ADOPTED LEVELS, GAMMAS for 47V

Author: T. W. Burrows |  Citation: Nucl. Data Sheets 108, 923 (2007) |  Cutoff date: 20-Feb-2007 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-7445 keV 7S(n)= 13002.52 keV 11S(p)= 5167.78 keV 7Q(α)= -8242.6 keV 19
Reference: 2012WA38

References:
  A  47Cr β+ decay  B  48Mn εp decay: PARTIAL
  C  10B(40Ca,N2PG),24Mg(32S,2APG),  D  24Mg(28Si,αpγ) E=87 MeV
  E  28Si(28Si,2APG) E=110, 115 MeV  F  28Si(28Si,2APG) E=125 MeV
  G  46Ti(p,γ) E=0.4-1.8 MeV RES  H  46Ti(d,n),(3He,d)
  I  46Ti(16O,15N)  J  47Ti(p,n),(p,nγ)
  K  47Ti(3He,t) IAS  L  50Cr(p,α)
  M  46Ti(p,γ) E=0.72-4 MeV  N  46Ti(p,γ),(p,p),(p,p’),(p,p’γ)

General Comments:

Levels: Resonance parameters: see references cited in the (p,γ) data sets.

Levels: All information is from (p,γ) E=0.4-1.8 MeV, except as noted. See this table and the references cited in the (p,γ) data data sets for additional resonances

Levels: Bands: nomenclature of 2001Br32 in 28Si(28Si,2αpγ) E=110, 115 MeV adopted.

Gammas: All data and multipolarity arguments are from (p,γ) E=0.4-1.8 MeV res, except as noted. Several authors have looked for, but not observed, other bound-state transitions; see (p,γ) E=0.4-1.8 MeV res for upper limits on the intensities. Weak primary γ’s have been omitted from this table; see (p,γ) E=0.4-1.8 MeV res for the total intensities of these omitted transitions

Gammas: See 28Si(28Si,2αpγ) E=110, 115 MeV for three unplaced gammas which appear to enter into the level scheme at the 23/2- state

Q-value: Note: Current evaluation has used the following Q record -7444 14 13000.4 6 5167.60 7 -8239.0 202003AU03










E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
      0.0ABCDEFGHIJKL   3/2- 32.6 m 3 
% ε = 100
     
     87.525 9 ABCDEFGH J L   5/2- 0.68 ns 4      87.5 1 
  100
M1+E2
      0.0
3/2-
    145.821 15  BCDEFGHIJ L   7/2- 0.51 ns 6      58.2 1 
   145.8 4 
   99.13 25 
    0.87 25 
(M1(+E2))
(E2)
     87.525
      0.0
5/2-
3/2-
    259.486 4  BC EFGH J L   3/2+ 58 ps 6     172.2 6 
   259.4 5 
   11.3 12 
   88.7 12 
(E1(+M2))
(E1(+M2))
     87.525
      0.0
5/2-
3/2-
    660.358 9  BC EFGH J L   5/2+ 1.6 ps 12     400.8 5 
   514.5
   572.5 5 
   660.1 3 
   29.9 2 
   18.1 2 
   14.1 3 
   38.0 3 
M1
(E1(+M2))
(E1(+M2))
(E1(+M2))
    259.486
    145.821
     87.525
      0.0
3/2+
7/2-
5/2-
3/2-
   1138.55 3   C EFG  J L   7/2+ 1.59 ps 35     478.0 5 
   878.7 3 
   992.7
  1050.0 7 
  1138
   25.0 5 
   32.5 4 
    4.4 2 
   38.0 4 
    4 3 
(M1+E2)
E2
(E1(+M2))
(E1+M2)

    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   1271.80 5   CDEFG  J L   9/2- 0.25 ps 8    1125.7 5 
  1184.5 3 
   81.8 1 
   18.2 1 
M1+E2
E2
    145.821
     87.525
7/2-
5/2-
   1294.96 6   C EFG  J L   11/2- 1.59 ps 44    1149.17 29 
  100
E2
    145.821
7/2-
   1660.62 12       GH J L   1/2+ 0.37 ps 16    1000
  1401
  1661
    1.3 1 
   73.4 4 
   25.3 3 
(E2)
D,E2
(E1(+M2))
    660.358
    259.486
      0.0
5/2+
3/2+
3/2-
   1746.96 4   C EFG  J L   9/2+ 0.56 ps 8     608.8 5 
  1086.8 7 
  1602 1 
   17 1 
   46 1 
   36 2 
M1+E2
E2(+M3)
(E1(+M2))
   1138.55
    660.358
    145.821
7/2+
5/2+
7/2-
   1968.92 3       G    L   3/2+ 0.44 ps 12     308
   830
  1309
  1709
  1881
  1969
    1.4 4 
    0.9 2 
   32 1 
    9 1 
   54.9 3 
    2.9 2 
(M1(+E2))
(E2)
M1+E2
M1+E2
(E1(+M2))
(E1(+M2))
   1660.62
   1138.55
    660.358
    259.486
     87.525
      0.0
1/2+
7/2+
5/2+
3/2+
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   2082.72 2       GHI  L   3/2- 14.6 fs 35    1422
  1937
  1995
  2083
    0.3 1 
    1.7 1 
   69.8 2 
   28.1 3 
(E1(+M2))
(E2)
M1+E2
D+Q
    660.358
    145.821
     87.525
      0.0
5/2+
7/2-
5/2-
3/2-
   2175.86 4       G    L   5/2- 15 fs 5    1916
  2030
  2088
  2176
    0.3 1 
    1.6 1 
   21.5 4 
   76.5 4 
(E1(+M2))
D,E2
M1+E2
M1+E2
    259.486
    145.821
     87.525
      0.0
3/2+
7/2-
5/2-
3/2-
   2211.75 3       GH   L   1/2- 83 fs 21     551
  1952
  2124
  2212
    0.6 1 
   14.5 2 
    4.3 1 
   80.7 2 
(E1(+M2))
(E1(+M2))
(E2)
D,E2
   1660.62
    259.486
     87.525
      0.0
1/2+
3/2+
5/2-
3/2-
   2415.0 4   C EF         11/2+ 0.39 ps 4     667.8 5 
  1145 1 
  1276.2 7 
   11 1 
    3
   86 1 
(M1)
(E1)
(E2)
   1746.96
   1271.80
   1138.55
9/2+
9/2-
7/2+
   2439.54 4       G        5/2+ 65 fs 14     263.7?
   470.6
   778.9
  1779
  2180
  2294
  2352
  2439
   <0.7
   11 1 
    0.9 3 
   27 1 
   36 2 
   15.4 4 
    2 1 
    8 1 

M1+E2
(E2)
M1+E2
M1+E2
(E1+M2)
(E1(+M2))
(E1+M2)
   2175.86
   1968.92
   1660.62
    660.358
    259.486
    145.821
     87.525
      0.0
5/2-
3/2+
1/2+
5/2+
3/2+
7/2-
5/2-
3/2-
   2546 8        HI      5/2-,7/2-        
   2558.8 5   C EF         13/2- 0.42 ps 14    1263.8 7 
  1287.0 7 
   38
   62
D,E2
(E2)
   1294.96
   1271.80
11/2-
9/2-
   2615.0 5   C EF         15/2- 0.679 ps 49      56.2 4 
  1320.0 7 
  1343?
    0.2 6 
   99.8 6 
   <3.1
M1
E2

   2558.8
   1294.96
   1271.80
13/2-
11/2-
9/2-
   2722.63 7       GH       5/2- 36 fs 10    1451
  1584
  2463
  2577
  2635
  2723
    0.8 1 
    5.2 2 
    1.2 2 
   20 1 
   18.4 5 
   55 1 
(E2)
(E1(+M2))
(E1(+M2))
D,E2
M1+E2
M1+E2
   1271.80
   1138.55
    259.486
    145.821
     87.525
      0.0
9/2-
7/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   2747.12 16       G        9/2- 25 fs 10    1452
  1475
  2601
  2660
    1.8 5 
    5.3 4 
   86 1 
    7 1 
D,E2
D,E2
M1+E2
(E2)
   1294.96
   1271.80
    145.821
     87.525
11/2-
9/2-
7/2-
5/2-
   2767.32 6       GH       (1/2)- 10.4 fs 28    2767
  100
D,E2
      0.0
3/2-
   2810.04 12       G        7/2+ 0.11 ps 3     370
   841
  1063
  1538
  1671
  2149
  2550
  2664
  2722
    0.8 3 
    3.2 3 
   12.1 4 
   10.8 3 
    2.7 4 
   23.4 3 
    2.8 4 
    0.8 4 
   43 1 
(M1(+E2))
E2
M1+E2
(E1(+M2))
D,E2
M1+E2
(E2(+M3))

(E1(+M2))
   2439.54
   1968.92
   1746.96
   1271.80
   1138.55
    660.358
    259.486
    145.821
     87.525
5/2+
3/2+
9/2+
9/2-
7/2+
5/2+
3/2+
7/2-
5/2-
   2984.29 11       G        7/2- 5 fs 2    1712
  2838
  2896
  2984
   29.0 5 
   58 1 
   12 1 
    1.3 5 
M1+E2
M1+E2
M1+E2
(E2(+M3))
   1271.80
    145.821
     87.525
      0.0
9/2-
7/2-
5/2-
3/2-
   3005.45 3       GH       3/2- 6 fs 2    2918
  3005
   64.5 3 
   35.5 3 
D+Q
D+Q
     87.525
      0.0
5/2-
3/2-
   3054.22 15       G        5/2- 5 fs 2    1307?
  2908
  2966
  <14
   57 1 
   43 1 

D,E2
D,E2
   1746.96
    145.821
     87.525
9/2+
7/2-
5/2-
   3247.73 8       GH       7/2- 76 fs 21    1072
  1953
  1976
  2109?
  3102
  3160
  3248
   23 1 
   12 2 
   10 1 
   <5
   18 2 
   19 2 
   18 2 
M1+E2
E2
D,E2

D,E2
D,E2
E2(+M3)
   2175.86
   1294.96
   1271.80
   1138.55
    145.821
     87.525
      0.0
5/2-
11/2-
9/2-
7/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   3270.3 5   C EF         13/2+ 0.173 ps 28     855.5 6 
  1522.5 8 
  1976 1 
   15 2 
   79 2 
    6
D,E2
E2
(E1)
   2415.0
   1746.96
   1294.96
11/2+
9/2+
11/2-
   3303.53 4       G        3/2 32 fs 7    1221
  1335
  2643
  3044
  3216
    4.5 5 
    7 1 
    9 3 
    7.5 4 
   71 2 
D+Q
D,E2
D,E2
D+Q
D+Q
   2082.72
   1968.92
    660.358
    259.486
     87.525
3/2-
3/2+
5/2+
3/2+
5/2-
   3355.49 13       G        5/2+ 5 fs 2    2695
  3096
  3355
   18 1 
   78 1 
    4.1 4 
(M1+(E2))
D+Q
(E1(+M2))
    660.358
    259.486
      0.0
5/2+
3/2+
3/2-
   3362.65 9       GH       1/2 2.8 fs 14    1280
  3363
    2.0 3 
   98.1 3 
D,E2
D,E2
   2082.72
      0.0
3/2-
3/2-
   3370.52 4       GH       1/2,3/2,5/2+ 11.8 fs 21    1288
  1401
  3111
  3283?
  3370
    2.9 5 
    5 1 
   28 1 
   <8
   64 1 
D,E2
D,E2
D,E2

D,E2
   2082.72
   1968.92
    259.486
     87.525
      0.0
3/2-
3/2+
3/2+
5/2-
3/2-
   3370.56 8       GH       3/2 < 5 fs   3283
  3370
   65 2 
   35 2 
D+Q
D+Q
     87.525
      0.0
5/2-
3/2-
   3517.08 15       GH       5/2 < 6.9 fs   3371
  3429
  3517
   33 3 
   50 3 
    9 2 
D+Q
D,E2
D,E2
    145.821
     87.525
      0.0
7/2-
5/2-
3/2-
   3524.60 12       G        7/2+ 9.7 fs 28    2386
  2864
  3265
   31.8 4 
   66.7 4 
    1.6 3 
(M1(+E2))
(M1(+E2))
E2
   1138.55
    660.358
    259.486
7/2+
5/2+
3/2+
   3590.35 6       GH       5/2 6 fs 2    3444
  3503
  3590
   18 2 
    3 2 
   73 4 
D,E2
D,E2
D+Q
    145.821
     87.525
      0.0
7/2-
5/2-
3/2-
   3659.71 14       G        (7/2) 14 fs 4    2388
  2999
  3400?
  3572
   35 3 
   22 2 
   <5
   23 1 
D,E2
D,E2

D,E2
   1271.80
    660.358
    259.486
     87.525
9/2-
5/2+
3/2+
5/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   3694.4 3       G        5/2,3/2+ 6 fs 3    3034
  3435
  3607
   16 1 
   72 2 
   13 2 
D,E2
D+Q
D,E2
    660.358
    259.486
     87.525
5/2+
3/2+
5/2-
   3718.0 3       G        7/2,5/2,9/2+     3572
  3630?
  3718?
  100
  <20
  <14
D+Q


