ADOPTED LEVELS, GAMMAS for 14N

Author: F. Ajzenberg-selove |  Citation: Nucl. Physics A523,1 (1991) |  Cutoff date: 1-JUL-1990 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-5144.04 keV 11S(n)= 10553.4 keV 3S(p)= 7551 keV Q(α)= -11612.2 keV 4
Reference: 2012WA38

References:
  A  14C β- decay  B  14O β+ decay
  C  9Be(7Li,2n)  D  10B(α,n) RES
  E  10B(α,p) RES  F  10B(α,d) RES
  G  10B(α,α’) RES  H  10B(6Li,d)
  I  10B(7Li,t)  J  11B(3He,X) RES
  K  11B(α,n)  L  11B(6Li,t)
  M  12C(d,n) RES  N  12C(d,p) RES
  O  12C(d,d) RES  P  12C(d,α) RES
  Q  12C(3He,p)  R  12C(α,d)
  S  12C(6Li,α)  T  12C(12C,10B)
  U  12C(13C,11B)  V  13C(p,γ),13C(p,p’γ) RES
  W  13C(p,n) RES  X  13C(d,n)
  Y  13C(3He,d)  Z  13C(α,t)
  a  13C(7Li,6He)  b  14C(π+,PI0)
  c  14C(p,n)  d  14C(3He,t)
  e  14C(6Li,6He)  f  14N(γ,X)
  g  14N(E,E),14N(E,E’)  h  14N(π,π’)
  i  14N(n,n),14N(n,n’)  j  14N(p,p),14N(p,p’)
  k  14N(d,d),14N(d,d’)  l  14N(3He,3He),14N(3He,3He’)
  m  14N(α,α),14N(α,α’)  n  15N(γ,n)
  o  15N(p,d)  p  15N(d,t)
  q  15N(3He,α)  r  15N(13C,14C)
  s  16O(π+,2p)  t  16O(p,X)
  u  16O(d,α) 

General Comments:

Levels: With the exception of the 16910, 17460, 21800, 22500, 23000, and 24000 levels, the 16650 and all higher states were derived from an s-matrix analysis of the 12C(d,α) reaction by 1981Jo02.

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










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
        0.0AB     HIJK     QRSTUV XYZabcdefghijklmnopqrstu 1+ STABLE      
     2312.798 11  B        K     QRS UV XYZabcde g ij l nopq  tu 0+ 68 fs 3     2312.593 11 
  100
[M1]
        0.0
1+
     3948.10 20  B     HI K     QR   V XYZa cde  hijklmnopq     1+ 4.8 fs 18     1635.20 20 
   3947.50 20 
  100.0 3 
    4.1 2 
[M1]
[M1+E2]
     2312.798
        0.0
0+
1+
     4915.1 14        HI       QRS    XYZa  d   hijklm opq     0- 5.3 fs 10      967.0 14 
   2602.0 14 
   4914.2 14 
   <0.5
   <1
  100 3 


