399.2 1 
   700.5 1 
  100 5 
   48 4 
E1
E2
  4295.02
  3993.72
13-
12+
  4695.52 15              N 14+      667.4 1 
   793.3 1 
   96 5 
  100 5 
E1
E2
  4028.12
  3902.22
13-
12+
  4696 7           K    (3-)        
  4707 7           K    (3-)        
  4738 7           K    3-        
  4755 7           K    3-        
  4761.32 17              N 15-      733.2 1 
  100
E2
  4028.12
13-
  4765 7           K    2+        
  4786.72 19              N 14-      828.6 1 
  100
E2
  3958.12
12-
  4802 7           K    (3-)        
  4899 7           K    4+        
  4948.4 10   C       K    (2+)     3761.0 15 
  4946.3 15 
 
 


  1189.60
     0.0
3-
0+
  4964 7           K    (3-)        
  4982 7           K    3-        
  4997.3 9   C                3808.9 15 
  4996.2 15 
 
 


  1189.60
     0.0
3-
0+
  5057.92 15              N 15-      363.7 1 
   762.9 1 
  100 5 
  100 5 
E1
E2
  4694.22
  4295.02
14+
13-
  5115.7 9   C                3928.1 15 
  4070.7 15 
 
 


  1189.60
  1043.21
3-
4+
  5160.92 21              N 15+      374.2 1 
  100
E1
  4786.72
14-
  5297.9 3   C                4255.1 15 
  4844.4 15 
 
 


  1043.21
   453.84
4+
2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  5362.82 19              N 16+      601.5 1 
  100
(E1)
  4761.32
15-
  5389.7 8   C                4200.6 15 
  4343.4 15 
  4938.6 15 
 
 
 



  1189.60
  1043.21
   453.84
3-
4+
2+
  5460.52 16              N 16+      402.6 1 
   766.3 1 
  100 5 
   56 5 
E1
E2
  5057.92
  4694.22
15-
14+
  5559.02 19              N 17-      196.2 1 
   797.7 1 
   20 4 
  100 5 
E1
E2
  5362.82
  4761.32
16+
15-
  5612.42 21              N 16-      451.5 1 
   825.7 1 
   30 4 
  100 5 
E1
E2
  5160.92
  4786.72
15+
14-
  5899.72 20              N 18+      340.7 1 
   536.9 1 
   92 5 
  100 5 
E1
(E2)
  5559.02
  5362.82
17-
16+
  6202.52 20              N 19-      643.5 1 
  100
E2
  5559.02
17-
  6513.73 21              N 20+      311.2 1 
   614.0 1 
   51 4 
  100 5 
E1
E2
  6202.52
  5899.72
19-
18+
  6807.03 22              N (21-)      293.3 1 
  100
(E1)
  6513.73
20+
  7165.7 12     E          1- 0.37 fs 15    3891 3 
  4583 3 
  4701 3 
  4807 3 
  5383 3 
  5475 3 
  6709 3 
  7163 3 
    1 1 
    2 1 
    3 1 
    3 1 
    5 1 
    3 1 
   13 1 
  100







E1
  3275.9
  2583
  2459.97
  2355.95
  1787.30
  1697.23
   453.84
     0.0
1+
2+
(1,2+)
1+
2+
0+
2+
0+
  7364.23 22              N (22+)      557.2 1 
   850.5 1 
   24
  100
(E1)
(E2)
  6807.03
  6513.73
(21-)
20+
  7564.73 7   CD           3-,4-     2175.4 16 
  2266.8 3 
  2449.4 15 
  2567.8 15 
  2616.7 18 
  3079.7 17 
  3110.9 15 
  3602.2 15 
  3737.2 15 
  3752.3 15 
  3770.2 10 
  3826.2 15 
  3851.7 20 
  4092.5 17 
  4180.0 11 
  4317.8 15 
  4334.9 4 
  4354.8 20 
  4386.3 5 
  4392.6 5 
  4418.7 7 
  4473.4 3 
  4500.0 5 
  4522.4 5 
  4530.0 5 
  4551.4 4 
  4567.9 5 
  4595.0 3 
  4606.1 5 
  4634.0 5 
  4643.4 15 
  4658.9 6 
  4679.3 3 
  4694.0 3 
  4720.0 3 
  4761.6 5 
  4780.8 4 
  4814.5 5 
  4857.5 5 
  4903.8 3 
  4963.0 6 
  4975.1 3 
  4990.0 3 
  5002.5 5 
  5008.7 3 
  5011.9 2 
  5016.9 4 
  5036.3 3 
  5043.3 4 
  5048.3 3 
  5073.2 5 
  5079.3 5 
  5094.7 3 
  5125.8 5 
  5128.2 5 
  5131.0 5 
  5145.3 3 
  5207.6 2 
  5262.6 5 
  5272.8 15 
  5277.6 6 
  5333.7 7 
  5338.2 5 
  5344.8 5 
  5367.3 3 
  5397.3
  5443.5 15 
  5468.7 3 
  5492.3 4 
  5519.4
  5575.3 3 
  5587.45 38 
  5645.7 2 
  5656.2 19 
  5659.5
  5669.1 10 
  5680.0 5 
  5752.5 5 
  5777.4 2 
  5787.5 2 
  5796.1
  5818.3 3 
  6047.4
  6093.9 3 
  6375.0 3 
  6521.3 4 
  7110.8 3 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
















E1

E1
E1


E1
E1
E1
E1
E1

E1
E1

E1



E1
E1
E1
(E1)
E1
M1
E1
E1
E1
E1
E1
E1
E1
E1
M1
E1
E1
E1
E1
E1
M1
E1
E1
E1

E1
M1
E1
E1
E1


E1
M1

E1
E1
E1


M1
M1
M1
E1
E1

E1

E1
M1
E1
E1
  5389.7
  5297.9
  5115.7
  4997.3
  4948.4
  4485.5
  4454.3
  3962.8
  3827.6
  3813.3
  3794.8
  3738.8
  3713.5
  3472.6
  3384.9
  3246.9
  3229.8
  3210.3
  3178.81
  3172.1
  3145.4
  3091.3
  3064.7
  3042.5
  3034.7
  3013.3
  2996.5
  2970.32
  2958.6
  2930.4
  2923.3
  2905.7
  2885.4
  2870.6
  2844.6
  2803.4
  2783.8
  2750.1
  2707.1
  2660.88
  2602.20
  2590.26
  2574.30
  2561.93
  2555.80
  2552.20
  2546.72
  2528.4
  2521.55
  2516.28
  2491.45
  2484.2
  2469.68
  2437.58
  2435.34
  2433.6
  2419.3
  2356.85
  2302.1
  2292.2
  2286.42
  2231.4
  2226.05
  2220.03
  2197.49
  2167.97
  2119.84
  2096.13
  2072.80
  2045.70
  1989.32
  1978.36
  1918.91
  1911.0
  1905.58
  1895.5
  1884.7
  1811.9
  1787.30
  1777.43
  1769.3
  1745.15
  1517.58
  1470.63
  1189.60
  1043.21
   453.84




(2+)
(3-)
(3-)

1(-)
3-
1
3-
(2,3,4)
4+
(2,3,4)
2+:4+
3+,4+
4+
3+,(5+)
2+
2+
(2+,4+)
+
2+
(2)+
4+
3+,4+
2+

4+
5-
3+,4+
(4+)
2+
3-
2+,(3+)
(3+,4+)
5-
(3+,4+)
3+,4+
2-,3-
4+
2+
3+
3+,4+
2+
2+,(4+)
2+
2+:4+
2-
2+,3+
2+
2+,5+,(3+,4+)
2+
4+
(3-,4-)
2+:5+
4+
(2+:5+)

2+
3-
3+,4+
3+
2+
3-
2+
4+
3-
4-,5
4+
2+
4+

2+
(2:5)-
(2:4)-
(2,3)-
2+
3+
(2+,3-)
4+
5-
2+
3-
4+
2+

E(level): From a least-squares fit to Eγ, normalized χ2=1.26

T1/2(level): Deduced from Γγ0 in (γ,γ’) using adopted branching ratios, unless indicated otherwise.