    145.821
     87.525
      0.0
7/2-
5/2-
3/2-
   3721.29 13       G        7/2+ 15 fs 6    2583
  3061
  3462
  3634
   19 1 
   74 1 
    1.5 4 
    5.1 5 
D,E2
M1(+E2)
(E2)
(E1)
   1138.55
    660.358
    259.486
     87.525
7/2+
5/2+
3/2+
5/2-
   3762.7 3       G        1/2 TO 5/2     3102
  3675
  3763
   17 4 
   29 4 
   13 7 



    660.358
     87.525
      0.0
5/2+
5/2-
3/2-
   3773.4 2       G        (1/2) < 11 fs   3686?
  3773
  <20
  100

D,E2
     87.525
      0.0
5/2-
3/2-
   3822.6 2       G        1/2,3/2 19 fs 9    1740
  2162
  3563
  3822
    3 1 
    6 1 
   18 2 
   70 3 
D,E2
D,E2

D,E2
   2082.72
   1660.62
    259.486
      0.0
3/2-
1/2+
3/2+
3/2-
   3869.0 3       GH       5/2 9.7 ps 35    3209?
  3609
  3723
  3781
  <12
   11 1 
   86 1 
    3 1 


D(+Q)

    660.358
    259.486
    145.821
     87.525
5/2+
3/2+
7/2-
5/2-
   3875.8 3       GH       5/2,3/2- < 8 fs   1793
  3729
  3875
   27 2 
   38 3 
   35 3 
D,E2
D+Q
D+Q
   2082.72
    145.821
      0.0
3/2-
7/2-
3/2-
   3876.0 2       GH       7/2- < 11 fs   1793?
  2581
  3788
  <11
   73 3 
   27 3 

(E2)
M1+E2
   2082.72
   1294.96
     87.525
3/2-
11/2-
5/2-
   3890.1 2       GH       1/2,3/2,5/2+ < 3.5 ps   2229
  3230?
  3630
  3744?
  3802?
  3890?
   12 3 
   <6
   57 6 
   <6
   <6
   <7
D,E2





   1660.62
    660.358
    259.486
    145.821
     87.525
      0.0
1/2+
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   3892.26 11       GH       3/2,5/2+ 24 fs 18    1716
  1810
  3633
    9 1 
    2 1 
   66 2 
D,E2
D,E2
D,E2
   2175.86
   2082.72
    259.486
5/2-
3/2-
3/2+
   3952.6 4       G        7/2 37 fs 14    2292?
  2681
  2814
  3292
  3693?
  3865?
  3952?
  <16
   13 3 
   24 5 
   37 6 
   <5
   <5
   <6

D+Q
D+Q
D+Q



   1660.62
   1271.80
   1138.55
    660.358
    259.486
     87.525
      0.0
1/2+
9/2-
7/2+
5/2+
3/2+
5/2-
3/2-
   3954.3 6   C EF         15/2+ 0.166 ps 28     684.0 5 
  1539.4 8 
    8 2 
   92 2 
D,E2
E2
   3270.3
   2415.0
13/2+
11/2+
   3958.7 3       G        3/2+ 9.0 fs 28    1876
  1990
  3298
  3699
  3959
    4.3 4 
    2 1 
   24 2 
   29 2 
   40 1 
(E1(+M2))
D,E2
D,E2
M1+E2
(E1(+M2))
   2082.72
   1968.92
    660.358
    259.486
      0.0
3/2-
3/2+
5/2+
3/2+
3/2-
   3984.97 17       GH       7/2,3/2+,5/2+ 24 fs 9    2846
  3324
  3725?
  3897
    4 1 
   48 2 
  <44
    5 1 
D,E2
D,E2


   1138.55
    660.358
    259.486
     87.525
7/2+
5/2+
3/2+
5/2-
   4080.60 12       G        3/2+ 15 fs 4    3420
  3821
  3993
    9 2 
   59 3 
   25 2 
D,E2
M1+E2
(E1(+M2))
    660.358
    259.486
     87.525
5/2+
3/2+
5/2-
   4099.06 14       GH       5/2-,3/2- < 8.3 fs   3839
  3953
  4011
  4099
   11 1 
   30 1 
    4 1 
   35 1 
D(+Q)
D+Q
D,E2
D,E2
    259.486
    145.821
     87.525
      0.0
3/2+
7/2-
5/2-
3/2-
   4100.31 10       GH       3/2- 5.5 fs 21    3841
  4013
  4100
    9 1 
   14 1 
   56 2 
D+Q
D+Q
D,E2
    259.486
     87.525
      0.0
3/2+
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4118.12 14       GH       3/2,1/2,5/2 13 fs 4    4118
   50 4 
D,E2
      0.0
3/2-
   4133.0 7   CDEF         19/2- 0.417 ps 28    1518.0 5 
  100
E2
   2615.0
15/2-
   4150.35 11       GH  K    5/2(-) < 7 fs   4004
  4063
  4150
   13 1 
   37 1 
   50 1 
D,E2
D,E2
D,E2
    145.821
     87.525
      0.0
7/2-
5/2-
3/2-
   4197.3 3       GH       5/2 < 11 fs   4051?
  4197
  <24
   43 4 

D,E2
    145.821
      0.0
7/2-
3/2-
   4207.10 14       G        3/2,1/2,5/2     2238
  2546?
  3068?
  3547?
  3947
  4061?
  4119?
  4207?
   30 8 
   <5
   <7
   <7
   29 8 
  <10
   <5
  <10








   1968.92
   1660.62
   1138.55
    660.358
    259.486
    145.821
     87.525
      0.0
3/2+
1/2+
7/2+
5/2+
3/2+
7/2-
5/2-
3/2-
   4222.48 6       G   K    5/2 < 11 fs   4135
  4222
   32 2 
   60 2 
D,E2
D+Q
     87.525
      0.0
5/2-
3/2-
   4271.60 20       GH  K    7/2,3/2+,5/2+     2189?
  2611?
  3611
  4012
  4126?
  4184?
  4272?
   <3
  <11
   16 3 
   24 3 
   <3
   <4
   <3







   2082.72
   1660.62
    660.358
    259.486
    145.821
     87.525
      0.0
3/2-
1/2+
5/2+
3/2+
7/2-
5/2-
3/2-
   4271.75 12       GH  K    (1/2) < 11 fs   2611
  4012?
  4272
   13 2 
  <13
   24 4 
D,E2

D,E2
   1660.62
    259.486
      0.0
1/2+
3/2+
3/2-
   4296 12        H  K    (7/2)-        
   4345.19 10       G        (1/2+) < 9 fs   2169?
  2262
  3685
  4086
  4345
   <4
   10 3 
   29 2 
   20 3 
   14 2 

(E1)
(E2)
(E1)
D,E2
   2175.86
   2082.72
    660.358
    259.486
      0.0
5/2-
3/2-
5/2+
3/2+
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4346.8 12 ?    E              1931 1 ?
 

   2415.0
11/2+
   4392.80 20       GH       1/2-,3/2- < 24 fs   4247?
  4305
  4393
   <4
   24 4 
   15 2 

D,E2
D,E2
    145.821
     87.525
      0.0
7/2-
5/2-
3/2-
   4402.6 3       G        7/2,5/2,9/2 < 28 fs   3108?
  3130
  3264?
  3742?
  4143?
  4257?
  4315?
  4402.6?
  <10
   42 15 
  <23
  <14
  <13
  <13
  <13
  <14

D+Q






   1294.96
   1271.80
   1138.55
    660.358
    259.486
    145.821
     87.525
      0.0
11/2-
9/2-
7/2+
5/2+
3/2+
7/2-
5/2-
3/2-
   4406.4 4       G            3746?
  4147
  4260?
  4319?
  4406?
   <6
   30 5 
   <5
   <5
  <11





    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   4453.7 2       G        7/2 11 fs 6    2793?
  3159?
  3315
  3793?
  4308
  4366?
  4453?
   <3
  <15
   16 2 
   <9
   24 4 
   <5
   <5


D+Q




   1660.62
   1294.96
   1138.55
    660.358
    145.821
     87.525
      0.0
1/2+
11/2-
7/2+
5/2+
7/2-
5/2-
3/2-
   4509.52 14       GH       7/2,3/2,5/2+     3849
   63 8 
D+Q
    660.358
5/2+
   4510.01 14       GH       5/2,3/2- < 8.3 fs   4422
  4510
   50 9 
   31 2 
D,E2
D,E2
     87.525
      0.0
5/2-
3/2-
   4514.5 3       GH       3/2,1/2,5/2-     3854?
  4255?
  4368?
  4427?
  4514?
  <16
  <16
  <17
  <17
  <17





    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4543.02 2       GH       03/2,1/2,5/2+     4283
  4543
   89 3 
   11 3 


    259.486
      0.0
3/2+
3/2-
   4568.68 20       G        5/2 < 9 fs   4568
   73 4 
D,E2
      0.0
3/2-
   4613 20        H              
   4694.33 11       G        5/2+,3/2+ < 8.3 fs   4435
   51 4 
M1+E2
    259.486
3/2+
   4719.2 3       G        3/2,1/2,5/2-     2543
  2636
  2750?
  3058?
  4631
   35 3 
   20 9 
   <7
  <11
   14 4 





   2175.86
   2082.72
   1968.92
   1660.62
     87.525
5/2-
3/2-
3/2+
1/2+
5/2-
   4733.8 3       G        9/2 < 15 fs   3462
  3464
  3594?
  4588?
  4646?
  4734?
   46 7 
   23 9 
   <8
   <7
   <7
   <7
D+Q
D,E2




   1271.80
   1271.80
   1138.55
    145.821
     87.525
      0.0
9/2-
9/2-
7/2+
7/2-
5/2-
3/2-
   4792.9 3       GH       1/2,3/2     2710
  4648?
  4705?
  4793
   17 3 
   <6
   <7
   68 7 




   2082.72
    145.821
     87.525
      0.0
3/2-
7/2-
5/2-
3/2-
   4796.8 3       GH       3/2,1/2-,5/2-     2585
  2714
  4709
  4797
    3 1 
   21 2 
    9 2 
   49 3 




   2211.75
   2082.72
     87.525
      0.0
1/2-
3/2-
5/2-
3/2-
   4807.30 14       G        5/2 15 fs 9    4147
  4548?
  4661
  4720?
  4807?
   24 6 
   <5
   26 4 
   <6
   <4


D+Q


    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   4852.5 3       G        5/2,1/2-,3/2-     4192?
  4593
  4706?
  4765
  4852?
   <6
   31 4 
   <6
   18 4 
   <6





    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   4907.6 2       G        5/2,3/2+,7/2+ < 13 fs   3769?
  4247
  4648?
  <12
   69 5 
   <6

D(+Q)

   1138.55
    660.358
    259.486
7/2+
5/2+
3/2+
   4955.12 13       G        1/2,3/2,5/2+     4295?
  4695
  4809?
  4867?
  4955?
  <10
   78 11 
  <14
  <15
  <17





    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   4976.5 3       G            4976
   22 2 

      0.0
3/2-
   4998.7 3       G        5/2,7/2     4338?
  4739?
  4852
  4911
  4998?
  <13
  <13
   20 9 
   49 12 
  <13





    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   4999.3 7   C EF         17/2+ 0.104 ps 35    1045.2 7 
  1728.6 9 
  2387?
   10 2 
   90 2 
   39
D,E2
E2
(E1)
   3954.3
   3270.3
   2615.0
15/2+
13/2+
15/2-
   5016.0 3       GH       3/2,5/2+ < 15 fs   4355?
  4756?
  4870?
  4928?
  5016
  <14
   <6
   <6
   <7
   43 6 




D+Q
    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   5108.65 13       GH       1/2,3/2,5/2+     4448?
  4849?
  4962?
  5021?
  5108
  <13
  <13
  <15
  <13
   54 25 





    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   5123.86 14       G        7/2,5/2+     3376
  3985
  4463
   17 3 
   24 3 
   38 12 



   1746.96
   1138.55
    660.358
9/2+
7/2+
5/2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   5142.16 9       G        3/2,1/2-,5/2- < 11 fs   4481?
  4882?
  4996?
  5054?
  5142
   <8
   <9
  <11
  <12
  100




D,E2
    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   5222.71 20       G        3/2,5/2+     4562?
  4963?
  5076?
  5135?
  5222
  <21
  <21
  <23
  <13
   64 24 




D+Q
    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   5240.0 3       G        5/2,3/2+,7/2+ < 5 fs   4579
   76 3 
D+Q
    660.358
5/2+
   5244 20        H       1/2-,3/2-        
   5387 20        H              
   5474 20        H              
   5538 20        H              
   5585 12        H       1/2-,3/2-        
   5635.9 3       G        3/2- < 19 fs   3424
  3553
  3975
  5548
  5635
    8
   37
    6
   30
   19
(M1+E2)
(M1+E2)
(E1)
(M1+E2)

   2211.75
   2082.72
   1660.62
     87.525
      0.0
1/2-
3/2-
1/2+
5/2-
3/2-
   5711 20 ?       H              
   5728.3 11     EF         (19/2+) 0.080 ps 17     729 1 ?
  1774.0 9 
  <10
  100