[E1]
     3948.10
     2312.798
        0.0
1+
0+
1+
     5105.89 10   C    HI K     QRS    XYZa  de  hijklm opq  t  2- 4.35 ps 5     1157.74 23 
   2792.79 10 
   5104.89 10 
    0.9 5 
   24.3 15 
  100.0 13 
[E1]
[M2]
[E1+M2+E3]
     3948.10
     2312.798
        0.0
1+
0+
1+
     5691.44 13        HI       QRS  V XY a  d   hijklm opq     1- 11 fs 6     3378.20 13 
   5690.20 13 
  100.0 19 
   56.5 19 
[E1]
[E1]
     2312.798
        0.0
0+
1+
     5834.25 14   C    HI  L    QRSTU  XY a  de  hijklm opq     3- 8.30 ps 16      728.34 17 
   5832.94 14 
  100.0 17 
   27.1 17 
[M1+E2]
[M2+E3]
     5105.89
        0.0
2-
1+
     6203.5 6        HI       QRS  V XY    de    jklm opq     1+ 111 fs 14     3890.1 6 
   6202.0 6 
  100.0 26 
   30.0 26 
[M1]
[M1+E2]
     2312.798
        0.0
0+
1+
     6446.17 10        HI       QRS  V XY    d     jk m opq     3+ 430 fs 42      611.91 17 
   1340.21 14 
   2497.83 23 
   6444.58 10 
    5.3 9 
    9.3 9 
   28.1 14 
  100.0 21 
[E1]
[E1]
[E2]
[E2]
     5834.25
     5105.89
     3948.10
        0.0
3-
2-
1+
1+
     7029.12 12        HI       QRS  V XY a  de  hijklm opq     2+ 3.7 fs 4     3080.7 23 
   4715.47 12 
   7027.22 12 
    0.91 25 
    0.5 1 
  100.0 3 
[M1]
[E2]
[M1+E2]
     3948.10
     2312.798
        0.0
1+
0+
1+
     7966.9 5        HI       QRS  V  Y          j  m opq     2- 2.5 eV 7 
% IT = 0.7 2
% p = 99.3 2
   4018.2 5 
   7964.5 5 
   82 6 
  100 6 
[E1]
[E1]
     3948.10
        0.0
1+
1+
     8062.0 10                 Q    V XY          j l  o q     1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   2371 10 
   2956 10 
   3147 10 
   4113 10 
   5748 10 
   8060 10 
    4.4 5 
    0.31 18 
    2.32 18 
   15.8 5 
    1.74 18 
  100.0 8 
[M1]
[M1]
[M1]
[E1]
[E1]
[E1]
     5691.44
     5105.89
     4915.1
     3948.10
     2312.798
        0.0
1-
2-
0-
1+
0+
1+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     8490 2        HI       QRS  V XY     e  h j  m  p      4- 13.2 fs 21 
% IT = 21 8
% p = 79 8
   2656 2 
   3384 2 
   20 4 
  100 4 
[M1]
[E2]
     5834.25
     5105.89
3-
2-
     8618 2                 Q    V XY          j    o q     0+ 3.8 keV 3 
% IT = 0.14
% p = 99.86
   2414 2 
   2927 2 
   4670 2 
   8615 2 
  100
   32
   60
   58
[M1]
[E1]
[M1]
[M1]
     6203.5
     5691.44
     3948.10
        0.0
1+
1-
1+
1+
     8776 7                      V  Y                       0- 410 keV 20 
% IT = 0.011 3
% p = 99.989 3
   8773 7 
  100
[E1]
        0.0
1+
     8907 3                 Q    V XY       g  j    o q     3- 16 keV 2 
% IT = 0.0024 4
% p = 99.9977 4
   1878 3 
   2461 3 
   3073 3 
   3800 3 
   8904 3 
    3.9 6 
    6.3 7 
  100.0 11 
    5.0 6 
    3.4 4 
[E1]
[E1]
[M1]
[M1]
[M2]
     7029.12
     6446.17
     5834.25
     5105.89
        0.0
2+
3+
3-
2-
1+
     8964 2         I  L    QRST V XY               o       5+ 73 fs 12 
% IT = 19 5
% p = 81 5
   2518 2 
   8961 2 
  100
   <1
[E2]

     6446.17
        0.0
3+
1+
     8980 3        HI       Q    V XY               o       2+ 8 keV 2 
% IT = ?
% p = ?
     
     9129.0 5        HI       QR   V XY             m         3+ 9 fs 4 
% IT = 20 9
% p = 80 9
   2682.7 5 
   3294.4 5 
   9125.8 5 
   11 4 
   11 4 
  100 4 
[M1]
[E1]
[E2]
     6446.17
     5834.25
        0.0
3+
3-
1+
     9172.25 12                 Q    V XY       g  j    opq     2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   2142.95 17 
   2725.79 16 
   3337.59 19 
   3480.35 18 
   6857.65 12 
   9169.02 12 
    3.7 4 
   10.4 10 
    0.72 10 
    0.58 12 
    1.00 10 
  100.0 12 
[M1+E2]
[M1+E2]
[E1]
[E1]
[E2]
[M1]
     7029.12
     6446.17
     5834.25
     5691.44
     2312.798
        0.0
2+
3+
3-
1-
0+
1+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
     9388 3        HI       QRS    XY          j  m opq     2- 13 keV 3 
% p = 100
     