E(γ): Weighted average of available Eγ’s from 146Pr β- decay, 145Nd(n,γ), 146Nd(n,n’γ) and 136Xe(13C,3nγ), except as noted

I(γ): From 146Pr β- decay, except as noted. The intensities of primary transitions in (n,γ) reactions, see the relevant data sets

M(γ): From DCO ratios. Stretched quadrupoles are assumed to be E2 as no lifetimes longer than 8 ns were observed (1996Ia01).

Back to top

Band Transitions:

E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - GROUND STATE band
     0.0 0+ STABLE      
   453.84 3  2+ 20.9 ps 9     453.84 3 
  100
E2
     0.0
0+
  1043.21 5  4+ 3.8 ps 10     589.40 6 
  100
E2
   453.84
2+
  1780.01 10  6+      262.5 10 
   736.8 1 
   11 1 
  100 5 
E1
E2
  1517.58
  1043.21
5-
4+
  2593.52 12  8+      564.1 1 
   813.5 1 
  100 20 
   51 10 
E1
E2
  2029.41
  1780.01
7-
6+
  3319.72 13  10+      613.5 1 
   726.2 1 
  100 5 
    3.1 8 
E1
E2
  2706.22
  2593.52
9-
8+
  3993.72 14  12+      493.0 1 
   674.0 1 
  100 5 
   70 7 
E1
E2
  3500.72
  3319.72
11-
10+
  4694.22 15  14+      399.2 1 
   700.5 1 
  100 5 
   48 4 
E1
E2
  4295.02
  3993.72
13-
12+
  5460.52 16  16+      402.6 1 
   766.3 1 
  100 5 
   56 5 
E1
E2
  5057.92
  4694.22
15-
14+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - octupole band
  1189.60 4  3- 0.62 ps +90-24       
  1517.58 8  5-      327.9 1 
   474.46 8 
    0.41 10 
  100 5 
E2
E1+(M2)
  1189.60
  1043.21
3-
4+
  2029.41 12  7-      249.4 10 
   511.9 10 
   79.8 4 
  100 5 
E1
E2
  1780.01
  1517.58
6+
5-
  2706.22 12  9-      112.7 1 
   676.8 1 
    2.0 5 
  100 5 
E1
E2
  2593.52
  2029.41
8+
7-
  3500.72 13  11-      181.0 1 
   794.5 1 
    8.9 25 
  100 5 
E1
E2
  3319.72
  2706.22
10+
9-
  4295.02 14  13-      301.3 1 
   794.3 1 
   890.3 1 
   73 5 
  100 5 
   27 4 
E1
E2
E2
  3993.72
  3500.72
  3404.72
12+
11-
11-
  5057.92 15  15-      363.7 1 
   762.9 1 
  100 5 
  100 5 
E1
E2
  4694.22
  4295.02
14+
13-
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - ΔJ=2, π=- CASCADE-1
  3404.72 13  11-        
  4028.12 14  13-      125.9 1 
   527.4 1 
   623.4 1 
    3.3 8 
    6.6 12 
  100 5 
E1
E2
E2
  3902.22
  3500.72
  3404.72
12+
11-
11-
  4761.32 17  15-      733.2 1 
  100
E2
  4028.12
13-
  5559.02 19  17-      196.2 1 
   797.7 1 
   20 4 
  100 5 
E1
E2
  5362.82
  4761.32
16+
15-
  6202.52 20  19-      643.5 1 
  100
E2
  5559.02
17-
  6807.03 22  (21-)      293.3 1 
  100
(E1)
  6513.73
20+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - ΔJ=2, π=+ CASCADE-1
  5362.82 19  16+        
  5899.72 20  18+      340.7 1 
   536.9 1 
   92 5 
  100 5 
E1
(E2)
  5559.02
  5362.82
17-
16+
  6513.73 21  20+      311.2 1 
   614.0 1 
   51 4 
  100 5 
E1
E2
  6202.52
  5899.72
19-
18+
  7364.23 22  (22+)      557.2 1 
   850.5 1 
   24
  100
(E1)
(E2)
  6807.03
  6513.73
(21-)
20+
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 5 - ΔJ=2, π=- CASCADE-2
  3245.52 13  10-        
  3958.12 16  12-      712.6 1 
  100
E2
  3245.52
10-
  4786.72 19  14-      828.6 1 
  100
E2
  3958.12
12-
  5612.42 21  16-      451.5 1 
   825.7 1 
   30 4 
  100 5 
E1
E2
  5160.92
  4786.72
15+
14-
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 6 - ΔJ=2, π=+ CASCADE-2
  2474.52 11  8+        
  3123.82 12  10+      417.6 1 
   649.3 1 
   51 5 
  100 5 
E1
E2
  2706.22
  2474.52
9-
8+
  3902.22 14  12+      497.5 1 
   778.4 1 
   37 5 
  100 5 
E1
E2
  3404.72
  3123.82
11-
10+
  4695.52 15  14+      667.4 1 
   793.3 1 
   96 5 
  100 5 
E1
E2
  4028.12
  3902.22
13-
12+