(E2)
   4999.3
   3954.3
17/2+
15/2+
   5738 3       G        1/2,3/2 < 7 fs   3562
  4077
  5077
  5478
  5650
    4
    9
   11
   72
    4
D,E2
D+Q
D,E2
D+Q
D,E2
   2175.86
   1660.62
    660.358
    259.486
     87.525
5/2-
1/2+
5/2+
3/2+
5/2-
   5748 20 ?       H              
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   5853.41 12       G        1/2 < 8 fs   2080
  2091
  2482.69
  3641
  3770
  5593
  5853
    1.9
    1.0
    8.1
   23
   58
    2.8
    1.3
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2

   3773.4
   3762.7
   3370.56
   2211.75
   2082.72
    259.486
      0.0
(1/2)
1/2 TO 5/2
3/2
1/2-
3/2-
3/2+
3/2-
   5885.20 21       GH       3/2 < 7 fs   2295
  3445
  3673
  3802
  4224
  5797
  5885
    3
    8
   13
    6
   12
   37
   21
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
   3590.35
   2439.54
   2211.75
   2082.72
   1660.62
     87.525
      0.0
5/2
5/2+
1/2-
3/2-
1/2+
5/2-
3/2-
   5887.33 12       GH       1/2 < 2 fs   3675
  3804
  4226
  5887
    2.1
   14
    3.5
   77
D,E2
D,E2
D,E2
D,E2
   2211.75
   2082.72
   1660.62
      0.0
1/2-
3/2-
1/2+
3/2-
   5894.60 13       GH       1/2 < 5 fs   2590
  3682
  3811
  4233
  5634
  5894
    1.1
    6.2
    7.4
   37
   24
   20
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
   3303.53
   2211.75
   2082.72
   1660.62
    259.486
      0.0
3/2
1/2-
3/2-
1/2+
3/2+
3/2-
   5903.0 9   CDEF         (23/2-) 0.254 ps 18    1769.8 9 
  100 5 
(E2)
   4133.0
19/2-
   5928 20 ?       H              
   5961.2 4       G        1/2 < 8.3 fs   1690.25
  1844
  2070
  3750
  3993
  4301
  5702
  5962
    1.2
    1.4
    2.9
   20
   15
   20
    7.0
   28
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2

D,E2
   4271.75
   4118.12
   3892.26
   2211.75
   1968.92
   1660.62
    259.486
      0.0
(1/2)
3/2,1/2,5/2
3/2,5/2+
1/2-
3/2+
1/2+
3/2+
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   5994.3 4       G        3/2 < 6 fs   2171
  2221
  2623.54
  2989
  3227
  3271
  3554
  3782
  3818
  3911
  4333
  5333
  5734
  5994
    1.6
    1.0
    1.0
    2.3
    4.9
    4.9
    2.0
    4.3
   17
    2.4
    4.2
   28
   21
    6
D,E2
D,E2
D,E2
D,E2
D+Q
D,E2
D+Q
D+Q
D,E2
D,E2
D(+Q)
D(+Q)
D+Q
D+Q
   3822.6
   3773.4
   3370.56
   3005.45
   2767.32
   2722.63
   2439.54
   2211.75
   2175.86
   2082.72
   1660.62
    660.358
    259.486
      0.0
1/2,3/2
(1/2)
3/2
3/2-
(1/2)-
5/2-
5/2+
1/2-
5/2-
3/2-
1/2+
5/2+
3/2+
3/2-
   6024.00 10       G        1/2- < 1.4 fs   1227
  2201
  2661
  3811
  3941
  4054
  5935
  6023
    1.3
    1.2
    3.1
    5.7
   16
    1.5
    2.2
   63
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
   4796.8
   3822.6
   3362.65
   2211.75
   2082.72
   1968.92
     87.525
      0.0
3/2,1/2-,5/2-
1/2,3/2
1/2
1/2-
3/2-
3/2+
5/2-
3/2-
   6036.7 13        H       1/2+        
   6036.8 10    DE          (21/2-) < 0.14 ps   1903.7 9 
  100
D,E2
   4133.0
19/2-
   6087.43 10       G        5/2 < 5 fs   1865
  2135
  2428
  3082
  3648
  3911
  4118
  4340
  4948
  5427
  5827
  5941
  5999
  6087
    1.3
    4.6
    1.1
    1
   33
    1.0
    1.0
    2.0
    8
   35
    4
    0.8
    1.0
    5
D,E2
D+Q
D,E2
D,E2
D(+Q)


D(+Q)
(M1+E2)
(M1+E2)
(M1+E2)
D(+Q)
D(+Q)
D+Q
   4222.48
   3952.6
   3659.71
   3005.45
   2439.54
   2175.86
   1968.92
   1746.96
   1138.55
    660.358
    259.486
    145.821
     87.525
      0.0
5/2
7/2
(7/2)
3/2-
5/2+
5/2-
3/2+
9/2+
7/2+
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6122.07 10       G        1/2 < 3 fs   2163
  3354
  3910
  4039
  4153
  4461
  5862
  6121
    8.2
    1.4
    4.4
    8.1
    7.6
   45
   18
    1.8
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2

   3958.7
   2767.32
   2211.75
   2082.72
   1968.92
   1660.62
    259.486
      0.0
3/2+
(1/2)-
1/2-
3/2-
3/2+
1/2+
3/2+
3/2-
   6132.60 9       GH       1/2+ < 1.4 fs   2761.83
  2761.87
  2770
  2829
  3693
  3920
  4163
  5472
  5873
  6132
    1.5
    5.3
    1.8
    5.7
    4.2
    3.7
   12
   11
   14
   35
D,E2
D,E2
D,E2
D,E2
(E2)
D,E2
D,E2
(E2)
D,E2
(E1)
   3370.56
   3370.52
   3362.65
   3303.53
   2439.54
   2211.75
   1968.92
    660.358
    259.486
      0.0
3/2
1/2,3/2,5/2+
1/2
3/2
5/2+
1/2-
3/2+
5/2+
3/2+
3/2-
   6157.52 10       GH       (5/2) < 17 fs   2199
  2463
  2802
  3718
  4188
  5018
  5497
  5897
  6011
  6069
  6157
    1.5
    4.8
    1.0
    3.3
    4.1
   29
   17
   25
    1.9
    3.5
    6.3
D,E2
D,E2



D,E2





   3958.7
   3694.4
   3355.49
   2439.54
   1968.92
   1138.55
    660.358
    259.486
    145.821
     87.525
      0.0
3/2+
5/2,3/2+
5/2+
5/2+
3/2+
7/2+
5/2+
3/2+
7/2-
5/2-
3/2-
   6165.97 9       GH       3/2(-) < 1.4 fs   1656
  1894.4
  1969
  2016
  2066
  2795
  2803
  3160
  3399
  3443
  3954
  3990
  4083
  5906
  6078
    1.0
    1.4
    1.2
    7.6
    1.8
    4.5
    2.2
    8.7
    1.5
   10
   34
    4.1
    3.1
    2.2
    7.7
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2

D,E2
   4510.01
   4271.60
   4197.3
   4150.35
   4100.31
   3370.56
   3362.65
   3005.45
   2767.32
   2722.63
   2211.75
   2175.86
   2082.72
    259.486
     87.525
5/2,3/2-
7/2,3/2+,5/2+
5/2
5/2(-)
3/2-
3/2
1/2
3/2-
(1/2)-
5/2-
1/2-
5/2-
3/2-
3/2+
5/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6190.59 10       GH       (3/2) < 2 fs   1622
  1968
  3185
  3423
  3468
  4014
  5530
  5930
  6102
  6190
    1.3
    1.3
    1.9
    1.8
    1.9
    1.3
   11
   47
    3.2
   23
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2

D,E2
   4568.68
   4222.48
   3005.45
   2767.32
   2722.63
   2175.86
    660.358
    259.486
     87.525
      0.0
5/2
5/2
3/2-
(1/2)-
5/2-
5/2-
5/2+
3/2+
5/2-
3/2-
   6229.55 10       G        5/2+ < 3 fs   1213
  1535
  2032
  2079
  2360
  2508
  2511
  2570
  2705
  2926
  3224
  3419
  3790
  4053
  4147
  4260
  4482
  4569
  5569
  5970
  6083
  6142
  6229
    0.7
    1.4
    0.3
    0.3
    4.1
    1.7
    0.6
    1.0
    1.5
    1.2
    2.8
   22
   14
    4.6
    2.0
   23
    1.9
    0.5
    2.9
    2.8
    3.4
    2.8
    1.6
D(+Q)
D(+Q)
D(+Q)
(E1(+M2))
D(+Q)
D+Q
D+Q
D+Q
D,E2
D,E2
(E1)
(M1+E2)
(M1+E2)
(E1(+M2))
(E1(+M2))
M1+E2
E2(+M3)
E2+M3
M1+E2
M1+E2
(E1+M2)
(E1+M2)
(E1+M2)
   5016.0
   4694.33
   4197.3
   4150.35
   3869.0
   3721.29
   3718.0
   3659.71
   3524.60
   3303.53
   3005.45
   2810.04
   2439.54
   2175.86
   2082.72
   1968.92
   1746.96
   1660.62
    660.358
    259.486
    145.821
     87.525
      0.0
3/2,5/2+
5/2+,3/2+
5/2
5/2(-)
5/2
7/2+
7/2,5/2,9/2+
(7/2)
7/2+
3/2
3/2-
7/2+
5/2+
5/2-
3/2-
3/2+
9/2+
1/2+
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6239.95 10       G        3/2 < 0.7 fs   1241
  1521
  1671
  1725
  1847
  1895
  2017
  2139
  2141
  2649
  2877
  3185
  3234
  3472
  3800
  4028
  4064
  4157
  4579
  5579
  5980
  6152
  6239
    0.3
    0.4
    0.8
    0.3
    0.4
    1.1
    1.1
    3.6
    1.0
    2.4
    1.2
    2.8
    0.5
    3.2
    1.3
    4.9
   29
    0.5
    0.7
    1.2
    1.2
   35
    4.9
D+Q
D+Q
D+Q
D+Q
D+Q
D(+Q)
D,E2
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
D(+Q)
D(+Q)
D+Q
D+Q
   4998.7
   4719.2
   4568.68
   4514.5
   4392.80
   4345.19
   4222.48
   4100.31
   4099.06
   3590.35
   3362.65
   3054.22
   3005.45
   2767.32
   2439.54
   2211.75
   2175.86
   2082.72
   1660.62
    660.358
    259.486
     87.525
      0.0
5/2,7/2
3/2,1/2,5/2-
5/2
3/2,1/2,5/2-
1/2-,3/2-
(1/2+)
5/2
3/2-
5/2-,3/2-
5/2
1/2
5/2-
3/2-
(1/2)-
5/2+
1/2-
5/2-
3/2-
1/2+
5/2+
3/2+
5/2-
3/2-
   6270.93 10       GH       (3/2) < 0.4 fs   1878
  2048
  2170
  2378
  2680
  2754
  2900.13
  2908
  3217
  3503
  3548
  6011
  6183
  6270
    2.1
    1.8
    6.0
    1.4
    1.5
    1.2
    4.1
    1.9
    1.9
    1.0
    9.3
    4.3
   46
   12
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
   4392.80
   4222.48
   4100.31
   3892.26
   3590.35
   3517.08
   3370.56
   3362.65
   3054.22
   2767.32
   2722.63
    259.486
     87.525
      0.0
1/2-,3/2-
5/2
3/2-
3/2,5/2+
5/2
5/2
3/2
1/2
5/2-
(1/2)-
5/2-
3/2+
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6296.60 10       GH       3/2- < 1.4 fs   1154
  1444
  1500
  1786
  2024.6
  2099
  2178
  2197
  2523
  2706
  2925.79
  2934
  3857
  4120
  4213
  4327
  4635
  6208
  6296
    0.3
    0.5
    0.6
    1.8
    0.9
    1.1
    2.8
    4.2
    0.8
    1.9
    9.4
    2.4
    1.8
    1.2
    5.1
    1.2
    5.4
    2.5
   52
D(+Q)
D+Q
D+Q
D+Q
D+Q
D+Q
D,E2
D+Q
D+Q
D,E2
D+Q
D,E2
D(+Q)
E1
M1+E2
(E1+M2)
(E1(+M2))
(M1+E2)
M1+E2
   5142.16
   4852.5
   4796.8
   4510.01
   4271.75
   4197.3
   4118.12
   4099.06
   3773.4
   3590.35
   3370.56
   3362.65
   2439.54
   2175.86
   2082.72
   1968.92
   1660.62
     87.525
      0.0
3/2,1/2-,5/2-
5/2,1/2-,3/2-
3/2,1/2-,5/2-
5/2,3/2-
(1/2)
5/2
3/2,1/2,5/2
5/2-,3/2-
(1/2)
5/2
3/2
1/2
5/2+
5/2-
3/2-
3/2+
1/2+
5/2-
3/2-
   6350.98 10       G        (3/2)     1209
  1335
  1352
  1782
  1836
  1841
  2079
  2128
  2153
  2200
  2233
  2250
  2270
  2392
  2475.3
  2528
  2760
  2834
  2980
  2980
  3296
  3345
  3583
  3628
  3911
  4139
  4175
  4268
  4383
  4690
  5690
  6091
  6204
  6263
  6350
    0.1
    0.2
    0.1
    1.0
    0.1
    0.4
    0.6
    0.9
    0.2
    0.1
    0.5
    1.7
    1.0
    0.4
    0.3
    0.3
    1.1
    0.6
    1.4
    1.2
    0.5
    0.1
    1.2
    2.9
    0.9
    7.1
    0.9
   11
    2.3
    3.4
    1.8
    9.8
    0.6
   17
   28



