     9509 3                 Q    V XY          j    opq     2- 41 keV 2 
% IT = 0.0098 11
% p = 99.9902 11
   3674 3 
   4402 3 
   5560 3 
   9506 3 
   22.1 20 
  100 6 
    8.7 7 
    0.79 13 
[M1]
[M1]
[E1]
[E1]
     5834.25
     5105.89
     3948.10
        0.0
3-
2-
1+
1+
     9703 4        H        Q S  V XY          j    opq     1+ 15 keV 3 
% IT = 0.00041 10
% p = 99.99959 10
   7388 4 
   9699 4 
  100 12 
   43 12 
[M1]
[M1]
     2312.798
        0.0
0+
1+
    10079 10        HI                                       (3+) < 10 keV      
    10101 15                 Q S  V  Y          j    op      2+,1+ 12 keV 3 
% IT = 0.0017 5
% p = 99.9983 5
  10097 15 
  100
[M1]
        0.0
1+
    10226 8                 QR   V  Y               o       1(-) 80 keV 15 
% IT = 0.0050 19
% p = 99.9950 19
   7910 8 
  100

     2312.798
0+
    10432 7            L    Q    V       d  g       opq     2+ 33 keV 3 
% IT = 0.039 4
% p = 99.961 4
   3401 7 
   3984 7 
   4739 7 
   5324 7 
  10427 7 
    7.8 4 
    7.8 4 
    1.9 5 
    2.9 3 
  100 4 
[M1]
[M1]
[E1]
[E1]
[M1]
     7029.12
     6446.17
     5691.44
     5105.89
        0.0
2+
3+
1-
2-
1+
    10534 20                 Q       Y                       (1-) 140 keV
% p = 100
     
    10812 15        HI  L    QRS     Y             m         5+ 0.39 eV 16 
% IT = 4.1 8
% p = 95.9 8
   4365 15 
  100
[E2]
     6446.17
3+
    11000 30                      V                          165 keV 30 
% IT = ?
% p = ?
     
    11050 5        HI  L    QRS     Y               op      3+ 1.2 keV 4 
% IT = 0.018 7
% p = 99.982 7
   7100 15 
  11045 15 
   75 17 
  100 17 
[E2]
[E2]
     3948.10
        0.0
1+
1+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    11070            MN        W                         1+ 100 keV
% n = ?
% p = ?
% D = ?
     
    11210 30             MN                                  220 keV 30 
% IT = ?
% p = ?
% D = ?
     
    11240 15            L    Q     W Y       gh jklm o       3- 11 keV
% IT = ?
% n = ?
% p = ?
     
    11270 15        H    MN    S   W Y               o       2- 180 keV
% n = ?
% p = ?
% D = ?
     
    11357 15             MN  Q     W                 o       1+ 30 keV
% n = ?
% p = ?
% D = ?
     
    11513.5 15        HI  LMNOP                                2+,3+ 7.0 keV 5 
% p = ?
% D = ?
     
    11676 18             MNO       W Y               o       1-,2- 150 keV 20 
% n = ?
% p = ?
% D = ?
     
    11741 6             MN                                  1-,2- 40 keV 9 
% IT = ?
% p = ?
% D = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    11761 6             MN                                  3-,4- 78 keV 6 
% IT = ?
% p = ?
% D = ?
     
    11807 7             MNO                                 2-,(1+) 119 keV 9 
% n = ?
% p = ?
% D = ?
     
    11874 6             MN        W                         2-,(1-) 101 keV 9 
% n = ?
% p = ?
% D = ?
     
    12200 19             MNO       W                 o       1-,2- 300 keV 30 
% n = ?
% p = ?
% D = ?
     
    12408 3     EF      MN    S          d                  (4-) 34 keV 3 
% n = ?
% p = ?
% D = ?
% α = ?
     
    12418 3        H   LMN  Q            d                  3-,4- 41 keV 4 
% p = ?
% D = ?
     
    12495 9     E       MN  Q    V          g       opq     (1+) 39 keV 5 
% IT = ?
% n = ?
% p = ?
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    12594 3     E       MNO Q     W               m o       3+ 48 keV 2 
% n = ?
% p = ?
% D = ?
% α = ?
     
    12690 5     EF HI  LMNO Q S   W               m         3- 18 keV 5 
% n = ?
% p = ?
% D = ?
% α = ?
     
    12708 9 ?            MN                                  43 keV 15 
% p = ?
% D = ?
     
    12789 5     EF  I  LMNO Q                  jklm o       4+ 16 keV 3 
% n = ?
% p = ?
% D = ?
% α = ?
     
    12813 4     EF HI   MNO              d  gh jklmnop      4- 5 keV 2 
% IT = ?
% p = ?
% D = ?
% α = ?
     
    12826 6             MNO                                 11 keV 3 
% n = ?
% p = ?
% D = ?
     