Back to top

Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   453.84 2+ 20.9 ps 9     453.84 3 E2 0.01535B(E2)(W.u.)=31.9 4, α=0.01535
  1043.21 4+ 3.8 ps 10     589.40 6 E2 0.00765B(E2)(W.u.)=43 11, α=0.00765
  1189.60 3- 0.62 ps +90-24     735.77 4 E1+(M2)-0.07 20.00175B(E1)(W.u.)=0.0009 +4-9, B(M2)(W.u.)=19 +17-19, α=0.00175 5
  1376.78 1- 63 fs 13     922.87 8 E1+(M2)+0.05 40.00111B(E1)(W.u.)=0.0018 5, B(M2)(W.u.)=24 +38-24, α=0.00111 6
1- 63 fs 13    1376.69 10 E1 6.49×10-4B(E1)(W.u.)=0.00095 23, α=6.49E-4
  1470.63 2+ 0.32 ps 19    1016.67 10 M1+E2-0.25 40.00220B(E2)(W.u.)≈19, B(M1)(W.u.)≈0.0013, α=0.00220 4
2+ 0.32 ps 19    1470.60 12 E2 1.09×10-3B(E2)(W.u.)≈3.0, α=1.09E-3
  1517.58 5-      327.9 1 E2 0.0398α=0.0398
5-      474.46 8 E1+(M2)+0.03 20.00450α=0.00450 13
  1602.64 0+     1148.8 1 E2 1.68×10-3α=1.68×10-3
  1745.15 4+      555.58 16 E1+(M2)-0.02 40.00311α=0.00311 11
4+      701.9 2 M1+E2-0.23 100.00776α=0.00776 18
4+     1291.85 23 E2 1.34×10-3α=1.34×10-3
  1777.43 3+      588.2 9 E1+(M2) 0.014α=0.014 12
3+      736.0 10 M1+E2 0.0045α=0.0045 3
3+     1323.43 15 M1+E2 0.00131α=0.00131 10
  1780.01 6+      262.5 10 E1 0.0191α=0.0191 4
6+      736.8 1 E2 0.00443α=0.00443
  1787.30 2+     1333.33 16 M1+E2-0.59 +10-120.00164α=0.00164 5
2+     1787.27 15 E2 9.01×10-4α=9.01×10-4
  1905.58 2+     1451.78 12 M1+E2-0.37 90.00145α=0.00145 3
  1918.91 4+      875.7 1 M1+(E2)+0.03 +16-110.00464α=0.00464 9
4+     1465.04 12 E2 1.10×10-3α=1.10×10-3
  1978.36 2+      788.88 19 E1+(M2)+0.06 40.00153α=0.00153 10
2+     1524.72 24 M1+E2-0.07 40.00136α=0.00136 3
2+     1977.55 21 E2 8.68×10-4α=8.68×10-4
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  1989.32 4+      946.14 9 M1+E2-0.14 70.00383α=0.00383 7
4+     1535.28 19 E2 1.03×10-3α=1.03×10-3
  2029.41 7-      249.4 10 E1 0.0218α=0.0218 4
7-      511.9 10 E2 0.01105α=0.01105
  2072.80 3-      883.14 9 M1+E2-0.14 30.0034α=0.0034 8
3-     1030.4 6 (E1) 8.84×10-4α=8.84×10-4
  2083.51 (6+)     1040.3 1 (E2) 0.00206α=0.00206
  2096.13 4+      906.55 15 E1+(M2)+0.08 20.00119α=0.00119 4
4+     1052.95 15 M1+E2-0.71 40.00267α=0.00267 5
  2119.84 2+     2119.9 2 E2 8.66×10-4α=8.66×10-4
  2143.56 2+     1689.5 3 M1+E2-0.48 31.13×10-3α=1.13×10-3 2
  2197.49 2+     1743.8 3 M1+E2+2.9 49.39×10-4α=9.39×10-4 15
  2208.31 2+     2208.4 3 E2 8.72×10-4α=8.72×10-4
  2220.03 3+     1176.7 2 M1+E2+3.3 +15-90.00166α=0.00166 6
3+     1766.39 21 M1+E2+0.56 +18-109.08×10-4α=9.08×10-4
  2226.05 3+,4+     1182.6 5 M1+E2-0.35 50.00222α=0.00222
  2265.97 2+     1812.10 24 M1+E2 0.00099α=0.00099 10
  2286.42 2+     1243.19 10 E2 1.44×10-3α=1.44×10-3
2+     1832.6 5 M1+E2-0.19 31.07×10-3α=1.07×10-3 2
  2335.52 7-      306.1 1 M1+E2 0.0582α=0.0582 12
7-      555.5 1 E1 0.00311α=0.00311
  2335.65 3-     1881.8 2 E1(+M2)-0.02 48.10×10-4α=8.10×10-4
  2356.85 4+     1167.2 2 E1(+M2) 0.00072α=0.00072 13
4+     1313.51 17 M1+E20.47 50.00173α=0.00173 3
  2435.34 4+      657.6 4 M1+E2+0.61 100.0083α=0.0083 3
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  2437.58 2+     1983.4 6 M1+E2+0.18 21.02×10-3α=1.02×10-3
  2457.06 2+     2002.95 21 M1+E2+1.6 +4-50.00091α=0.00091 3
  2474.52 8+      391.0 1 (E2) 0.0235α=0.0235
8+      445.1 1 E1 0.00515α=0.00515
8+      694.5 1 E2 0.00510α=0.00510
  2491.45 2+,3+ 0.18 ps +6-4    2037.4 3 M1+E2 1.00×10-3α=1.00×10-3 2
  2516.28 2-     1139.47 21 M1+E20.28 20.00244α=0.00244
  2552.20 2+     1363.5 3 E1+M2 0.0012α=0.0012 3
2+     1509.5 5 (E2) 1.06×10-3α=1.06×10-3
  2561.93 3+     2108.05 25 M1+E2 9.99×10-4α=9.99×10-4
  2593.52 8+      564.1 1 E1 0.00300α=0.00300
8+      813.5 1 E2 0.00353α=0.00353
  2610.9 0+     1234.0 5 (E1) 6.80×10-4α=6.80×10-4
0+     2157.1 5 (E2) 8.68×10-4α=8.68×10-4
  2628.5 (8+)      848.5(E2) 0.00321α=0.00321
  2681.24 1- 0.083 ps 32    2681.35 25 E1 1.20×10-3B(E1)(W.u.)=8.E-5 3, α=1.20E-3
  2706.22 9-      112.7 1 E1 0.187α=0.187
9-      676.8 1 E2 0.00543α=0.00543
  2756.9 1- 5.3 fs 14    2757.2 6 E1 1.24×10-3B(E1)(W.u.)=0.00068 18, α=1.24E-3
  2855.3 2+     1665.5 5 (E1) 7.17×10-4α=7.17×10-4
2+     2401.5 5 E2 8.96×10-4α=8.96×10-4
2+     2855.4 5 E2 9.96×10-4α=9.96×10-4
  2885.4 (4+)     1842.4 5 (E2) 8.87×10-4α=8.87×10-4
  2905.7 3+,4+     1862.4 5 (E2) 8.83×10-4α=8.83×10-4
  2913.55 3     1169.0 3 D+(Q)+0.06 10 