   5142.16
   5016.0
   4998.7
   4568.68
   4514.5
   4510.01
   4271.75
   4222.48
   4197.3
   4150.35
   4118.12
   4100.31
   4080.60
   3958.7
   3875.8
   3822.6
   3590.35
   3517.08
   3370.56
   3370.52
   3054.22
   3005.45
   2767.32
   2722.63
   2439.54
   2211.75
   2175.86
   2082.72
   1968.92
   1660.62
    660.358
    259.486
    145.821
     87.525
      0.0
3/2,1/2-,5/2-
3/2,5/2+
5/2,7/2
5/2
3/2,1/2,5/2-
5/2,3/2-
(1/2)
5/2
5/2
5/2(-)
3/2,1/2,5/2
3/2-
3/2+
3/2+
5/2,3/2-
1/2,3/2
5/2
5/2
3/2
1/2,3/2,5/2+
5/2-
3/2-
(1/2)-
5/2-
5/2+
1/2-
5/2-
3/2-
3/2+
1/2+
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6373.82 10       G        (1/2) < 2 fs   1831
  2166
  2273
  2293
  2415
  2483
  2600
  3003
  3003
  3606
  4162
  4291
  4404
  4713
  6114
  6373
    3.5
    2.2
    1.0
    9
    3.4
    2.5
    4.3
    1.0
    1.8
    3.6
    5.5
    1.4
    2.0
   32
   11
   15
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
   4543.02
   4207.10
   4100.31
   4080.60
   3958.7
   3890.1
   3773.4
   3370.56
   3370.52
   2767.32
   2211.75
   2082.72
   1968.92
   1660.62
    259.486
      0.0
03/2,1/2,5/2+
3/2,1/2,5/2
3/2-
3/2+
3/2+
1/2,3/2,5/2+
(1/2)
3/2
1/2,3/2,5/2+
(1/2)-
1/2-
3/2-
3/2+
1/2+
3/2+
3/2-
   6387.28 10       G        (5/2+) < 3 fs   1147
  1877.49
  1933
  1981
  2402
  2518
  2666
  2727
  2862
  3031
  3333
  3403
  3577
  3947
  4418
  5248
  5726
  6299
  6387
    1.1
    1.5
    1.3
    1.2
    5.1
    5.0
    1.0
    1.9
   26
    2.8
    2.7
    1.4
    3.2
    3.0
    7.5
    1.6
   21
    3.1
    1.7
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
(E1)
D,E2
D,E2
D,E2
(E1)
(E1)
D,E2
D,E2
D,E2

D,E2


   5240.0
   4509.52
   4453.7
   4406.4
   3984.97
   3869.0
   3721.29
   3659.71
   3524.60
   3355.49
   3054.22
   2984.29
   2810.04
   2439.54
   1968.92
   1138.55
    660.358
     87.525
      0.0
5/2,3/2+,7/2+
7/2,3/2,5/2+
7/2

7/2,3/2+,5/2+
5/2
7/2+
(7/2)
7/2+
5/2+
5/2-
7/2-
7/2+
5/2+
3/2+
7/2+
5/2+
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6392.5 24 ?  C                 486.0 20 ?
 

   5903.0
(23/2-)
   6393.95 10       GH       5/2+ < 1.4 fs   1154
  1270
  1486
  1584
  1884.1
  1940
  2244
  2314
  2409
  2441
  2672
  2699
  2734
  2869
  3038
  3146
  3583
  3671
  3954
  4311
  4424
  5733
  6134
  6247
  6306
    1.2
    0.8
    0.7
    0.4
    0.7
    1.2
    0.1
    1.1
    3.1
    1.0
    6.1
    1
    3.4
   25
    8.4
    0.7
   10
    0.7
    4.4
    3.7
    6.5
   12
    2.5
    0.7
    0.5
D(+Q)
D+Q
D+Q
D+Q
D+Q
D+Q
(E1+M2)
D,E2
D(+Q)
D,E2
D+Q
D,E2
D+Q
(M1+E2)
(M1(+E2))
(E1+M2)
(M1+E2)
(E1(+M2))
(M1+E2)
(E1+M2)
(M1(+E2))
D,E2
(M1+E2)
(E1+M2)
(E1+M2)
   5240.0
   5123.86
   4907.6
   4807.30
   4509.52
   4453.7
   4150.35
   4080.60
   3984.97
   3952.6
   3721.29
   3694.4
   3659.71
   3524.60
   3355.49
   3247.73
   2810.04
   2722.63
   2439.54
   2082.72
   1968.92
    660.358
    259.486
    145.821
     87.525
5/2,3/2+,7/2+
7/2,5/2+
5/2,3/2+,7/2+
5/2
7/2,3/2,5/2+
7/2
5/2(-)
3/2+
7/2,3/2+,5/2+
7/2
7/2+
5/2,3/2+
(7/2)
7/2+
5/2+
7/2-
7/2+
5/2-
5/2+
3/2-
3/2+
5/2+
3/2+
7/2-
5/2-
   6425.87 13       GH       3/2 < 1.4 fs   2275
  2307
  2325
  2550.2
  2835
  3055
  3122
  3659
  4214
  4250
  4457
  4765
  5765
  6166
  6279
  6338
  6425
    2.4
    1.6
    2.3
    2.1
    2.3
    1.8
    1.0
    1.1
   37
   30
    3.9
    1.9
    1.0
    0.9
    0.3
    3.6
    3.1
D+Q
D+Q
D,E2
D+Q
D+Q
D,E2
D,E2
D,E2
D+Q
D+Q
D+Q
D+Q

D+Q
Q+O
D+Q
D(+Q)
   4150.35
   4118.12
   4100.31
   3875.8
   3590.35
   3370.56
   3303.53
   2767.32
   2211.75
   2175.86
   1968.92
   1660.62
    660.358
    259.486
    145.821
     87.525
      0.0
5/2(-)
3/2,1/2,5/2
3/2-
5/2,3/2-
5/2
3/2
3/2
(1/2)-
1/2-
5/2-
3/2+
1/2+
5/2+
3/2+
7/2-
5/2-
3/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6427.39 13       GH       5/2 < 1.4 fs   2346
  2706
  2902
  3987
  4458
  5288
  5766
  6167
  6339
    1.1
    1.0
    2.1
    6.7
   21
    4.5
   26
    3.1
   25
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2
D,E2

D,E2
   4080.60
   3721.29
   3524.60
   2439.54
   1968.92
   1138.55
    660.358
    259.486
     87.525
3/2+
7/2+
7/2+
5/2+
3/2+
7/2+
5/2+
3/2+
5/2-
   6475.30 10       G        5/2+ < 1.4 fs   1252
  2394
  2490
  2516
  2522
  2781
  2815
  3171
  3227
  3665
  4035
  4392
  4506
  5336
  5814
  6215
  6329
  6475
    0.5
    2.5
    0.6
    1.1
    2.4
    1.1
    2.6
   19
    0.5
    3.3
    1.6
    4.2
   20
    2.0
   19
    7.0
    0.4
    7.0
D+Q
(M1(+E2))
D,E2
D,E2
D,E2
D+Q
D,E2
D+Q
D+Q
D,E2
(M1(+E2))
(E1+M2)
(M1+E2)
M1+E2
(M1+E2)
(M1+E2)
(E1(+M2))
(E1+M2)
   5222.71
   4080.60
   3984.97
   3958.7
   3952.6
   3694.4
   3659.71
   3303.53
   3247.73
   2810.04
   2439.54
   2082.72
   1968.92
   1138.55
    660.358
    259.486
    145.821
      0.0
3/2,5/2+
3/2+
7/2,3/2+,5/2+
3/2+
7/2
5/2,3/2+
(7/2)
3/2
7/2-
7/2+
5/2+
3/2-
3/2+
7/2+
5/2+
3/2+
7/2-
3/2-
   6570 20        H              
   6679.73 21       G        7/2(-) < 1.4 fs   1681
  1946
  2111
  2277
  2457
  2803
  2958
  2961
  3089
  3162
  3432
  3625
  3695
  3932
  3957
  4240
  4503
  4932
  5407
  6533
  6591
    0.3
    0.8
    0.4
    0.4
    1.4
    1.3
    0.4
    0.6
    0.5
    2.3
    3.7
    3.4
   22
    6.6
    9.2
    4.2
    0.4
    1.4
   19
   10
   10
D(+Q)
D+Q
D+Q
D+Q
D+Q
(M1+(E2))
D(+Q)
(E1+M2)
D+Q
D+Q
(M1(+E2))
(M1+E2)
(M1(+E2))
(M1+E2)
(M1(+E2))
(E1(+M2))
(M1(+E2))
(E1(+M2))
(M1+E2)
(M1+E2)
(M1+E2)
   4998.7
   4733.8
   4568.68
   4402.6
   4222.48
   3876.0
   3721.29
   3718.0
   3590.35
   3517.08
   3247.73
   3054.22
   2984.29
   2747.12
   2722.63
   2439.54
   2175.86
   1746.96
   1271.80
    145.821
     87.525
5/2,7/2
9/2
5/2
7/2,5/2,9/2
5/2
7/2-
7/2+
7/2,5/2,9/2+
5/2
5/2
7/2-
5/2-
7/2-
9/2-
5/2-
5/2+
5/2-
9/2+
9/2-
7/2-
5/2-
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6683.16 12       G            1440?
  1541
  2114
  2173?
  2173?
  2411?
  2411?
  2460
  2791
  3092
  3166
  3312?
  3312?
  3320
  3629
  3677
  3916
  3960
  4507
  4600
  4714
  5022
  6022
  6595
  6683
    0.7
    0.4
    2.1
    4.2
    4.2
    2.8
    2.8
   12.3
    1.4
    6.0
    6.9
    6.6
    6.6
    6.4
    1.1
   12.0
    1.1
    4.5
    4.2
    0.9
    0.5
    1.2
    3.9
    2.8
   14.1
D+Q
D+Q



D+Q
D+Q
D+Q

D+Q
D+Q
D+Q
D+Q
D+Q

D+Q

D+Q

D+Q
D+Q
D+Q
D+Q
D+Q
D+Q
   5244
   5142.16
   4568.68
   4510.01
   4509.52
   4271.75
   4271.60
   4222.48
   3892.26
   3590.35
   3517.08
   3370.56
   3370.52
   3362.65
   3054.22
   3005.45
   2767.32
   2722.63
   2175.86
   2082.72
   1968.92
   1660.62
    660.358
     87.525
      0.0
1/2-,3/2-
3/2,1/2-,5/2-
5/2
5/2,3/2-
7/2,3/2,5/2+
(1/2)
7/2,3/2+,5/2+
5/2
3/2,5/2+
5/2
5/2
3/2
1/2,3/2,5/2+
1/2
5/2-
3/2-
(1/2)-
5/2-
5/2-
3/2-
3/2+
1/2+
5/2+
5/2-
3/2-
   6693.23 21       G        1/2+ < 0.9 fs   2486
  2734
  2803
  3322
  4610
  5032
  6433
    1.4
    1.0
    1.7
    1.5
    3.1
   37
   49
D,E2
D,E2
D,E2
D,E2
(E1)
D,E2
D,E2
   4207.10
   3958.7
   3890.1
   3370.56
   2082.72
   1660.62
    259.486
3/2,1/2,5/2
3/2+
1/2,3/2,5/2+
3/2
3/2-
1/2+
3/2+
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   6700      GH           1460
  2131
  2428?
  2428?
  2477
  3109
  3182
  3329?
  3329?
  3645
  3694
  3932
  4523
  4617
  6039
  6612
    1.0
    1.8
    1.2
    1.2
    7.7
    4.1
    5.3
    5.5
    5.5
    4.2
    2.3
    2.2
    2.1
   13.0
    1.7
   43.8

D+Q


D+Q
D+Q
D+Q
D+Q
D+Q
D+Q

D+Q

D+Q

D+Q
   5240.0
   4568.68
   4271.75
   4271.60
   4222.48
   3590.35
   3517.08
   3370.56
   3370.52
   3054.22
   3005.45
   2767.32
   2175.86
   2082.72
    660.358
     87.525
5/2,3/2+,7/2+
5/2
(1/2)
7/2,3/2+,5/2+
5/2
5/2
5/2
3/2
1/2,3/2,5/2+
5/2-
3/2-
(1/2)-
5/2-
3/2-
5/2+
5/2-
   6749 20        H              
   6869.0 9   C EF         21/2+ < 0.21 ps    966
  1869.8 9 
    6
   94
(E1)
E2
   5903.0
   4999.3
(23/2-)
17/2+
   6895 20        H              
   6953.8 3       GH       9/2+ < 7 fs   3001
  5206
  5658
  5681
  6807
   13
   61
    9
    5
   12
D,E2
M1+E2
(E1(+M2))
(E1+M2)
D(+Q)
   3952.6
   1746.96
   1294.96
   1271.80
    145.821
7/2
9/2+
11/2-
9/2-
7/2-
   7008 20        H              
   7398.9 10   CDEF         (25/2-) 0.090 ps 14    1362.1 7 
  1495.9 8 
    8 2 
   92 2 
(E2)
(M1)
   6036.8
   5903.0
(21/2-)
(23/2-)
   7725.9 14     EF         (23/2+) 0.069 ps 21    1997.6 9 
  100
(E2)
   5728.3
(19/2+)
   7883.4 10   CDEF         (27/2-) 0.107 ps 12     484.5 4 
  1980.4 9 
   65 5 
   35 5 
M1
E2
   7398.9
   5903.0
(25/2-)
(23/2-)
E(level)
(keV)		XREFJπ(level) T1/2(level)E(γ)
(keV)		I(γ)M(γ)Final Levels
   8781.7 13     E          (25/2+)     1912.6 9 
  100