    12857 6             MN    S   W                         78 keV 10 
% n = ?
% p = ?
% D = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    12883 8             MN                                  134 keV 11 
% p = ?
% D = ?
     
    12922 5     EF     LMNO                                 4+ 22 keV 4 
% p = ?
% D = ?
% α = ?
     
    13007 17        HI            V                          120 keV 30 
% IT = ?
% p = ?
     
    13167 5     EFGH        Q               g       o       1+ 15 keV 5 
% IT = ?
% n = ?
% p = ?
% D = ?
% α = ?
     
    13192 9       G    L  O                                 3+ 65 keV 10 
% α = 100
     
    13243 10    DE                 W         g     m o       2- 92 keV 5 
% IT = ?
% n = ?
% p = ?
% α = ?
     
    13300 40                      V                          (2-) 1000 keV 150 
% IT = ?
% p = ?
     
    13656 5     E G     MNO                                 (2+,3+) ≈ 90 keV
% n = ?
% p = ?
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    13714 5    DE  H                                        2-,3+ 105 keV 25 
% IT = ?
% n = ?
% p = ?
% D = ?
% α = ?
     
    13740 10    DE G     MNO      VW     c   g       opq     1+ 180 keV 20 
% IT = ?
% n = ?
% p = ?
% D = ?
% α = ?
     
    13770 10     E                                           (1+) 120 keV
% p = ?
% α = ?
     
    14040 30    DE       MNO       W                         100 keV
% n = ?
% p = ?
% D = ?
% α = ?
     
    14160 30    DE       MNO                                 230 keV
% n = ?
% p = ?
% D = ?
% α = ?
     
    14250 50     E G                                         3+ 420 keV 100 
% p = ?
% α = ?
     
    14300 20     E                                           150 keV
% p = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    14560 20    DE      L                                    100 keV
% n = ?
% p = ?
% α = ?
     
    14590 30    DE      L                                    50 keV
% n = ?
% p = ?
% α = ?
     
    14660 10       G                          h              5- 100 keV 20 
% α = 100
     
    14730 25    DE                                           (2-) 125 keV
% IT = ?
% n = ?
% p = ?
% α = ?
     
    14860 30    DE  H   LMNOP  S   W                         140 keV
% n = ?
% p = ?
% D = ?
% α = ?
     
    14920 30    DE      L    Q     W                         43 keV 8 
% n = ?
% p = ?
% α = ?
     
    15020 20    D   H         R    W         gh              3-,4- ≈ 60 keV
% IT = ?
% n = ?
% p = ?
% α = ?
     
    15240 20     E  HI  LMNO                                 100 keV
% p = ?
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    15430 20    DE       MN P  S                             100 keV
% n = ?
% p = ?
% D = ?
% α = ?
     
    15700 50        H    MNOPQ S   W         g               350 keV
% IT = ?
% n = ?
% p = ?
% D = ?
% α = ?
     
    16210 20    DE             S   W                  p      125 keV
% n = ?
% p = ?
% α = ?
     
    16400 20     E          P                                150 keV
% p = ?
% D = ?
% α = ?
     
    16650 25                P                                4+ 240 keV 25 
% D = ?
% α = ?
     
    16910 20            L                    gh              5- 170 keV 25       
    16910 30                P                                4+ 290 keV 30 
% p = ?
% D = ?
% α = ?
     
    16920 20                P                                2+ 830 keV 170 
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    17030 50                P                                3- 245 keV 50 
% D = ?
% α = ?
     
    17170 30            L   P  S             g               1- 300 keV 30 
% IT = ?
% p = ?
% D = ?
% α = ?
     
    17310 30                P                         p      4+ 275 keV 30 
% D = ?
% α = ?
     
    17400 25                P                                4+ 245 keV 25 
% D = ?
% α = ?
     
    17460                                 h              5-        
    17850 50                P                                4+ 475 keV 50 
% D = ?
% α = ?
     
    17850 50                P                                3- 440 keV 50 
% D = ?
% α = ?
     
    17930 70                P                                2+ 340 keV 70 
% D = ?
% α = ?
     
    18020 60                P                                3- 570 keV 60 
% D = ?
% α = ?
     
    18140 50                P                                4+ 480 keV 50 
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    18350 60                P                                1- 560 keV 60 
% D = ?
% α = ?
     
    18430 65                P                                4+ 315 keV 65 
% D = ?
% α = ?
     