3     2459.5 2 D+(Q)-0.03 4 
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  3109.02 9-      634.5 1 E1 0.00233α=0.00233
9-      773.5 1 E2 0.00396α=0.00396
  3123.82 10+      417.6 1 E1 0.00599α=0.00599
10+      649.3 1 E2 0.00601α=0.00601
  3178.81 3+,(5+)     2135.3 3 M1+E2 0.00092α=0.00092 6
  3245.52 10-      136.5 1 M1+E2 0.629α=0.629 11
10-      539.3 1 M1+E2 0.012α=0.012 3
  3319.72 10+      613.5 1 E1 0.00250α=0.00250
10+      726.2 1 E2 0.00459α=0.00459
  3404.72 11-      159.2 1 M1+E2 0.404α=0.404 24
11-      280.9 1 E1 0.01604α=0.01604
11-      698.5 1 E2 0.00503α=0.00503
  3500.72 11-      181.0 1 E1 0.0513α=0.0513
11-      794.5 1 E2 0.00372α=0.00372
  3902.22 12+      497.5 1 E1 0.00398α=0.00398
12+      778.4 1 E2 0.00390α=0.00390
  3958.12 12-      712.6 1 E2 0.00480α=0.00480
  3993.72 12+      493.0 1 E1 0.00407α=0.00407
12+      674.0 1 E2 0.00548α=0.00548
  4028.12 13-      125.9 1 E1 0.1380α=0.1380
13-      527.4 1 E2 0.01021α=0.01021
13-      623.4 1 E2 0.00664α=0.00664
  4295.02 13-      301.3 1 E1 0.01341α=0.01341
13-      794.3 1 E2 0.00373α=0.00373
13-      890.3 1 E2 0.00288α=0.00288
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
  4694.22 14+      399.2 1 E1 0.00668α=0.00668
14+      700.5 1 E2 0.00500α=0.00500
  4695.52 14+      667.4 1 E1 0.00209α=0.00209
14+      793.3 1 E2 0.00374α=0.00374
  4761.32 15-      733.2 1 E2 0.00449α=0.00449
  4786.72 14-      828.6 1 E2 0.00338α=0.00338
  5057.92 15-      363.7 1 E1 0.00837α=0.00837
15-      762.9 1 E2 0.00409α=0.00409
  5160.92 15+      374.2 1 E1 0.00781α=0.00781
  5362.82 16+      601.5 1 (E1) 0.00261α=0.00261
  5460.52 16+      402.6 1 E1 0.00654α=0.00654
16+      766.3 1 E2 0.00405α=0.00405
  5559.02 17-      196.2 1 E1 0.0413α=0.0413
17-      797.7 1 E2 0.00369α=0.00369
  5612.42 16-      451.5 1 E1 0.00498α=0.00498
16-      825.7 1 E2 0.00341α=0.00341
  5899.72 18+      340.7 1 E1 0.00984α=0.00984
18+      536.9 1 (E2) 0.00974α=0.00974
  6202.52 19-      643.5 1 E2 0.00614α=0.00614
  6513.73 20+      311.2 1 E1 0.01235α=0.01235
20+      614.0 1 E2 0.00690α=0.00690
  6807.03 (21-)      293.3 1 (E1) 0.01436α=0.01436
  7364.23 (22+)      557.2 1 (E1) 0.00309α=0.00309
(22+)      850.5 1 (E2) 0.00319α=0.00319
  7564.73 3-,4-     4334.9 4 E1 0.00187α=0.00187
3-,4-     4386.3 5 E1 0.00188α=0.00188
3-,4-     4392.6 5 E1 0.00189α=0.00189
3-,4-     4500.0 5 E1 0.00192α=0.00192
3-,4-     4522.4 5 E1 0.00193α=0.00193
3-,4-     4530.0 5 E1 0.00193α=0.00193
3-,4-     4551.4 4 E1 0.00194α=0.00194
3-,4-     4567.9 5 E1 0.00194α=0.00194
3-,4-     4606.1 5 E1 0.00196α=0.00196
3-,4-     4634.0 5 E1 0.00196α=0.00196
3-,4-     4658.9 6 E1 0.00197α=0.00197
3-,4-     4761.6 5 E1 0.00201α=0.00201
3-,4-     4780.8 4 E1 0.00201α=0.00201
3-,4-     4814.5 5 E1 0.00202α=0.00202
3-,4-     4857.5 5 (E1) 0.00204α=0.00204
3-,4-     4903.8 3 E1 0.00205α=0.00205
3-,4-     4963.0 6 M1 1.72×10-3α=1.72×10-3
3-,4-     4975.1 3 E1 0.00207α=0.00207
3-,4-     4990.0 3 E1 0.00207α=0.00207
3-,4-     5002.5 5 E1 0.00208α=0.00208
3-,4-     5008.7 3 E1 0.00208α=0.00208
3-,4-     5011.9 2 E1 0.00208α=0.00208
3-,4-     5016.9 4 E1 0.00208α=0.00208
3-,4-     5036.3 3 E1 0.00208α=0.00208
3-,4-     5043.3 4 E1 0.00209α=0.00209
3-,4-     5048.3 3 M1 1.74×10-3α=1.74×10-3
3-,4-     5073.2 5 E1 0.00210α=0.00210
3-,4-     5079.3 5 E1 0.00210α=0.00210
3-,4-     5094.7 3 E1 0.00210α=0.00210
3-,4-     5125.8 5 E1 0.00211α=0.00211
3-,4-     5128.2 5 E1 0.00211α=0.00211
3-,4-     5131.0 5 M1 1.76×10-3α=1.76×10-3
3-,4-     5145.3 3 E1 0.00212α=0.00212
3-,4-     5207.6 2 E1 0.00213α=0.00213
3-,4-     5262.6 5 E1 0.00215α=0.00215
3-,4-     5277.6 6 E1 0.00215α=0.00215
3-,4-     5333.7 7 M1 0.00182α=0.00182
3-,4-     5338.2 5 E1 0.00217α=0.00217
3-,4-     5344.8 5 E1 0.00217α=0.00217
3-,4-     5367.3 3 E1 0.00218α=0.00218
3-,4-     5468.7 3 E1 0.00221α=0.00221
3-,4-     5492.3 4 M1 0.00186α=0.00186
3-,4-     5575.3 3 E1 0.00224α=0.00224
3-,4-     5587.45 38 E1 0.00224α=0.00224
3-,4-     5645.7 2 E1 0.00226α=0.00226
3-,4-     5669.1 10 M1 0.00191α=0.00191
3-,4-     5680.0 5 M1 0.00191α=0.00191
3-,4-     5752.5 5 M1 0.00193α=0.00193
3-,4-     5777.4 2 E1 0.00230α=0.00230
3-,4-     5787.5 2 E1 0.00230α=0.00230
3-,4-     5818.3 3 E1 0.00231α=0.00231