   6869.0
21/2+
   9610.5 17     EF         (27/2+) 0.0984 ps 30    1884.5 9 
  100
(E2)
   7725.9
(23/2+)
  10004.6 12   CDEF         (31/2-) 0.249 ps 17    2121.0 10 
  100 5 
E2
   7883.4
(27/2-)
  10768.7 11    DEF         (29/2-) < 0.055 ps    764.0 6 
  2885 1 
  3370 1 
   50 7 
   20 6 
   30 5 
M1
D
D,E2
  10004.6
   7883.4
   7398.9
(31/2-)
(27/2-)
(25/2-)
  11094.5 17     E          (29/2+)     2312.8 10 
  100

   8781.7
(25/2+)
  11949.0 20     EF         (31/2+) 0.083 ps 14    2338.5 10 
  100
(E2)
   9610.5
(27/2+)
  14036.8 24      F         (35/2-) < 0.08 ps   4032 2 
  100
E2
  10004.6
(31/2-)
  14489.1 21     E          (33/2+) < 0.069 ps   2540.0 10 
  3394 1 ?
  >90
  <10
D,E2

  11949.0
  11094.5
(31/2+)
(29/2+)
  15258.2 21     E          (35/2+) < 0.069 ps    769.1 6 
  3309.0 10 
   10 3 
   90 2 
D
(E2)
  14489.1
  11949.0
(33/2+)
(31/2+)

E(level): From (p,γ) E=0.4-1.8 MeV res, except as noted in the comments, footnotes, or cross-reference column

Jπ(level): See tables above for summary of arguments by 1986De13 and arguments by 1991Ki11 and 1993Ca12 based on further analysis of the data of 1986De13 using the average-spin method and nonmetric multi-dimensional scaling method, respectively. Additional details are given in the (p,γ) E=0.4-1.8 MeV data set, as are additional restrictions based on "weak " arguments

T1/2(level): Except as noted, bound-state T1/2’s are from DSAM and resonance-state T1/2’s are based on the resonance strength in (p,γ) E=0.4-1.8 MeV

E(γ): Nominal Eγ’s calculated from excitation energies in (p,γ) E=0.4-1.8 MeV res, except as noted

I(γ): % photon branching ratio from each state. Data are given as percentages due to heavy reliance on 1986De13 who do not give all transitions

Back to top

Band Transitions:

E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - GS band, α=-1/2
      0.0 3/2- 32.6 m 3 
% ε = 100
     
    145.821 15  7/2- 0.51 ns 6      58.2 1 
   145.8 4 
   99.13 25 
    0.87 25 
(M1(+E2))
(E2)
     87.525
      0.0
5/2-
3/2-
   1294.96 6  11/2- 1.59 ps 44    1149.17 29 
  100
E2
    145.821
7/2-
   2615.0 5  15/2- 0.679 ps 49      56.2 4 
  1320.0 7 
  1343?
    0.2 6 
   99.8 6 
   <3.1
M1
E2

   2558.8
   1294.96
   1271.80
13/2-
11/2-
9/2-
   4133.0 7  19/2- 0.417 ps 28    1518.0 5 
  100
E2
   2615.0
15/2-
   5903.0 9  (23/2-) 0.254 ps 18    1769.8 9 
  100 5 
(E2)
   4133.0
19/2-
   7883.4 10  (27/2-) 0.107 ps 12     484.5 4 
  1980.4 9 
   65 5 
   35 5 
M1
E2
   7398.9
   5903.0
(25/2-)
(23/2-)
  10004.6 12  (31/2-) 0.249 ps 17    2121.0 10 
  100 5 
E2
   7883.4
(27/2-)
  14036.8 24  (35/2-) < 0.08 ps   4032 2 
  100
E2
  10004.6
(31/2-)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - GS band, α=+1/2
     87.525 9  5/2- 0.68 ns 4       
   1271.80 5  9/2- 0.25 ps 8    1125.7 5 
  1184.5 3 
   81.8 1 
   18.2 1 
M1+E2
E2
    145.821
     87.525
7/2-
5/2-
   2558.8 5  13/2- 0.42 ps 14    1263.8 7 
  1287.0 7 
   38
   62
D,E2
(E2)
   1294.96
   1271.80
11/2-
9/2-
   6036.8 10  (21/2-) < 0.14 ps   1903.7 9 
  100
D,E2
   4133.0
19/2-
   7398.9 10  (25/2-) 0.090 ps 14    1362.1 7 
  1495.9 8 
    8 2 
   92 2 
(E2)
(M1)
   6036.8
   5903.0
(21/2-)
(23/2-)
  10768.7 11  (29/2-) < 0.055 ps    764.0 6 
  2885 1 
  3370 1 
   50 7 
   20 6 
   30 5 
M1
D
D,E2
  10004.6
   7883.4
   7398.9
(31/2-)
(27/2-)
(25/2-)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - band BASED ON 3/2+, α=-1/2
    259.486 4  3/2+ 58 ps 6       
   1138.55 3  7/2+ 1.59 ps 35     478.0 5 
   878.7 3 
   992.7
  1050.0 7 
  1138
   25.0 5 
   32.5 4 
    4.4 2 
   38.0 4 
    4 3 
(M1+E2)
E2
(E1(+M2))
(E1+M2)

    660.358
    259.486
    145.821
     87.525
      0.0
5/2+
3/2+
7/2-
5/2-
3/2-
   2415.0 4  11/2+ 0.39 ps 4     667.8 5 
  1145 1 
  1276.2 7 
   11 1 
    3
   86 1 
(M1)
(E1)
(E2)
   1746.96
   1271.80
   1138.55
9/2+
9/2-
7/2+
   3954.3 6  15/2+ 0.166 ps 28     684.0 5 
  1539.4 8 
    8 2 
   92 2 
D,E2
E2
   3270.3
   2415.0
13/2+
11/2+
   5728.3 11  (19/2+) 0.080 ps 17     729 1 ?
  1774.0 9 
  <10
  100

(E2)
   4999.3
   3954.3
17/2+
15/2+
   7725.9 14  (23/2+) 0.069 ps 21    1997.6 9 
  100
(E2)
   5728.3
(19/2+)
   9610.5 17  (27/2+) 0.0984 ps 30    1884.5 9 
  100
(E2)
   7725.9
(23/2+)
  11949.0 20  (31/2+) 0.083 ps 14    2338.5 10 
  100
(E2)
   9610.5
(27/2+)
  15258.2 21  (35/2+) < 0.069 ps    769.1 6 
  3309.0 10 
   10 3 
   90 2 
D
(E2)
  14489.1
  11949.0
(33/2+)
(31/2+)
E(level)
(keV)		Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - band BASED ON 3/2+, α=+1/2
    660.358 9  5/2+ 1.6 ps 12       
   1746.96 4  9/2+ 0.56 ps 8     608.8 5 
  1086.8 7 
  1602 1 
   17 1 
   46 1 
   36 2 
M1+E2
E2(+M3)
(E1(+M2))
   1138.55
    660.358
    145.821
7/2+
5/2+
7/2-
   3270.3 5  13/2+ 0.173 ps 28     855.5 6 
  1522.5 8 
  1976 1 
   15 2 
   79 2 
    6
D,E2
E2
(E1)
   2415.0
   1746.96
   1294.96
11/2+
9/2+
11/2-
   4999.3 7  17/2+ 0.104 ps 35    1045.2 7 
  1728.6 9 
  2387?
   10 2 
   90 2 
   39
D,E2
E2
(E1)
   3954.3
   3270.3
   2615.0
15/2+
13/2+
15/2-
   6869.0 9  21/2+ < 0.21 ps    966
  1869.8 9 
    6
   94
(E1)
E2
   5903.0
   4999.3
(23/2-)
17/2+
   8781.7 13  (25/2+)     1912.6 9 
  100

   6869.0
21/2+
  11094.5 17  (29/2+)     2312.8 10 
  100

   8781.7
(25/2+)
  14489.1 21  (33/2+) < 0.069 ps   2540.0 10 
  3394 1 ?
  >90
  <10
D,E2

  11949.0
  11094.5
(31/2+)
(29/2+)

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Additional Gamma Data:















E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
     87.525 5/2- 0.68 ns 4      87.5 1 M1+E2+0.125 210.041B(E2)(W.u.)=2.4×102 8, B(M1)(W.u.)=0.046 3, α=0.041 4, α(K)=0.037 3, α(L)=0.0035 3, α(M)=0.00046 4, α(N)=2.27E-5 18, α(N+)=2.27E-5 18
    145.821 7/2- 0.51 ns 6      58.2 1 (M1(+E2))0.0449 LE0.100B(M1)(W.u.)=0.198 24, α=0.100 6, α(K)=0.090 5, α(L)=0.0086 5, α(M)=0.00113 7, α(N)=5.6×10-5 3, α(N+)=5.6E-5 3
7/2- 0.51 ns 6     145.8 4 (E2) 0.0873B(E2)(W.u.)=13 5, α=0.0873 16, α(K)=0.0787 14, α(L)=0.00751 14, α(M)=0.000974 18, α(N)=4.68E-5 9, α(N+)=4.69E-5 9
    259.486 3/2+ 58 ps 6     172.2 6 (E1(+M2))0.0049 LE0.00591B(E1)(W.u.)=0.00019 4, α=0.00591 11, α(K)=0.00535 10, α(L)=0.000488 9, α(M)=6.37E-5 12, α(N)=3.26E-6 6, α(N+)=3.26E-6 6
3/2+ 58 ps 6     259.4 5 (E1(+M2))0.0057 LE0.00173B(E1)(W.u.)=0.00046 5, α=0.00173 3, α(K)=0.001564 24, α(L)=0.0001425 22, α(M)=1.86E-5 3, α(N)=9.58E-7 15, α(N+)=9.58E-7 15
    660.358 5/2+ 1.6 ps 12     400.8 5 M1 0.000732B(M1)(W.u.)=0.06 5, α=0.000732 11, α(K)=0.000663 10, α(L)=6.08×10-5 9, α(M)=7.97E-6 12, α(N)=4.14E-7 6, α(N+)=4.14E-7 6
5/2+ 1.6 ps 12     514.5(E1(+M2))0.012 LE0.000262B(E1)(W.u.)=0.0004 4, α=0.000262 4, α(K)=0.000238 4, α(L)=2.16E-5 3, α(M)=2.83E-6 4, α(N)=1.470E-7 21, α(N+)=1.470E-7 21
5/2+ 1.6 ps 12     572.5 5 (E1(+M2))0.018 LE0.000202B(E1)(W.u.)=0.00024 19, α=0.000202 3, α(K)=0.000183 3, α(L)=1.663E-5 24, α(M)=2.18E-6 3, α(N)=1.131E-7 17, α(N+)=1.131E-7 17
5/2+ 1.6 ps 12     660.1 3 (E1(+M2))0.014 LE0.0001440B(E1)(W.u.)=0.0004 4, α=0.0001440 21, α(K)=0.0001306 19, α(L)=1.187E-5 17, α(M)=1.554E-6 22, α(N)=8.09E-8 12, α(N+)=8.09E-8 12
   1138.55 7/2+ 1.59 ps 35     478.0 5 (M1+E2) 0.0008α=0.0008 4, α(K)=0.0007 3, α(L)=7.E-5 3, α(M)=9.E-6 4, α(N)=4.5E-7 18, α(N+)=4.5E-7 18
7/2+ 1.59 ps 35     878.7 3 E2 0.000190B(E2)(W.u.)=22 5, α=0.000190 3, α(K)=0.0001723 25, α(L)=1.573E-5 22, α(M)=2.06E-6 3, α(N)=1.069E-7 15, α(N+)=1.069E-7 15
7/2+ 1.59 ps 35     992.7(E1(+M2))0.105 LE6.22×10-5B(E1)(W.u.)=1.9E-5 9, α=6.22E-5 17, α(K)=5.64E-5 16, α(L)=5.11E-6 14, α(M)=6.70E-7 19, α(N)=3.50E-8 10, α(N+)=3.50E-8 10
7/2+ 1.59 ps 35    1050.0 7 (E1+M2)+0.05 45.49×10-5B(E1)(W.u.)=0.000107 24, B(M2)(W.u.)=1.1 +18-11, α=5.49E-5 12, α(K)=4.98E-5 11, α(L)=4.52E-6 10, α(M)=5.92E-7 13, α(N)=3.09E-8 7, α(N+)=3.09E-8 7
   1271.80 9/2- 0.25 ps 8    1125.7 5 M1+E2-0.43 68.85×10-5B(E2)(W.u.)=16 7, B(M1)(W.u.)=0.043 14, α=8.85E-5 15, α(K)=7.89E-5 13, α(L)=7.17E-6 12, α(M)=9.40E-7 16, α(N)=4.91E-8 8, α(N+)=1.43E-6 4
9/2- 0.25 ps 8    1184.5 3 E2 9.95×10-5B(E2)(W.u.)=18 6, α=9.95E-5 14, α(K)=8.38E-5 12, α(L)=7.63E-6 11, α(M)=9.99E-7 14, α(N)=5.21E-8 8, α(N+)=7.06E-6 11
   1294.96 11/2- 1.59 ps 44    1149.17 29 E2 0.0001030B(E2)(W.u.)=18 5, α=0.0001030 15, α(K)=8.98E-5 13, α(L)=8.17E-6 12, α(M)=1.071E-6 15, α(N)=5.58E-8 8, α(N+)=3.46E-6 6
   1660.62 1/2+ 0.37 ps 16    1000(E2) 0.0001380B(E2)(W.u.)=2.0 9, α=0.0001380 20, α(K)=0.0001247 18, α(L)=1.136E-5 16, α(M)=1.488E-6 21, α(N)=7.74E-8 11, α(N+)=7.74E-8 11
1/2+ 0.37 ps 16    1661(E1(+M2))0.088 LE0.000412B(E1)(W.u.)=8.E-5 4, α=0.000412 6, α(K)=2.27E-5 4, α(L)=2.06E-6 4, α(M)=2.69E-7 5, α(N)=1.409E-8 25, α(N+)=0.000387 6
   1746.96 9/2+ 0.56 ps 8     608.8 5 M1+E2 0.00041α=0.00041 12, α(K)=0.00037 11, α(L)=3.4×10-5 10, α(M)=4.5E-6 13, α(N)=2.3E-7 7, α(N+)=2.3E-7 7
9/2+ 0.56 ps 8    1086.8 7 E2(+M3)-0.00 30.0001130B(E2)(W.u.)=30 5, α=0.0001130 16, α(K)=0.0001022 15, α(L)=9.31E-6 14, α(M)=1.219E-6 18, α(N)=6.35E-8 9, α(N+)=6.35E-8 9
9/2+ 0.56 ps 8    1602 1 (E1(+M2))+0.00 10.000369B(E1)(W.u.)=8.1E-5 13, α=0.000369 6, α(K)=2.38E-5 4, α(L)=2.15E-6 3, α(M)=2.82E-7 4, α(N)=1.477E-8 21, α(N+)=0.000343 5
   1968.92 3/2+ 0.44 ps 12     308(M1(+E2))0.041 LE1.35×10-3B(M1)(W.u.)=0.024 10, α=1.35×10-3 2, α(K)=0.001221 18, α(L)=0.0001124 17, α(M)=1.472E-5 22, α(N)=7.63E-7 11, α(N+)=7.63E-7 11
3/2+ 0.44 ps 12     830(E2) 0.000221B(E2)(W.u.)=2.9 11, α=0.000221 4, α(K)=0.000200 3, α(L)=1.83E-5 3, α(M)=2.39E-6 4, α(N)=1.240E-7 18, α(N+)=1.240E-7 18
3/2+ 0.44 ps 12    1309M1+E2 9.5×10-5α=9.5×10-5 10, α(K)=6.2E-5 5, α(L)=5.7E-6 5, α(M)=7.4E-7 6, α(N)=3.9E-8 4, α(N+)=2.6E-5 5
3/2+ 0.44 ps 12    1709M1+E2 1.97×10-4α=1.97×10-4 23, α(K)=3.72E-5 19, α(L)=3.37E-6 18, α(M)=4.42E-7 23, α(N)=2.31E-8 12, α(N+)=0.000156 21
3/2+ 0.44 ps 12    1881(E1(+M2))-0.01 10.000574B(E1)(W.u.)=0.00010 3, B(M2)(W.u.)=0.0125 +252-13, α=0.000574 9, α(K)=1.86E-5 3, α(L)=1.681E-6 24, α(M)=2.20E-7 3, α(N)=1.153E-8 17, α(N+)=0.000554 8
3/2+ 0.44 ps 12    1969(E1(+M2))-0.02 40.000636B(E1)(W.u.)=4.4E-6 13, B(M2)(W.u.)=0.00210 +841-21, α=0.000636 9, α(K)=1.74E-5 3, α(L)=1.571E-6 24, α(M)=2.06E-7 3, α(N)=1.078E-8 17, α(N+)=0.000617 9
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   2082.72 3/2- 14.6 fs 35    1422(E1(+M2))0.11 LE0.000234B(E1)(W.u.)=3.6E-5 16, α=0.000234 4, α(K)=2.95E-5 8, α(L)=2.67E-6 7, α(M)=3.50E-7 9, α(N)=1.83E-8 5, α(N+)=0.000202 4
3/2- 14.6 fs 35    1937(E2) 0.000317B(E2)(W.u.)=2.3 7, α=0.000317 5, α(K)=3.08E-5 5, α(L)=2.79E-6 4, α(M)=3.65E-7 6, α(N)=1.91E-8 3, α(N+)=0.000283 4
3/2- 14.6 fs 35    1995M1+E2 0.00031α=0.00031 4, α(K)=2.81×10-5 11, α(L)=2.55E-6 11, α(M)=3.34E-7 14, α(N)=1.75E-8 7, α(N+)=0.00028 4
   2175.86 5/2- 15 fs 5    1916(E1(+M2))0.24 LE5.81×10-4B(E1)(W.u.)=1.4E-5 7, α=5.81E-4 20, α(K)=1.94E-5 14, α(L)=1.75E-6 13, α(M)=2.30E-7 16, α(N)=1.20E-8 9, α(N+)=0.000560 21
5/2- 15 fs 5    2088M1+E2+0.56 113.33×10-4B(E2)(W.u.)=4.8 22, B(M1)(W.u.)=0.026 10, α=3.33E-4 7, α(K)=2.55E-5 4, α(L)=2.31E-6 4, α(M)=3.02E-7 5, α(N)=1.584E-8 24, α(N+)=0.000305 7
5/2- 15 fs 5    2176M1+E2 0.00039α=0.00039 4, α(K)=2.41×10-5 9, α(L)=2.19E-6 8, α(M)=2.87E-7 10, α(N)=1.50E-8 6, α(N+)=0.00036 4
   2211.75 1/2- 83 fs 21     551(E1(+M2))0.017 LE0.0007B(E1)(W.u.)=0.00022 7, α=0.0007 5, α(K)=0.000201 3, α(L)=1.83E-5 3, α(M)=2.39E-6 4, α(N)=1.241E-7 18, α(N+)=1.241E-7 18
1/2- 83 fs 21    1952(E1(+M2))0.082 LE0.000623B(E1)(W.u.)=0.00012 3, α=0.000623 9, α(K)=1.77E-5 3, α(L)=1.60E-6 3, α(M)=2.10E-7 4, α(N)=1.099E-8 18, α(N+)=0.000603 9
1/2- 83 fs 21    2124(E2) 0.000403B(E2)(W.u.)=0.67 17, α=0.000403 6, α(K)=2.60E-5 4, α(L)=2.36E-6 4, α(M)=3.09E-7 5, α(N)=1.616E-8 23, α(N+)=0.000374 6
   2415.0 11/2+ 0.39 ps 4     667.8 5 (M1) 0.000240B(M1)(W.u.)=0.021 3, α=0.000240 4, α(K)=0.000217 3, α(L)=1.98×10-5 3, α(M)=2.60E-6 4, α(N)=1.355E-7 19, α(N+)=1.355E-7 19
11/2+ 0.39 ps 4    1145 1 (E1) 7.12×10-5B(E1)(W.u.)=2.7E-5 3, α=7.12E-5 11, α(K)=4.21E-5 6, α(L)=3.82E-6 6, α(M)=5.00E-7 7, α(N)=2.61E-8 4, α(N+)=2.48E-5 6
11/2+ 0.39 ps 4    1276.2 7 (E2) 0.0001020B(E2)(W.u.)=37 4, α=0.0001020 15, α(K)=7.10E-5 10, α(L)=6.46E-6 9, α(M)=8.46E-7 12, α(N)=4.41E-8 7, α(N+)=2.35E-5 4
   2439.54 5/2+ 65 fs 14     470.6M1+E2+0.08 35.15×10-4B(E2)(W.u.)=26 21, B(M1)(W.u.)=0.35 9, α=5.15E-4 9, α(K)=0.000467 8, α(L)=4.27E-5 7, α(M)=5.59E-6 9, α(N)=2.91E-7 5, α(N+)=2.91E-7 5
5/2+ 65 fs 14     778.9(E2) 0.000262B(E2)(W.u.)=27 11, α=0.000262 4, α(K)=0.000237 4, α(L)=2.17E-5 3, α(M)=2.84E-6 4, α(N)=1.470E-7 21, α(N+)=1.470E-7 21
5/2+ 65 fs 14    1779M1+E2 0.00022α=0.00022 3, α(K)=3.45×10-5 17, α(L)=3.13E-6 15, α(M)=4.10E-7 20, α(N)=2.15E-8 10, α(N+)=0.000185 24
5/2+ 65 fs 14    2180M1+E2 0.00039α=0.00039 4, α(K)=2.41×10-5 9, α(L)=2.18E-6 8, α(M)=2.86E-7 10, α(N)=1.50E-8 6, α(N+)=0.00036 4
5/2+ 65 fs 14    2294(E1+M2)+0.06 38.51×10-4B(E1)(W.u.)=0.000101 23, B(M2)(W.u.)=0.3 3, α=8.51E-4 13, α(K)=1.401E-5 22, α(L)=1.267E-6 20, α(M)=1.66E-7 3, α(N)=8.69E-9 14, α(N+)=0.000836 12
5/2+ 65 fs 14    2352(E1(+M2))0.32 LE0.00084B(E1)(W.u.)=1.2E-5 7, α=0.00084 5, α(K)=1.49E-5 15, α(L)=1.35E-6 14, α(M)=1.77E-7 18, α(N)=9.3E-9 10, α(N+)=0.00083 5
5/2+ 65 fs 14    2439(E1+M2)+0.05 40.000939B(E1)(W.u.)=4.4E-5 11, B(M2)(W.u.)=0.08 +14-8, α=0.000939 14, α(K)=1.284E-5 21, α(L)=1.161E-6 19, α(M)=1.521E-7 25, α(N)=7.97E-9 13, α(N+)=0.000925 14