    18500 10                P                g               5- 62 keV 10 
% D = ?
% α = ?
     
    18530 80                P                                2+ 410 keV 80 
% D = ?
% α = ?
     
    18530 60                P                                3- 310 keV 60 
% D = ?
% α = ?
     
    18640 70                P                 h              3- 675 keV 70 
% D = ?
% α = ?
     
    18780 35                P                                1- 315 keV 35 
% D = ?
% α = ?
     
    18880 50                P                                4+ 475 keV 50 
% D = ?
% α = ?
     
    18930 50                P                                2+,3- 450 keV 50 
% D = ?
% α = ?
     
    19100 90                P                                3- 870 keV 90 
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    19900 60                P                                2+ 575 keV 60 
% D = ?
% α = ?
     
    19990 50                P                                1- 510 keV 50 
% D = ?
% α = ?
     
    20110 20 ?                                gh              3-,4- 120 keV 20       
     2063E+1 11                P                                4+ 1100 keV 110 
% D = ?
% α = ?
     
    20650 60                P                                5- 610 keV 60 
% D = ?
% α = ?
     
    21240 50                P                                4+ 415 keV 50 
% D = ?
% α = ?
     
    21510 25                P                                3- 235 keV 25 
% D = ?
% α = ?
     
    21530 75                P                                5- 360 keV 75 
% D = ?
% α = ?
     
    21680 40                P                                4+ 360 keV 40 
% D = ?
% α = ?
     
    21800         J                                      4+ 650 keV
% IT = ?
% 3HE = ?
     
    22260 15                P                                4+ 65 keV 15 
% D = ?
% α = ?
     
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
    22310 60                P                                5- 570 keV 60 
% D = ?
% α = ?
     
    22500                     V                          2- % IT = ?
% p = ?
     
    23000                     V                          2- ≈ 3000 keV
% IT = ?
% n = ?
% p = ?
     
    23400 70                P                                5- 640 keV 70 
% D = ?
% α = ?
     
    24000         J                                      ≈ 1000 keV
% n = ?
% 3HE = ?
% α = ?
     

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Additional Gamma Data:













E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Additional Data
     2312.798 0+ 68 fs 3     2312.593 11 [M1] B(M1)(W.u.)=0.026 1
     3948.10 1+ 4.8 fs 18     1635.20 20 [M1] B(M1)(W.u.)=1.0 +6-3
1+ 4.8 fs 18     3947.50 20 [M1+E2]+2.8 3B(E2)(W.u.)=2.2 +12-6, B(M1)(W.u.)=0.00033 +20-10
     4915.1 0- 5.3 fs 10     4914.2 14 [E1] B(E1)(W.u.)=0.0018 4
     5105.89 2- 4.35 ps 5     1157.74 23 [E1] B(E1)(W.u.)=1.2E-6 7
2- 4.35 ps 5     2792.79 10 [M2] B(M2)(W.u.)=1.38 9
2- 4.35 ps 5     5104.89 10 [E1+M2+E3] B(E1)(W.u.)=1.52E-6 3, B(E3)(W.u.)=4.4 13, B(M2)(W.u.)=0.0068 17
     5691.44 1- 11 fs 6     3378.20 13 [E1] B(E1)(W.u.)=0.0011 5
1- 11 fs 6     5690.20 13 [E1] B(E1)(W.u.)=1.2E-4 7
     5834.25 3- 8.30 ps 16      728.34 17 [M1+E2]+0.044 22B(E2)(W.u.)=0.2 2, B(M1)(W.u.)=0.00533 14
3- 8.30 ps 16     5832.94 14 [M2+E3]-1.20 22B(E3)(W.u.)=6.7 15, B(M2)(W.u.)=0.0082 24
     6203.5 1+ 111 fs 14     3890.1 6 [M1] B(M1)(W.u.)=0.0026 4
1+ 111 fs 14     6202.0 6 [M1+E2]-0.19 4B(E2)(W.u.)=0.021 6, B(M1)(W.u.)=0.0018 2
     6446.17 3+ 430 fs 42      611.91 17 [E1] B(E1)(W.u.)=4.4E-4 11
3+ 430 fs 42     1340.21 14 [E1] B(E1)(W.u.)=7.4E-5 11
3+ 430 fs 42     2497.83 23 [E2] B(E2)(W.u.)=1.3 2
3+ 430 fs 42     6444.58 10 [E2] B(E2)(W.u.)=0.040 4
     7029.12 2+ 3.7 fs 4     3080.7 23 [M1] B(M1)(W.u.)=0.0018 6
2+ 3.7 fs 4     4715.47 12 [E2] B(E2)(W.u.)=0.16 4
2+ 3.7 fs 4     7027.22 12 [M1+E2]-0.74 9B(E2)(W.u.)=1.8 4, B(M1)(W.u.)=0.012 2
     7966.9 2- 2.5 eV 7 
% IT = 0.7 2
% p = 99.3 2
   4018.2 5 [E1] B(E1)(W.u.)=0.00032 9
2- 2.5 eV 7 
% IT = 0.7 2
% p = 99.3 2
   7964.5 5 [E1] B(E1)(W.u.)=5.0E-5 14
     8062.0 1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   2371 10 [M1] B(M1)(W.u.)=1.5 4
1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   2956 10 [M1] B(M1)(W.u.)=0.06 4
1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   3147 10 [M1] B(M1)(W.u.)=0.35 9
1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   4113 10 [E1] B(E1)(W.u.)=0.057 15
1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   5748 10 [E1] B(E1)(W.u.)=0.0023 7
1- 23 keV 1 
% IT = 0.053 12
% p = 99.947 12
   8060 10 [E1] B(E1)(W.u.)=0.048 12
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Additional Data
     8490 4- 13.2 fs 21 
% IT = 21 8
% p = 79 8
   2656 2 [M1] B(M1)(W.u.)=0.0033 10
4- 13.2 fs 21 
% IT = 21 8
% p = 79 8
   3384 2 [E2] B(E2)(W.u.)=8.3 20
     8618 0+ 3.8 keV 3 
% IT = 0.14
% p = 99.86
   2414 2 [M1] B(M1)(W.u.)=7.2
0+ 3.8 keV 3 
% IT = 0.14
% p = 99.86
   2927 2 [E1] B(E1)(W.u.)=0.069
0+ 3.8 keV 3 
% IT = 0.14
% p = 99.86
   4670 2 [M1] B(M1)(W.u.)=0.59
0+ 3.8 keV 3 
% IT = 0.14
% p = 99.86
   8615 2 [M1] B(M1)(W.u.)=0.089
     8776 0- 410 keV 20 
% IT = 0.011 3
% p = 99.989 3
   8773 7 [E1] B(E1)(W.u.)=0.17 5
     8907 3- 16 keV 2 
% IT = 0.0024 4
% p = 99.9977 4
   1878 3 [E1] B(E1)(W.u.)=0.0050 8
3- 16 keV 2 
% IT = 0.0024 4
% p = 99.9977 4
   2461 3 [E1] B(E1)(W.u.)=0.0034 5
3- 16 keV 2 
% IT = 0.0024 4
% p = 99.9977 4
   3073 3 [M1] B(M1)(W.u.)=0.53 7
3- 16 keV 2 
% IT = 0.0024 4
% p = 99.9977 4
   3800 3 [M1] B(M1)(W.u.)=0.014 3
3- 16 keV 2 
% IT = 0.0024 4
% p = 99.9977 4
   8904 3 [M2] BM2=2.3 4
     8964 5+ 73 fs 12 
% IT = 19 5
% p = 81 5
   2518 2 [E2] B(E2)(W.u.)=7.2 12
     9129.0 3+ 9 fs 4 
% IT = 20 9
% p = 80 9
   2682.7 5 [M1] B(M1)(W.u.)=0.0022 7
3+ 9 fs 4 
% IT = 20 9
% p = 80 9
   3294.4 5 [E1] B(E1)(W.u.)=6.4E-5 21
3+ 9 fs 4 
% IT = 20 9
% p = 80 9
   9125.8 5 [E2] B(E2)(W.u.)=0.0081 10
     9172.25 2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   2142.95 17 [M1+E2]+0.037 15B(E2)(W.u.)=3.8 23, B(M1)(W.u.)=0.97 15
2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   2725.79 16 [M1+E2]-0.031 6B(E2)(W.u.)=2.2 7, B(M1)(W.u.)=1.3 2
2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   3337.59 19 [E1] B(E1)(W.u.)=0.0027 4
2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   3480.35 18 [E1] B(E1)(W.u.)=0.0019 4
2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   6857.65 12 [E2] B(E2)(W.u.)=2.2 2
2+ 122 eV 8 
% IT = 5.2 4
% p = 94.8 4
   9169.02 12 [M1] B(M1)(W.u.)=0.33 2
     9509 2- 41 keV 2 
% IT = 0.0098 11
% p = 99.9902 11
   3674 3 [M1] B(M1)(W.u.)=0.64 10
2- 41 keV 2 
% IT = 0.0098 11
% p = 99.9902 11
   4402 3 [M1] B(M1)(W.u.)=1.7 2
2- 41 keV 2 
% IT = 0.0098 11
% p = 99.9902 11
   5560 3 [E1] B(E1)(W.u.)=0.0038 6
2- 41 keV 2 
% IT = 0.0098 11
% p = 99.9902 11
   9506 3 [E1] B(E1)(W.u.)=7.7E-5 18
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Additional Data
     9703 1+ 15 keV 3 
% IT = 0.00041 10
% p = 99.99959 10
   7388 4 [M1] B(M1)(W.u.)=0.0051 6
1+ 15 keV 3 
% IT = 0.00041 10
% p = 99.99959 10
   9699 4 [M1] B(M1)(W.u.)=9.4×10-4 21
    10101 2+,1+ 12 keV 3 
% IT = 0.0017 5
% p = 99.9983 5
  10097 15 [M1] B(M1)(W.u.)=0.0097 9
    10432 2+ 33 keV 3 
% IT = 0.039 4
% p = 99.961 4
   3401 7 [M1] B(M1)(W.u.)=1.0 1
2+ 33 keV 3 
% IT = 0.039 4
% p = 99.961 4
   3984 7 [M1] B(M1)(W.u.)=0.64 5
2+ 33 keV 3 
% IT = 0.039 4
% p = 99.961 4
   4739 7 [E1] B(E1)(W.u.)=0.0050 12
2+ 33 keV 3 
% IT = 0.039 4
% p = 99.961 4
   5324 7 [E1] B(E1)(W.u.)=0.0052 5
2+ 33 keV 3 
% IT = 0.039 4
% p = 99.961 4
  10427 7 [M1] B(M1)(W.u.)=0.45 3
    10812 5+ 0.39 eV 16 
% IT = 4.1 8
% p = 95.9 8
   4365 15 [E2] B(E2)(W.u.)=6 3
    11050 3+ 1.2 keV 4 
% IT = 0.018 7
% p = 99.982 7
   7100 15 [E2] B(E2)(W.u.)=3.0 7
3+ 1.2 keV 4 
% IT = 0.018 7
% p = 99.982 7
  11045 15 [E2] B(E2)(W.u.)=0.44 7