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     0.00+ STABLE E(level): GROUND STATE band.
   453.842+ 20.9 ps 9  E(level): GROUND STATE band.
  1043.214+ 3.8 ps 10  E(level): GROUND STATE band.
  1189.603- 0.62 ps +90-24  B(E3)=0.352 21 from (e,e’) (1993Sa07). Others: from Coulomb excitation, 0.26 3, (1970Ch14), 0.21 4 (1967BuZX), 0.41 18 (1963Ha20).
E(level): B(E3)=0.352 21 from (e,e’) (1993Sa07). Others: from Coulomb excitation, 0.26 3, (1970Ch14), 0.21 4 (1967BuZX), 0.41 18 (1963Ha20). octupole band.
  1517.585-   E(level): octupole band.
  1697.230+   XREF: H(1693).
  1780.016+   E(level): GROUND STATE band.
  20271-   XREF: I(2030).
  2029.417-   E(level): octupole band.
  2083.51(6+)   Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  2167.973-   XREF: K(2171).
  2231.43-   XREF: K(2227).
  22691-   XREF: I(2275).
  2335.527-   Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  2335.653-   B(E3)=0.051 7 (1993Sa07)
XREF: I(2339).
  2474.528+   E(level): ΔJ=2, π=+ CASCADE-2.
  25832+   Jπ(level): From (p,t) (1996Po12).
  2593.528+   E(level): GROUND STATE band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  2641(1-)   Jπ(level): From (p,t) (1996Po12).
  2706.229-   E(level): octupole band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  27290+   XREF: H(2739).
Jπ(level): From (p,t) (1996Po12).
  2756.91- 5.3 fs 14  Jπ(level): From γ(θ) and pol in (γ,γ’).
  28200+   Jπ(level): From (p,t) (1996Po12).
  2829.91- 67 fs 12  Jπ(level): From γ(θ) and pol in (γ,γ’).
  28563-   B(E3)=0.02 (1993Sa07)
Jπ(level): From (p,t) (1996Po12).
E(level)Jπ(level)T1/2(level)Comments
  2885.4(4+)   XREF: J(2887).
  2923.35-   XREF: I(2915)J(2916).
  29450+   Jπ(level): From (p,t) (1996Po12).
  2958.6   E(level): Uncertain isotopic identification in (n,γ), En=0.2-0.5 keV.
  30001   Jπ(level): From γ(θ) and pol in (γ,γ’).
  3013.34+   XREF: J(3018).
  30280+   Jπ(level): From (p,t) (1996Po12).
  3034.7(2)+   XREF: K(3039).
E(level): Uncertain isotopic identification in (n,γ), En=0.2-0.5 keV.
  3042.52+   XREF: K(3047).
  3064.7+   E(level): Uncertain isotopic identification in (n,γ), En=0.2-0.5 keV.
  3109.029-   Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  3123.8210+   E(level): ΔJ=2, π=+ CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  31261-   Jπ(level): From (p,t) (1996Po12).
  3172.12+   XREF: K(3178).
E(level): Uncertain isotopic identification in (n,γ), En=0.2-0.5 keV.
  32202+   Jπ(level): From (p,t) (1996Po12).
  3229.83+,4+   E(level): Uncertain isotopic identification in (n,γ), En=0.2-0.5 keV.
  32362+   Jπ(level): From (p,t) (1996Po12).
  3245.5210-   E(level): ΔJ=2, π=- CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  3275.91+ 22.4 fs 34  Jπ(level): From γ(θ) and pol in (γ,γ’).
  3292.201 12.7 fs 31  Jπ(level): From γ(θ) and pol in (γ,γ’).
  3319.7210+   E(level): GROUND STATE band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  3404.7211-   E(level): ΔJ=2, π=- CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  3411.01+ 8.5 fs 13  Jπ(level): From γ(θ) and pol in (γ,γ’).
  3429.01 32 fs 7  Jπ(level): From γ(θ) and pol in (γ,γ’).
  34432+   Jπ(level): From (p,t) (1996Po12).
E(level)Jπ(level)T1/2(level)Comments
  3451(2+,1)   Jπ(level): From γ(θ) and pol in (γ,γ’).
  34683-   Jπ(level): From (p,t) (1996Po12).
  34965-   XREF: J(3503).
  3500.7211-   E(level): octupole band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  35213-   Jπ(level): From (p,t) (1996Po12).
  3534.11-   Jπ(level): From (p,t) (1996Po12).
  35462+   XREF: J(3539).
  35585-   XREF: J(3567).
Jπ(level): From (p,t) (1996Po12).
  35692+   Jπ(level): From (p,t) (1996Po12).
  3577.01(+) 7.0 fs 12  Jπ(level): From γ(θ) and pol in (γ,γ’).
  36014+   Jπ(level): From (p,t) (1996Po12).
  36165-   XREF: K(3610).
  3634.01 25 fs 5  Jπ(level): From γ(θ) and pol in (γ,γ’).
  36675-   XREF: J(3676).
  3670(2+)   Jπ(level): From (p,t) (1996Po12).
  3692(5-)   Jπ(level): From (p,t) (1996Po12).
  3701(2+)   Jπ(level): From (p,t) (1996Po12).
  3709.82+ 45 fs 15  Jπ(level): From (p,t) (1996Po12).
  37272+   Jπ(level): From (p,t) (1996Po12).
  3738.83-   Jπ(level): From (p,t) (1996Po12).
  3751.01- 16.7 fs 30  Jπ(level): From γ(θ) and pol in (γ,γ’).
  3770(2+,1)   Jπ(level): From γ(θ) and pol in (γ,γ’).
  3780.01 23 fs 4  XREF: K(3782).
Jπ(level): From γ(θ) and pol in (γ,γ’).
  3794.81 ≤ 21 fs Jπ(level): From γ(θ) and pol in (γ,γ’).
  3813.33-   Jπ(level): From (p,t) (1996Po12).
E(level)Jπ(level)T1/2(level)Comments
  3827.61(-)   XREF: K(3830).
Jπ(level): From γ(θ) and pol in (γ,γ’).
  3866(2+)   Jπ(level): From (p,t) (1996Po12).
  3875(5-)   Jπ(level): From (p,t) (1996Po12).
  3884(4+)   Jπ(level): From (p,t) (1996Po12).
  3893.01 15.2 fs 32  Jπ(level): From γ(θ) and pol in (γ,γ’).
  3902.2212+   E(level): ΔJ=2, π=+ CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  3913(3-)   Jπ(level): From (p,t) (1996Po12).
  39223-   Jπ(level): From (p,t) (1996Po12).
  3939(2+)   Jπ(level): From (p,t) (1996Po12).
  3949(2+)   Jπ(level): From (p,t) (1996Po12).
  3958.1212-   E(level): ΔJ=2, π=- CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  3975.01 17 fs 4  Jπ(level): From γ(θ) and pol in (γ,γ’).
  3993.7212+   E(level): GROUND STATE band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  4006(2+)   Jπ(level): From (p,t) (1996Po12).
  4014(1)   Jπ(level): From γ(θ) and pol in (γ,γ’).
  4028.1213-   E(level): ΔJ=2, π=- CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  4039(2+,3-)   Jπ(level): From (p,t) (1996Po12).
  4042(1)   Jπ(level): From γ(θ) and pol in (γ,γ’).
  4054(2+)   Jπ(level): From (p,t) (1996Po12).
  4066(2+)   Jπ(level): From (p,t) (1996Po12).
  4121(2+)   Jπ(level): From (p,t) (1996Po12).
  4138(2+,3-)   Jπ(level): From (p,t) (1996Po12).
  41682+   Jπ(level): From (p,t) (1996Po12).
  41793-   Jπ(level): From (p,t) (1996Po12).
  41962+   Jπ(level): From (p,t) (1996Po12).
E(level)Jπ(level)T1/2(level)Comments
  42122+   Jπ(level): From (p,t) (1996Po12).
  42431-   Jπ(level): From (p,t) (1996Po12).
  42562+   Jπ(level): From (p,t) (1996Po12).
  4295.0213-   E(level): octupole band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  4302(4+)   Jπ(level): From (p,t) (1996Po12).
  4310(1-)   Jπ(level): From (p,t) (1996Po12).
  4325(4+)   Jπ(level): From (p,t) (1996Po12).
  4341(2+,3-)   Jπ(level): From (p,t) (1996Po12).
  4380(3-)   Jπ(level): From (p,t) (1996Po12).
  4388(2+)   Jπ(level): From (p,t) (1996Po12).
  44044+   Jπ(level): From (p,t) (1996Po12).
  4411(4+)   Jπ(level): From (p,t) (1996Po12).
  4422(3-)   Jπ(level): From (p,t) (1996Po12).
  44423-   Jπ(level): From (p,t) (1996Po12).
  4454.3(3-)   Jπ(level): From (p,t) (1996Po12).
  44613-   Jπ(level): From (p,t) (1996Po12).
  4485.5(3-)   XREF: K(4491).
Jπ(level): From (p,t) (1996Po12).
  4501(3-)   Jπ(level): From (p,t) (1996Po12).
  4517(4+)   Jπ(level): From (p,t) (1996Po12).
  4533(3-)   Jπ(level): From (p,t) (1996Po12).
  45454+   Jπ(level): From (p,t) (1996Po12).
  4558(3-)   Jπ(level): From (p,t) (1996Po12).
  4571(3-)   Jπ(level): From (p,t) (1996Po12).
  4591(2+,3-)   Jπ(level): From (p,t) (1996Po12).
  4649(3-)   Jπ(level): From (p,t) (1996Po12).
E(level)Jπ(level)T1/2(level)Comments
  4694.2214+   E(level): GROUND STATE band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  4695.5214+   E(level): ΔJ=2, π=+ CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  4696(3-)   Jπ(level): From (p,t) (1996Po12).
  4707(3-)   Jπ(level): From (p,t) (1996Po12).
  47383-   Jπ(level): From (p,t) (1996Po12).
  47553-   Jπ(level): From (p,t) (1996Po12).
  4761.3215-   E(level): ΔJ=2, π=- CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  47652+   Jπ(level): From (p,t) (1996Po12).
  4786.7214-   E(level): ΔJ=2, π=- CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  4802(3-)   Jπ(level): From (p,t) (1996Po12).
  48994+   Jπ(level): From (p,t) (1996Po12).
  4964(3-)   Jπ(level): From (p,t) (1996Po12).
  49823-   Jπ(level): From (p,t) (1996Po12).
  5057.9215-   E(level): octupole band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  5160.9215+   Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  5362.8216+   E(level): Not used in least-square procedure as poor fit of Eγ. ΔJ=2, π=+ CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  5460.5216+   E(level): GROUND STATE band.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  5559.0217-   E(level): ΔJ=2, π=- CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  5612.4216-   E(level): ΔJ=2, π=- CASCADE-2.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  5899.7218+   E(level): Not used in least-square procedure as poor fit of Eγ. ΔJ=2, π=+ CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  6202.5219-   E(level): ΔJ=2, π=- CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  6513.7320+   E(level): Not used in least-square procedure as poor fit of Eγ. ΔJ=2, π=+ CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  6807.03(21-)   E(level): ΔJ=2, π=- CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
  7165.71- 0.37 fs 15  Jπ(level): From γ(θ) and pol in (γ,γ’).
  7364.23(22+)   E(level): Not used in least-square procedure as poor fit of Eγ. ΔJ=2, π=+ CASCADE-1.
Jπ(level): From DCO values (multipolarity), and analysis of common sequence of levels connected by ΔJ=2 transitions and comparison with calculations in 136Xe(13C,3nγ).
E(level)Jπ(level)T1/2(level)Comments
  7564.733-,4-   E(level): Thermal neutron capture state.