   2558.8 13/2- 0.42 ps 14    1287.0 7 (E2) 0.0001030B(E2)(W.u.)=23 8, α=0.0001030 15, α(K)=6.97E-5 10, α(L)=6.34E-6 9, α(M)=8.31E-7 12, α(N)=4.33E-8 6, α(N+)=2.59E-5 4
   2615.0 15/2- 0.679 ps 49      56.2 4 M1 0.104B(M1)(W.u.)=0.4 +11-4, α=0.104 3, α(K)=0.0940 23, α(L)=0.00898 22, α(M)=0.00117 3, α(N)=5.92×10-5 15, α(N+)=5.92E-5 15
15/2- 0.679 ps 49    1320.0 7 E2 0.0001060B(E2)(W.u.)=20.3 16, α=0.0001060 15, α(K)=6.60E-5 10, α(L)=6.00E-6 9, α(M)=7.86E-7 11, α(N)=4.10E-8 6, α(N+)=3.36E-5 5
   2722.63 5/2- 36 fs 10    1451(E2) 0.0001300B(E2)(W.u.)=1.9 6, α=0.0001300 19, α(K)=5.41E-5 8, α(L)=4.91E-6 7, α(M)=6.44E-7 9, α(N)=3.36E-8 5, α(N+)=7.04E-5 10
5/2- 36 fs 10    1584(E1(+M2))0.054 LE0.000354B(E1)(W.u.)=0.00019 6, α=0.000354 5, α(K)=2.43E-5 4, α(L)=2.20E-6 4, α(M)=2.89E-7 5, α(N)=1.510E-8 22, α(N+)=0.000328 5
5/2- 36 fs 10    2463(E1(+M2))0.33 LE0.00091B(E1)(W.u.)=1.1E-5 4, α=0.00091 5, α(K)=1.38E-5 12, α(L)=1.25E-6 11, α(M)=1.63E-7 14, α(N)=8.6E-9 8, α(N+)=0.00090 5
5/2- 36 fs 10    2635M1+E2-3.8 106.33×10-4B(E2)(W.u.)=2.1 6, B(M1)(W.u.)=0.00040 23, α=6.33E-4 10, α(K)=1.79E-5 3, α(L)=1.618E-6 23, α(M)=2.12E-7 3, α(N)=1.111E-8 16, α(N+)=0.000613 10
5/2- 36 fs 10    2723M1+E2+1.9 10.000657B(E2)(W.u.)=4.5 13, B(M1)(W.u.)=0.0036 11, α=0.000657 10, α(K)=1.682E-5 24, α(L)=1.522E-6 22, α(M)=1.99E-7 3, α(N)=1.045E-8 15, α(N+)=0.000638 10
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   2747.12 9/2- 25 fs 10    2601M1+E2-0.46 20.000545B(E2)(W.u.)=2.8 12, B(M1)(W.u.)=0.035 15, α=0.000545 8, α(K)=1.762E-5 25, α(L)=1.593E-6 23, α(M)=2.09E-7 3, α(N)=1.095E-8 16, α(N+)=0.000525 8
9/2- 25 fs 10    2660(E2) 0.000651B(E2)(W.u.)=1.2 5, α=0.000651 10, α(K)=1.766E-5 25, α(L)=1.598E-6 23, α(M)=2.09E-7 3, α(N)=1.097E-8 16, α(N+)=0.000631 9
   2810.04 7/2+ 0.11 ps 3     370(M1(+E2))0.041 LE0.000881B(M1)(W.u.)=0.032 15, α=0.000881 13, α(K)=0.000798 12, α(L)=7.32×10-5 11, α(M)=9.59E-6 14, α(N)=4.98E-7 7, α(N+)=4.98E-7 7
7/2+ 0.11 ps 3     841E2 0.000213B(E2)(W.u.)=39 12, α=0.000213 3, α(K)=0.000193 3, α(L)=1.764E-5 25, α(M)=2.31E-6 4, α(N)=1.198E-7 17, α(N+)=1.198E-7 17
7/2+ 0.11 ps 3    1063M1+E2-0.29 39.57×10-5B(E2)(W.u.)=3.5 12, B(M1)(W.u.)=0.019 6, α=9.57E-5 14, α(K)=8.68E-5 13, α(L)=7.88E-6 12, α(M)=1.033E-6 15, α(N)=5.40E-8 8, α(N+)=5.40E-8 8
7/2+ 0.11 ps 3    1538(E1(+M2))+0.02 20.000319B(E1)(W.u.)=0.00014 4, B(M2)(W.u.)=0.11 +22-11, α=0.000319 5, α(K)=2.54E-5 4, α(L)=2.30E-6 4, α(M)=3.02E-7 5, α(N)=1.578E-8 23, α(N+)=0.000291 4
7/2+ 0.11 ps 3    2149M1+E2-0.29 30.000346B(E2)(W.u.)=0.20 7, B(M1)(W.u.)=0.0044 12, α=0.000346 5, α(K)=2.40E-5 4, α(L)=2.17E-6 3, α(M)=2.85E-7 4, α(N)=1.493E-8 21, α(N+)=0.000320 5
7/2+ 0.11 ps 3    2550(E2(+M3))0.0027 LE0.000601B(E2)(W.u.)=0.13 5, α=0.000601 9, α(K)=1.90E-5 3, α(L)=1.716E-6 24, α(M)=2.25E-7 4, α(N)=1.178E-8 17, α(N+)=0.000580 9
7/2+ 0.11 ps 3    2722(E1(+M2))+0.01 10.001110B(E1)(W.u.)=0.00010 3, B(M2)(W.u.)=0.006 +13-6, α=0.001110 16, α(K)=1.103E-5 16, α(L)=9.96E-7 14, α(M)=1.305E-7 19, α(N)=6.84E-9 10, α(N+)=0.001093 16
   2984.29 7/2- 5 fs 2    1712M1+E2+0.15 10.0001760B(E2)(W.u.)=4.9 21, B(M1)(W.u.)=0.25 10, α=0.0001760 25, α(K)=3.53E-5 5, α(L)=3.20E-6 5, α(M)=4.20E-7 6, α(N)=2.20E-8 3, α(N+)=0.0001375 20
7/2- 5 fs 2    2838M1+E2+0.15 30.000627B(E2)(W.u.)=0.8 5, B(M1)(W.u.)=0.11 5, α=0.000627 9, α(K)=1.522E-5 22, α(L)=1.376E-6 20, α(M)=1.80E-7 3, α(N)=9.46E-9 14, α(N+)=0.000610 9
7/2- 5 fs 2    2896M1+E2 0.00070α=0.00070 6, α(K)=1.50×10-5 4, α(L)=1.36E-6 4, α(M)=1.78E-7 5, α(N)=9.35E-9 24, α(N+)=0.00068 6
7/2- 5 fs 2    2984(E2(+M3))0.0014 LE0.000793B(E2)(W.u.)=0.6 4, α=0.000793 12, α(K)=1.464E-5 21, α(L)=1.324E-6 19, α(M)=1.735E-7 25, α(N)=9.10E-9 13, α(N+)=0.000776 11
   3247.73 7/2- 76 fs 21    1072M1+E2+0.39 39.55×10-5B(E2)(W.u.)=16 5, B(M1)(W.u.)=0.047 14, α=9.55E-5 14, α(K)=8.65E-5 13, α(L)=7.86E-6 12, α(M)=1.030E-6 16, α(N)=5.39E-8 8, α(N+)=5.39E-8 8
7/2- 76 fs 21    1953E2 0.000324B(E2)(W.u.)=3.1 11, α=0.000324 5, α(K)=3.03E-5 5, α(L)=2.75E-6 4, α(M)=3.60E-7 5, α(N)=1.88E-8 3, α(N+)=0.000290 4
7/2- 76 fs 21    3248E2(+M3)+0.15 98.91×10-4B(E2)(W.u.)=0.36 11, B(M3)(W.u.)=5.×103 +7-5, α=8.91E-4 20, α(K)=1.31E-5 5, α(L)=1.18E-6 4, α(M)=1.55E-7 6, α(N)=8.1E-9 3, α(N+)=0.000877 20
   3270.3 13/2+ 0.173 ps 28    1522.5 8 E2 0.0001510B(E2)(W.u.)=31 6, α=0.0001510 22, α(K)=4.90E-5 7, α(L)=4.45E-6 7, α(M)=5.83E-7 9, α(N)=3.05E-8 5, α(N+)=9.65E-5 14
13/2+ 0.173 ps 28    1976 1 (E1) 0.000641B(E1)(W.u.)=2.3E-5 4, α=0.000641 9, α(K)=1.727E-5 25, α(L)=1.562E-6 22, α(M)=2.05E-7 3, α(N)=1.072E-8 15, α(N+)=0.000622 9
   3355.49 5/2+ 5 fs 2    2695(M1+(E2))+0.09 105.68×10-4B(E2)(W.u.)=0.114 +256-12, B(M1)(W.u.)=0.040 17, α=5.68E-4 9, α(K)=1.651E-5 24, α(L)=1.493E-6 21, α(M)=1.96E-7 3, α(N)=1.026E-8 15, α(N+)=0.000549 9
5/2+ 5 fs 2    3355(E1(+M2))+0.06 81.42×10-3B(E1)(W.u.)=0.00011 5, B(M2)(W.u.)=0.165 +443-17, α=1.42E-3 2, α(K)=8.43E-6 18, α(L)=7.61E-7 17, α(M)=9.97E-8 22, α(N)=5.23E-9 12, α(N+)=0.001408 24
   3524.60 7/2+ 9.7 fs 28    2386(M1(+E2))-0.02 20.000438B(E2)(W.u.)=0.010 +20-10, B(M1)(W.u.)=0.053 16, α=0.000438 7, α(K)=2.01E-5 3, α(L)=1.82E-6 3, α(M)=2.38E-7 4, α(N)=1.249E-8 18, α(N+)=0.000416 6
7/2+ 9.7 fs 28    2864(M1(+E2))-0.01 20.000635B(E2)(W.u.)=0.00200 +803-20, B(M1)(W.u.)=0.064 19, α=0.000635 9, α(K)=1.499E-5 21, α(L)=1.355E-6 19, α(M)=1.776E-7 25, α(N)=9.32E-9 13, α(N+)=0.000618 9
7/2+ 9.7 fs 28    3265E2 0.000908B(E2)(W.u.)=0.25 9, α=0.000908 13, α(K)=1.269E-5 18, α(L)=1.148E-6 16, α(M)=1.504E-7 21, α(N)=7.89E-9 11, α(N+)=0.000894 13
   3721.29 7/2+ 15 fs 6    3061M1(+E2)+0.02 20.000713B(E2)(W.u.)=0.004 +9-4, B(M1)(W.u.)=0.038 16, α=0.000713 10, α(K)=1.351E-5 19, α(L)=1.222E-6 18, α(M)=1.601E-7 23, α(N)=8.40E-9 12, α(N+)=0.000698 10
7/2+ 15 fs 6    3462(E2) 0.000987B(E2)(W.u.)=0.11 6, α=0.000987 14, α(K)=1.159E-5 17, α(L)=1.048E-6 15, α(M)=1.373E-7 20, α(N)=7.20E-9 10, α(N+)=0.000974 14
7/2+ 15 fs 6    3634(E1) 0.001540B(E1)(W.u.)=3.7E-5 16, α=0.001540 22, α(K)=7.59E-6 11, α(L)=6.85E-7 10, α(M)=8.98E-8 13, α(N)=4.71E-9 7, α(N+)=0.001531 22
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   3869.0 5/2 9.7 ps 35    3723D(+Q)-0.01 5 
   3876.0 7/2- < 11 fs   2581(E2) 0.000615B(E2)(W.u.)>32, α=0.000615 9, α(K)=1.86E-5 3, α(L)=1.680E-6 24, α(M)=2.20E-7 3, α(N)=1.154E-8 17, α(N+)=0.000595 9
7/2- < 11 fs   3788M1+E2 0.00105α=0.00105 7, α(K)=9.95×10-6 21, α(L)=8.99E-7 19, α(M)=1.179E-7 25, α(N)=6.18E-9 13, α(N+)=0.00103 7
   3954.3 15/2+ 0.166 ps 28    1539.4 8 E2 0.0001560B(E2)(W.u.)=36 7, α=0.0001560 22, α(K)=4.79E-5 7, α(L)=4.35E-6 7, α(M)=5.70E-7 8, α(N)=2.98E-8 5, α(N+)=0.0001033 15
   3958.7 3/2+ 9.0 fs 28    1876(E1(+M2))0.045 LE0.000570B(E1)(W.u.)=0.00038 13, α=0.000570 8, α(K)=1.87E-5 3, α(L)=1.692E-6 24, α(M)=2.22E-7 4, α(N)=1.160E-8 17, α(N+)=0.000550 8
3/2+ 9.0 fs 28    3699M1+E2-1.3 50.00103B(E2)(W.u.)=1.6 7, B(M1)(W.u.)=0.005 3, α=0.00103 4, α(K)=1.036E-5 17, α(L)=9.36E-7 15, α(M)=1.226E-7 20, α(N)=6.43E-9 11, α(N+)=0.00102 4
3/2+ 9.0 fs 28    3959(E1(+M2))-0.10 150.00166B(E1)(W.u.)=0.00037 12, B(M2)(W.u.)=1.08 +322-11, α=0.00166 5, α(K)=6.9E-6 3, α(L)=6.2E-7 3, α(M)=8.1E-8 4, α(N)=4.27E-9 20, α(N+)=0.00166 5
   4080.60 3/2+ 15 fs 4    3821M1+E2 0.00106α=0.00106 7, α(K)=9.83×10-6 21, α(L)=8.88E-7 19, α(M)=1.164E-7 25, α(N)=6.10E-9 13, α(N+)=0.00105 7
3/2+ 15 fs 4    3993(E1(+M2))0.16 LE0.0012B(E1)(W.u.)=0.00014 4, α=0.0012 5, α(K)=1.0E-5 3, α(L)=9.E-7 3, α(M)=1.1E-7 4, α(N)=6.0E-9 19, α(N+)=0.0012 5
   4099.06 5/2-,3/2- < 8.3 fs   3839D(+Q)0.00 11 
   4133.0 19/2- 0.417 ps 28    1518.0 5 E2 0.0001490B(E2)(W.u.)=16.7 12, α=0.0001490 21, α(K)=4.93E-5 7, α(L)=4.48E-6 7, α(M)=5.86E-7 9, α(N)=3.06E-8 5, α(N+)=9.48E-5 14