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
     84904- 13.2 fs 21 
% IT = 21 8
% p = 79 8
T=0
Γγ=0.0074 eV 25.
     89645+ 73 fs 12 
% IT = 19 5
% p = 81 5
T=0
Γγ=0.0012 eV 2.
     9129.03+ 9 fs 4 
% IT = 20 9
% p = 80 9
T=0
Γγ=0.0103 eV 11.
     97031+ 15 keV 3 
% IT = 0.00041 10
% p = 99.99959 10
T=0, Γγ=0.061 7
In table 14.10, the IT decay mode is missing.
    10079(3+) < 10 keV E(level): Decay mode not specified.
    108125+ 0.39 eV 16 
% IT = 4.1 8
% p = 95.9 8
T=0, Γγ=0.016 7
In table 14.10, the proton decay mode is missing.
    117411-,2- 40 keV 9 
% IT = ?
% p = ?
% D = ?
The IT decay mode is tentative.
    117613-,4- 78 keV 6 
% IT = ?
% p = ?
% D = ?
The IT decay mode is tentative.
    125943+ 48 keV 2 
% n = ?
% p = ?
% D = ?
% α = ?
The neutron decay mode is tentative.
    137401+ 180 keV 20 
% IT = ?
% n = ?
% p = ?
% D = ?
% α = ?
T=1
The IT decay mode is tentative.
    174605-   T=0
E(level): Decay mode not specified.

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Additional Gamma Comments:

E(level)E(gamma)Comments
     3948.10     1635.20E(γ): Decay mode not specified
M(γ): The reduced transition probabilities have been calculated by M. J. Martin from data in earlier evaluations by the authors
     3947.50E(γ): Decay mode not specified
M(γ): The reduced transition probabilities have been calculated by M. J. Martin from data in earlier evaluations by the authors
     8776     8773I(γ): author gives %Iγ=90 10

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