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Additional Gamma Comments:

E(level)E(gamma)Comments
   915.4   461.6E(γ): From 146Pr β- decay
  1303.2   849.1E(γ): From 146Pr β- decay
  1303.4E(γ): From 146Pr β- decay
  1470.63  1016.67I(γ): From 145Nd(n,γ), E=thermal
  1470.60I(γ): From 145Nd(n,γ), E=thermal
  1517.58   327.9I(γ): From 136Xe(13C,3nγ)
   474.46I(γ): From 136Xe(13C,3nγ)
  1602.64  1148.8E(γ): From 146Nd(n,n’γ)
  1697.23  1243.42E(γ): From 146Pr β- decay
  1745.15   555.58I(γ): From 136Xe(13C,3nγ)
   701.9I(γ): From 136Xe(13C,3nγ)
  1291.85I(γ): From 136Xe(13C,3nγ)
  1769.3   725.6E(γ): From 145Nd(n,γ), E=thermal
  1777.43   588.2I(γ): Other: 12.9 26 in 146Pr β- decay. From 145Nd(n,γ), E=thermal
   736.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1323.43I(γ): From 145Nd(n,γ), E=thermal
  1780.01   262.5I(γ): From 136Xe(13C,3nγ)
   736.8I(γ): From 136Xe(13C,3nγ)
  1911.0   721.6E(γ): From 145Nd(n,γ), E=thermal
  1918.91   448.4I(γ): From 145Nd(n,γ), E=thermal
   730.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   875.7I(γ): From 145Nd(n,γ), E=thermal
  1465.04I(γ): From 145Nd(n,γ), E=thermal
  1978.36   191.2E(γ): From 145Nd(n,γ), E=thermal
   508.0E(γ): From 145Nd(n,γ), E=thermal
  1524.72M(γ): second value δ=2.8 4, other:+0.03 3 from γγ(q) (1978Ik03).
  1977.55E(γ): poor fit, energy level difference between corresponding levels equals 1978.34 6. Not used in least-square procedure as poor fit of Eγ
E(level)E(gamma)Comments
  1989.32   218.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   474.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   800.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   946.14I(γ): From 145Nd(n,γ), E=thermal
  1535.28I(γ): From 145Nd(n,γ), E=thermal
  2029.41   249.4I(γ): From 136Xe(13C,3nγ)
   511.9I(γ): From 136Xe(13C,3nγ)
  2045.70   528.3E(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
I(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
  1002.45I(γ): From 145Nd(n,γ), E=thermal
  2072.80   883.14I(γ): From 146Nd(n,n’γ)
  1030.4E(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
I(γ): Multiply placed with undivided intensity. From 146Nd(n,n’γ)
  2083.51  1040.3E(γ): From 136Xe(13C,3nγ)
  2096.13   906.55I(γ): From 146Nd(n,n’γ)
  1052.95I(γ): From 146Nd(n,n’γ)
  1642.4E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2119.84  1665.4I(γ): From 146Nd(n,n’γ)
  2119.9I(γ): From 146Nd(n,n’γ)
  2143.56   446.4E(γ): From 146Pr β- decay
   766.4E(γ): From 146Pr β- decay
   954.0E(γ): From 146Pr β- decay
  2148.95   772.1E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  1696.1E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2148.8I(γ): From 146Nd(n,n’γ)
  2167.97   380.9E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   650.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1124.78I(γ): From 145Nd(n,γ), E=thermal
E(level)E(gamma)Comments
  2220.03   314.4E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  1030.4E(γ): Multiply placed with undivided intensity. From 146Nd(n,n’γ)
I(γ): Multiply placed with undivided intensity. From 146Nd(n,n’γ)
  1176.7E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
M(γ): second value δ=0.44 12 (1983Al12).
  1766.39I(γ): From 146Nd(n,n’γ)
  2226.05  1036.59I(γ): From 146Nd(n,n’γ)
  1182.6I(γ): From 146Nd(n,n’γ)
  1771.6E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2265.97  1812.10I(γ): From 146Nd(n,n’γ)
M(γ): δ=0.40 +?-16, second value δ=0.95 +35-? (1983Al12).
  2266.0I(γ): From 146Nd(n,n’γ)
  2286.42  1243.19I(γ): From 146Nd(n,n’γ)
  1832.6I(γ): From 146Nd(n,n’γ)
  2292.2  1103.6E(γ): From 145Nd(n,γ), E=thermal
  1248.4E(γ): From 145Nd(n,γ), E=thermal
  2302.1   525.1E(γ): From 145Nd(n,γ), E=thermal
  2310.6   565.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1268.5E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2324.88   807.3E(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
I(γ): Multiply placed with undivided intensity
  2335.52   306.1E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   555.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  2335.65  1881.8M(γ): from (n,n’γ) (1994YaZT)
  2355.95   979.1E(γ): placement from 1983Al12. May be doubtful. Not seen in β- decay.. From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  1902.03E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2356.3I(γ): From 146Nd(n,n’γ)
M(γ): from A2=-0.140 38, A4=-0.015 47 (1983Al12)
  2356.85  1167.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1313.51I(γ): From 145Nd(n,γ), E=thermal
M(γ): from A2=+0.395 46, A4=+0.062 57; (1983Al12).
  1903.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
E(level)E(gamma)Comments
  2433.6  1243.9E(γ): From 145Nd(n,γ), E=thermal
  2435.34   657.6I(γ): From 145Nd(n,γ), E=thermal
  1392.0I(γ): From 145Nd(n,γ), E=thermal
  1981.4E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2457.06   248.8E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  1081.0E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2002.95E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2459.97   481.5E(γ): From 146Pr β- decay
  2005.5E(γ): From 146Pr β- decay
  2460.1E(γ): From 146Pr β- decay
  2469.68   724.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1426.36I(γ): From 145Nd(n,γ), E=thermal
  2474.52   391.0E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   445.1I(γ): From 136Xe(13C,3nγ)
   694.5I(γ): From 136Xe(13C,3nγ)
  2479.2  1436.0E(γ): From 145Nd(n,γ), E=thermal
  2484.2  2030.0E(γ): From 145Nd(n,γ), E=thermal
  2491.45  1301.5E(γ): From 145Nd(n,γ), E=thermal
  1448.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2037.4I(γ): From 145Nd(n,γ), E=thermal
M(γ): from A2=-0.206 78, A4=+0.111 165; δ=-0.85 +47-? (J=2), δ=+0.01 +13-? (J=3) (1983Al12); 2+,3+|)2+ transition.
  2516.28  1139.47I(γ): From 145Nd(n,γ), E=thermal
M(γ): from A2=+0.181 23, A4=+0.004 26; (1983Al12).
  2517.3E(γ): poor fit, energy level difference between corresponding levels equals 2516.26 18. From 145Nd(n,γ), E=thermal. Not used in least-square procedure as poor fit of Eγ
  2521.55   775.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1332.3E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1478.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2066.0E(γ): From 145Nd(n,γ), E=thermal
E(level)E(gamma)Comments
  2528.4   716.8E(γ): From 145Nd(n,γ), E=thermal
  2546.72  1169.5E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1502.9E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2552.20   479.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   765.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   774.4E(γ): From 146Pr β- decay
   807.3E(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
I(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
  1081.23I(γ): From 145Nd(n,γ), E=thermal
  1363.5I(γ): From 145Nd(n,γ), E=thermal
  2098.0I(γ): From 145Nd(n,γ), E=thermal
  2555.80   565.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   578.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2561.93   677.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2108.05I(γ): From 145Nd(n,γ), E=thermal
M(γ): from A2=-0.507 356, A4=+0.144 336; δ=-0.27 +33-?, 3+|)2+ transition (1983Al12).
  2574.30   584.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2120.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2590.26  1073.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2136.7E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2593.52   564.1E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   813.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  2597.9  2144E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  2598E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  2602.20   528.3E(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
I(γ): Multiply placed with undivided intensity. From 145Nd(n,γ), E=thermal
  1412.7E(γ): From 145Nd(n,γ), E=thermal
  2149.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
E(level)E(gamma)Comments
  2610.9  1234.0E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2157.1E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2660.88   565.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
   883.3E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1190.8E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2207.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2663.3   894.0E(γ): From 145Nd(n,γ), E=thermal
  2681.24  2227.25E(γ): From 146Pr β- decay
  2681.35E(γ): From 146Pr β- decay
M(γ): from γ(θ), T1/2 in (n,n’γ) (1995Di06)
  2705.80   562.10E(γ): From 146Pr β- decay
   727.20E(γ): From 146Pr β- decay
   928.15E(γ): From 146Pr β- decay
  1235.25E(γ): From 146Pr β- decay
  1329.0E(γ): From 146Pr β- decay
  1515.9E(γ): From 146Pr β- decay
  2252.13E(γ): From 146Pr β- decay
  2706.22   112.7E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   676.8E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  2710.8  1193.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2756.9  1286.2E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2302.9E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2757.2E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2803.4  1059.4E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1426.7E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2829.9  2376E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  2830E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
E(level)E(gamma)Comments
  2855.3  1665.5E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2401.5E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2855.4E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2885.4  1842.4E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
  2905.7  1862.4E(γ): From (n,n’γ) (1994YaZT). From 146Nd(n,n’γ)
  2913.55  1169.0E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  1869.8E(γ): From 146Nd(n,n’γ)
  2459.5E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  2923.3  1732.1E(γ): From 145Nd(n,γ), E=thermal
  1880.5E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2930.4  1739.6E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2476.6E(γ): From 145Nd(n,γ), E=thermal
  2970.32  1183.1E(γ): From 145Nd(n,γ), E=thermal
  1500.0E(γ): From 145Nd(n,γ), E=thermal
  1593.9E(γ): From 145Nd(n,γ), E=thermal
  2517.3E(γ): From 145Nd(n,γ), E=thermal
  2996.5  1805.0E(γ): From 145Nd(n,γ), E=thermal
  2542.4E(γ): From 145Nd(n,γ), E=thermal
  3042.5  2589.4E(γ): From 145Nd(n,γ), E=thermal
  3043.5E(γ): From 145Nd(n,γ), E=thermal
  3109.02   634.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   773.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3123.82   417.6E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   649.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3145.4  1958.9E(γ): From 145Nd(n,γ), E=thermal
  2691.3E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  3146.0E(γ): From 145Nd(n,γ), E=thermal
E(level)E(gamma)Comments
  3178.81  1190.2E(γ): From 146Nd(n,n’γ)
I(γ): From 146Nd(n,n’γ)
  1989.2E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  2135.3I(γ): From 145Nd(n,γ), E=thermal
M(γ): from A2=-0.536 95, A4=-0.125 129; δ=+0.6 +?-2, 3+|)4+ transition or δ=-0.19 8, 5+|)4+ transition (1983Al12).
  2725.9E(γ): From 145Nd(n,γ), E=thermal
  3210.3  2019.1E(γ): From 145Nd(n,γ), E=thermal
  2758.3E(γ): From 145Nd(n,γ), E=thermal
  3245.52   136.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   539.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3246.9  2204.3E(γ): From 145Nd(n,γ), E=thermal
  2793.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  3275.9  2822I(γ): Branching deduced from (γ,γ’)
  3276I(γ): Branching deduced from (γ,γ’)
  3292.20  1148.9E(γ): From 146Pr β- decay
  1504.9E(γ): From 146Pr β- decay
  1915.1E(γ): From 146Pr β- decay
  3292.12E(γ): From 146Pr β- decay
  3319.72   613.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   726.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3329.6  1102.7E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  1812.1E(γ): From 145Nd(n,γ), E=thermal
I(γ): From 145Nd(n,γ), E=thermal
  3335.4  1192.2E(γ): From 146Pr β- decay
  1958.3E(γ): From 146Pr β- decay
  2881.8E(γ): From 146Pr β- decay
  3347.2  1650.1E(γ): From 146Pr β- decay
  2893.0E(γ): From 146Pr β- decay
E(level)E(gamma)Comments
  3368.88   816.5E(γ): From 146Pr β- decay
  1012.7E(γ): From 146Pr β- decay
  1463.8E(γ): From 146Pr β- decay
  1991.9E(γ): From 146Pr β- decay
  2179.3E(γ): From 146Pr β- decay
  2915.1E(γ): From 146Pr β- decay
  3384.9  2193.8E(γ): From 145Nd(n,γ), E=thermal
  2342.8E(γ): From 145Nd(n,γ), E=thermal
  2931.7E(γ): From 145Nd(n,γ), E=thermal
  3391.8   839.5E(γ): From 145Nd(n,γ), E=thermal
  1614.1E(γ): From 145Nd(n,γ), E=thermal
  1920.9E(γ): From 145Nd(n,γ), E=thermal
  2938.4E(γ): From 145Nd(n,γ), E=thermal
  3404.72   159.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   280.9E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   698.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3411.0  2957I(γ): Branching deduced from (γ,γ’)
  3411I(γ): Branching deduced from (γ,γ’)
  3429.0  2975I(γ): Branching deduced from (γ,γ’)
  3429I(γ): Branching deduced from (γ,γ’)
  3472.6  2280.9E(γ): From 145Nd(n,γ), E=thermal
  2428.5E(γ): From 145Nd(n,γ), E=thermal
  3021.9E(γ): From 145Nd(n,γ), E=thermal
  3500.72   181.0E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   794.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
E(level)E(gamma)Comments
  3534.1  1555.6E(γ): From 146Pr β- decay
  2157.1E(γ): From 146Pr β- decay
  3080.4E(γ): From 146Pr β- decay
  3577.0  3123I(γ): Branching deduced from (γ,γ’)
  3577I(γ): Branching deduced from (γ,γ’)
  3594.6  2217.7E(γ): From 146Pr β- decay
  3140.9E(γ): From 146Pr β- decay
  3618.5  1831.1E(γ): From 146Pr β- decay
  3165.6E(γ): From 146Pr β- decay
  3634.0  3180I(γ): Branching deduced from (γ,γ’)
  3634I(γ): Branching deduced from (γ,γ’)
  3709.8  3256.5E(γ): From 146Pr β- decay
  3709.0E(γ): From 146Pr β- decay
  3713.5  2526.3E(γ): From 145Nd(n,γ), E=thermal
  3257.6E(γ): From 145Nd(n,γ), E=thermal
  3738.8  2549.7E(γ): From 145Nd(n,γ), E=thermal
  2695.4E(γ): From 145Nd(n,γ), E=thermal
  3751.0  3297I(γ): Branching deduced from (γ,γ’)
  3751I(γ): Branching deduced from (γ,γ’)
  3780.0  3326I(γ): Branching deduced from (γ,γ’)
  3780I(γ): Branching deduced from (γ,γ’)
  3794.8  2604.8E(γ): From 145Nd(n,γ), E=thermal
  3343.0E(γ): From 145Nd(n,γ), E=thermal
I(γ): Branching deduced from (γ,γ’)
  3793.7E(γ): From 145Nd(n,γ), E=thermal
I(γ): Branching deduced from (γ,γ’)
  3813.3  3359.8E(γ): From 145Nd(n,γ), E=thermal
  3811.6E(γ): poor fit, energy level difference between corresponding levels equals 3813.2 9. From 145Nd(n,γ), E=thermal. Not used in least-square procedure as poor fit of Eγ
E(level)E(gamma)Comments
  3827.6  3373.1E(γ): From 145Nd(n,γ), E=thermal
  3828.4E(γ): From 145Nd(n,γ), E=thermal
  3893.0  3439I(γ): Branching deduced from (γ,γ’)
  3893I(γ): Branching deduced from (γ,γ’)
  3902.22   497.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   778.4E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3958.12   712.6E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  3962.8  2773.8E(γ): From 145Nd(n,γ), E=thermal
  2919.3E(γ): From 145Nd(n,γ), E=thermal
  3975.0  3521I(γ): Branching deduced from (γ,γ’)
  3975I(γ): Branching deduced from (γ,γ’)
  3993.72   493.0E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   674.0E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  4028.12   125.9E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   527.4E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   623.4E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  4295.02   301.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   794.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   890.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  4454.3  3265.9E(γ): From 145Nd(n,γ), E=thermal
  3999.6E(γ): From 145Nd(n,γ), E=thermal
  4485.5  3294.8E(γ): From 145Nd(n,γ), E=thermal
  4033.1E(γ): From 145Nd(n,γ), E=thermal
  4694.22   399.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   700.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
E(level)E(gamma)Comments
  4695.52   667.4E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   793.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  4761.32   733.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  4786.72   828.6E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  4948.4  3761.0E(γ): From 145Nd(n,γ), E=thermal
  4946.3E(γ): From 145Nd(n,γ), E=thermal
  4997.3  3808.9E(γ): From 145Nd(n,γ), E=thermal
  4996.2E(γ): From 145Nd(n,γ), E=thermal
  5057.92   363.7E(γ): From 136Xe(13C,3nγ)
   762.9E(γ): From 136Xe(13C,3nγ)
  5115.7  3928.1E(γ): From 145Nd(n,γ), E=thermal
  4070.7E(γ): From 145Nd(n,γ), E=thermal
  5160.92   374.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  5297.9  4255.1E(γ): From 145Nd(n,γ), E=thermal
  4844.4E(γ): From 145Nd(n,γ), E=thermal
  5362.82   601.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  5389.7  4200.6E(γ): From 145Nd(n,γ), E=thermal
  4343.4E(γ): From 145Nd(n,γ), E=thermal
  4938.6E(γ): From 145Nd(n,γ), E=thermal
  5460.52   402.6E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   766.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  5559.02   196.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   797.7E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  5612.42   451.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   825.7E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
E(level)E(gamma)Comments
  5899.72   340.7E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   536.9E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  6202.52   643.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  6513.73   311.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   614.0E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  6807.03   293.3E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  7165.7  3891E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  4583E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  4701E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  4807E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  5383E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  5475E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  6709E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
  7163E(γ): From 146Nd(γ,γ’)
I(γ): From 146Nd(γ,γ’)
M(γ): from A2=+0.46 9, and linear polarization measurement (1977Be05)
  7364.23   557.2E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
   850.5E(γ): From 136Xe(13C,3nγ)
I(γ): From 136Xe(13C,3nγ)
  7564.73  2175.4E(γ): From 145Nd(n,γ), E=thermal
  2266.8E(γ): From 145Nd(n,γ), E=thermal
  2449.4E(γ): From 145Nd(n,γ), E=thermal
  2567.8E(γ): From 145Nd(n,γ), E=thermal
  2616.7E(γ): From 145Nd(n,γ), E=thermal
  3079.7E(γ): From 145Nd(n,γ), E=thermal
  3110.9E(γ): From 145Nd(n,γ), E=thermal
  3602.2E(γ): From 145Nd(n,γ), E=thermal
  3737.2E(γ): From 145Nd(n,γ), E=thermal
  3752.3E(γ): From 145Nd(n,γ), E=thermal
  3770.2E(γ): From 145Nd(n,γ), E=thermal
  3826.2E(γ): From 145Nd(n,γ), E=thermal
  3851.7E(γ): From 145Nd(n,γ), E=thermal
  4092.5E(γ): From 145Nd(n,γ), E=thermal
  4180.0E(γ): From 145Nd(n,γ), E=thermal
  4317.8E(γ): From 145Nd(n,γ), E=thermal
  4334.9E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4354.8E(γ): From 145Nd(n,γ), E=thermal
  4386.3E(γ): weighted average of 4386.4 5 (n,γ), E=0.2-0.5 keV and 4385.8 13 (n,γ), E=thermal. From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4392.6E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4418.7E(γ): From 145Nd(n,γ), E=thermal
  4473.4E(γ): From 145Nd(n,γ), E=thermal
  4500.0E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4522.4E(γ): weighted average of 4522.4 5 (n,γ), E=0.2-0.5 keV and 4522.3 15 (n,γ), E(n)=thermal. From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4530.0E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4551.4E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4567.9E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4595.0E(γ): From 145Nd(n,γ), E=thermal
  4606.1E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4634.0E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4643.4E(γ): From 145Nd(n,γ), E=thermal
  4658.9E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4679.3E(γ): From 145Nd(n,γ), E=thermal
  4694.0E(γ): From 145Nd(n,γ), E=thermal
  4720.0E(γ): From 145Nd(n,γ), E=thermal
  4761.6E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  4780.8E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4814.5E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4857.5E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4903.8E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4963.0E(γ): weighted average of 4963.1 6 (n,γ), E=0.2-0.5 keV and 4962.6 15 (n,γ), E(n)=thermal. From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4975.1E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  4990.0E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5002.5E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5008.7E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5011.9E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5016.9E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5036.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5043.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5048.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5073.2E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5079.3E(γ): From 145Nd(n,γ), E=0.2-0.5 keV. From 145Nd(n,γ), E=thermal
  5094.7E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5125.8E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5128.2E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5131.0E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5145.3E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5262.6E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5272.8E(γ): From 145Nd(n,γ), E=thermal
  5277.6E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5333.7E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5338.2E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5344.8E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5367.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5397.3E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5443.5E(γ): From 145Nd(n,γ), E=thermal
  5468.7E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5492.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5519.4E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5575.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5587.45E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5645.7E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5656.2E(γ): From 145Nd(n,γ), E=thermal
  5659.5E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5669.1E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5680.0E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5752.5E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5777.4E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5787.5E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  5796.1E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  5818.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV. Not used in least-square procedure as poor fit of Eγ
  6047.4E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  6093.9E(γ): From 145Nd(n,γ), E=0.2-0.5 keV
  6375.0E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  6521.3E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV
  7110.8E(γ): From 145Nd(n,γ), E=thermal. From 145Nd(n,γ), E=0.2-0.5 keV

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