   4345.19 (1/2+) < 9 fs   2262(E1) 0.000833B(E1)(W.u.)>0.00050, α=0.000833 12, α(K)=1.422E-5 20, α(L)=1.285E-6 18, α(M)=1.684E-7 24, α(N)=8.82E-9 13, α(N+)=0.000817 12
(1/2+) < 9 fs   3685(E2) 0.001070B(E2)(W.u.)>2.7, α=0.001070 15, α(K)=1.054E-5 15, α(L)=9.53E-7 14, α(M)=1.248E-7 18, α(N)=6.55E-9 10, α(N+)=0.001059 15
(1/2+) < 9 fs   4086(E1) 0.001720B(E1)(W.u.)>0.00017, α=0.001720 25, α(K)=6.57E-6 10, α(L)=5.93E-7 9, α(M)=7.77E-8 11, α(N)=4.07E-9 6, α(N+)=0.001711 24
   4694.33 5/2+,3/2+ < 8.3 fs   4435M1+E2 0.00126α=0.00126 7, α(K)=7.91×10-6 16, α(L)=7.14E-7 15, α(M)=9.36E-8 19, α(N)=4.91E-9 10, α(N+)=0.00125 7
   4907.6 5/2,3/2+,7/2+ < 13 fs   4247D(+Q)+0.6 10 
   4999.3 17/2+ 0.104 ps 35    1728.6 9 E2 0.000227B(E2)(W.u.)=23 8, α=0.000227 4, α(K)=3.81E-5 6, α(L)=3.46E-6 5, α(M)=4.53E-7 7, α(N)=2.37E-8 4, α(N+)=0.000185 3
17/2+ 0.104 ps 35    2387(E1) 0.000910B(E1)(W.u.)=0.00010 4, α=0.000910 13, α(K)=1.319E-5 19, α(L)=1.192E-6 17, α(M)=1.561E-7 22, α(N)=8.18E-9 12, α(N+)=0.000895 13
   5635.9 3/2- < 19 fs   3424(M1+E2) 0.00091α=0.00091 7, α(K)=1.16×10-5 3, α(L)=1.048E-6 24, α(M)=1.37E-7 3, α(N)=7.20E-9 16, α(N+)=0.00090 7
3/2- < 19 fs   3553(M1+E2) 0.00096α=0.00096 7, α(K)=1.096×10-5 24, α(L)=9.90E-7 22, α(M)=1.30E-7 3, α(N)=6.81E-9 15, α(N+)=0.00095 7
3/2- < 19 fs   3975(E1) 0.001680B(E1)(W.u.)>2.6E-5, α=0.001680 24, α(K)=6.79E-6 10, α(L)=6.13E-7 9, α(M)=8.03E-8 12, α(N)=4.21E-9 6, α(N+)=0.001672 24
3/2- < 19 fs   5548(M1+E2) 0.00157α=0.00157 8, α(K)=5.78×10-6 11, α(L)=5.22E-7 10, α(M)=6.84E-8 13, α(N)=3.59E-9 7, α(N+)=0.00157 8
   5728.3 (19/2+) 0.080 ps 17    1774.0 9 (E2) 0.000246B(E2)(W.u.)=38 9, α=0.000246 4, α(K)=3.63E-5 5, α(L)=3.29E-6 5, α(M)=4.31E-7 6, α(N)=2.25E-8 4, α(N+)=0.000206 3
   5903.0 (23/2-) 0.254 ps 18    1769.8 9 (E2) 0.000244B(E2)(W.u.)=12.7 9, α=0.000244 4, α(K)=3.64E-5 6, α(L)=3.30E-6 5, α(M)=4.33E-7 6, α(N)=2.26E-8 4, α(N+)=0.000204 3
   5994.3 3/2 < 6 fs   4333D(+Q)+0.07 8 
3/2 < 6 fs   5333D(+Q)+0.03 3 
3/2 < 6 fs   5734D+Q-0.05 3 
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   6087.43 5/2 < 5 fs   2135D+Q-0.04 3 
5/2 < 5 fs   3648D(+Q)-0.02 2 
5/2 < 5 fs   4340D(+Q)+0.06 11 
5/2 < 5 fs   4948(M1+E2) 0.00141α=0.00141 8, α(K)=6.77×10-6 13, α(L)=6.11E-7 12, α(M)=8.01E-8 16, α(N)=4.21E-9 9, α(N+)=0.00141 8
5/2 < 5 fs   5427(M1+E2)+0.23 40.001480B(E2)(W.u.)>0.028, B(M1)(W.u.)>0.0090, α=0.001480 21, α(K)=5.89E-6 9, α(L)=5.32E-7 8, α(M)=6.97E-8 10, α(N)=3.66E-9 6, α(N+)=0.001474 21
5/2 < 5 fs   5827(M1+E2)+2.0 50.00168B(E2)(W.u.)>0.048, B(M1)(W.u.)>0.00011, α=0.00168 3, α(K)=5.45E-6 8, α(L)=4.92E-7 7, α(M)=6.45E-8 10, α(N)=3.38E-9 5, α(N+)=0.00168 3
5/2 < 5 fs   5941D(+Q)+0.11 16 
5/2 < 5 fs   5999D(+Q)-0.2 2 
5/2 < 5 fs   6087D+Q-0.07 6 
   6132.60 1/2+ < 1.4 fs   3693(E2) 0.001070B(E2)(W.u.)>2.4, α=0.001070 15, α(K)=1.051E-5 15, α(L)=9.49E-7 14, α(M)=1.244E-7 18, α(N)=6.53E-9 10, α(N+)=0.001062 15
1/2+ < 1.4 fs   5472(E2) 0.001620B(E2)(W.u.)>0.90, α=0.001620 23, α(K)=5.97E-6 9, α(L)=5.39E-7 8, α(M)=7.06E-8 10, α(N)=3.71E-9 6, α(N+)=0.001618 23
1/2+ < 1.4 fs   6132(E1) B(E1)(W.u.)>0.00056
   6229.55 5/2+ < 3 fs   1213D(+Q)+0.03 3 
5/2+ < 3 fs   1535D(+Q)+0.08 8 
5/2+ < 3 fs   2032D(+Q)+0.1 3 
5/2+ < 3 fs   2079(E1(+M2))+0.1 30.00071B(E1)(W.u.)>5.4E-5, α=0.00071 7, α(K)=1.6E-5 4, α(L)=1.5E-6 3, α(M)=1.9E-7 4, α(N)=1.01E-8 21, α(N+)=0.00069 7
5/2+ < 3 fs   2360D(+Q)-0.03 3 
5/2+ < 3 fs   3224(E1) 0.001360B(E1)(W.u.)>0.00014, α=0.001360 20, α(K)=8.83E-6 13, α(L)=7.98E-7 12, α(M)=1.045E-7 15, α(N)=5.48E-9 8, α(N+)=0.001350 19
5/2+ < 3 fs   3419(M1+E2)+0.05 10.000850B(E2)(W.u.)>0.013, B(M1)(W.u.)>0.040, α=0.000850 12, α(K)=1.142E-5 16, α(L)=1.032E-6 15, α(M)=1.352E-7 19, α(N)=7.09E-9 10, α(N+)=0.000838 12
5/2+ < 3 fs   3790(M1+E2)+0.04 20.000983B(E2)(W.u.)>8.5E-6, B(M1)(W.u.)>0.019, α=0.000983 14, α(K)=9.79E-6 14, α(L)=8.84E-7 13, α(M)=1.159E-7 17, α(N)=6.08E-9 9, α(N+)=0.000973 14
5/2+ < 3 fs   4053(E1(+M2))+0.04 41.71×10-3B(E1)(W.u.)>0.00012, α=1.71E-3 3, α(K)=6.64E-6 10, α(L)=5.99E-7 9, α(M)=7.85E-8 12, α(N)=4.12E-9 6, α(N+)=0.001698 25
5/2+ < 3 fs   4147(E1(+M2))-0.01 20.001740B(E1)(W.u.)>4.8E-5, α=0.001740 25, α(K)=6.45E-6 9, α(L)=5.82E-7 9, α(M)=7.63E-8 11, α(N)=4.00E-9 6, α(N+)=0.001731 25
5/2+ < 3 fs   4260M1+E2-0.15 10.001140B(E2)(W.u.)>0.059, B(M1)(W.u.)>0.021, α=0.001140 16, α(K)=8.26E-6 12, α(L)=7.46E-7 11, α(M)=9.78E-8 14, α(N)=5.13E-9 8, α(N+)=0.001131 16
5/2+ < 3 fs   4482E2(+M3)-0.02 40.001340B(E2)(W.u.)>0.20, α=0.001340 19, α(K)=7.90E-6 12, α(L)=7.14E-7 11, α(M)=9.35E-8 14, α(N)=4.91E-9 7, α(N+)=0.001333 19
5/2+ < 3 fs   4569E2+M3-0.09 71.37×10-3B(E2)(W.u.)>0.046, α=1.37E-3 2, α(K)=7.73E-6 15, α(L)=6.98E-7 13, α(M)=9.15E-8 17, α(N)=4.80E-9 9, α(N+)=0.001357 22
5/2+ < 3 fs   5569M1+E2 0.00158α=0.00158 8, α(K)=5.75×10-6 11, α(L)=5.19E-7 10, α(M)=6.81E-8 13, α(N)=3.57E-9 7, α(N+)=0.00157 8
5/2+ < 3 fs   5970M1+E2-2.75 100.001720B(E2)(W.u.)>0.060, B(M1)(W.u.)>0.00011, α=0.001720 25, α(K)=5.28E-6 8, α(L)=4.77E-7 7, α(M)=6.25E-8 9, α(N+)=0.001718 24
5/2+ < 3 fs   6083(E1+M2)+0.10 4B(E1)(W.u.)>2.6E-5, B(M2)(W.u.)>0.0067
5/2+ < 3 fs   6142(E1+M2)-0.15 5B(E1)(W.u.)>2.0E-5, B(M2)(W.u.)>0.019
5/2+ < 3 fs   6229(E1+M2)-0.07 2B(E1)(W.u.)>1.1E-5, B(M2)(W.u.)>0.0028
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   6239.95 3/2 < 0.7 fs   1895D(+Q)+0.01 4 
3/2 < 0.7 fs   2139D+Q-0.14 5 
3/2 < 0.7 fs   4028D+Q-0.14 2 
3/2 < 0.7 fs   4579D+Q-0.05 3 
3/2 < 0.7 fs   5579D(+Q)-0.04 6 
3/2 < 0.7 fs   5980D(+Q)+0.00 6 
   6296.60 3/2- < 1.4 fs   1154D(+Q)+0.02 15 
3/2- < 1.4 fs   3857D(+Q)-0.01 4 
3/2- < 1.4 fs   4120E1 0.001730B(E1)(W.u.)>6.4E-5, α=0.001730 25, α(K)=6.50E-6 10, α(L)=5.87E-7 9, α(M)=7.69E-8 11, α(N)=4.03E-9 6, α(N+)=0.001722 25
3/2- < 1.4 fs   4213M1+E2 0.00119α=0.00119 7, α(K)=8.51×10-6 18, α(L)=7.69E-7 16, α(M)=1.008E-7 21, α(N)=5.29E-9 11, α(N+)=0.00118 7
3/2- < 1.4 fs   4327(E1+M2)-0.08 40.00180B(E1)(W.u.)>5.4E-5, B(M2)(W.u.)>0.00054, α=0.00180 3, α(K)=6.16E-6 10, α(L)=5.56E-7 9, α(M)=7.28E-8 12, α(N)=3.82E-9 6, α(N+)=0.00179 3
3/2- < 1.4 fs   4635(E1(+M2))-0.00 10.00191B(E1)(W.u.)>0.00020, α=0.00191 3, α(K)=5.64E-6 8, α(L)=5.09E-7 8, α(M)=6.67E-8 10, α(N)=3.50E-9 5, α(N+)=0.00190 3
   6387.28 (5/2+) < 3 fs   2666(E1) 0.001070B(E1)(W.u.)>9.1E-5, α=0.001070 15, α(K)=1.134E-5 16, α(L)=1.024E-6 15, α(M)=1.342E-7 19, α(N)=7.03E-9 10, α(N+)=0.001060 15
(5/2+) < 3 fs   3333(E1) 0.001410B(E1)(W.u.)>0.00013, α=0.001410 20, α(K)=8.47E-6 12, α(L)=7.64E-7 11, α(M)=1.002E-7 14, α(N)=5.25E-9 8, α(N+)=0.001401 20
(5/2+) < 3 fs   3403(E1) 0.001440B(E1)(W.u.)>6.1E-5, α=0.001440 21, α(K)=8.25E-6 12, α(L)=7.44E-7 11, α(M)=9.75E-8 14, α(N)=5.11E-9 8, α(N+)=0.001432 20
   6393.95 5/2+ < 1.4 fs   1154D(+Q)+0.02 3 
5/2+ < 1.4 fs   1486D+Q-0.06 4 
5/2+ < 1.4 fs   2244(E1+M2)-0.16 20.000807B(E1)(W.u.)>3.2E-5, B(M2)(W.u.)>0.56, α=0.000807 12, α(K)=1.49E-5 3, α(L)=1.349E-6 23, α(M)=1.77E-7 3, α(N)=9.26E-9 16, α(N+)=0.000791 12
5/2+ < 1.4 fs   2409D(+Q)+0.02 3 
5/2+ < 1.4 fs   2734D+Q+0.02 1 
5/2+ < 1.4 fs   2869(M1+E2)+0.02 10.000637B(E2)(W.u.)>8.2E-6, B(M1)(W.u.)>0.17, α=0.000637 9, α(K)=1.495E-5 21, α(L)=1.352E-6 19, α(M)=1.771E-7 25, α(N)=9.29E-9 13, α(N+)=0.000620 9
5/2+ < 1.4 fs   3038(M1(+E2))+0.02 20.000704B(M1)(W.u.)>0.047, α=0.000704 10, α(K)=1.367×10-5 20, α(L)=1.236E-6 18, α(M)=1.620E-7 23, α(N)=8.50E-9 12, α(N+)=0.000689 10
5/2+ < 1.4 fs   3146(E1+M2)-0.09 61.31×10-3B(E1)(W.u.)>8.2E-5, α=1.31E-3 2, α(K)=9.20E-6 19, α(L)=8.31E-7 18, α(M)=1.088E-7 23, α(N)=5.71E-9 12, α(N+)=0.001305 22
5/2+ < 1.4 fs   3583(M1+E2)-0.04 10.000910B(E2)(W.u.)>0.0054, B(M1)(W.u.)>0.034, α=0.000910 13, α(K)=1.064E-5 15, α(L)=9.61E-7 14, α(M)=1.260E-7 18, α(N)=6.61E-9 10, α(N+)=0.000898 13
5/2+ < 1.4 fs   3671(E1(+M2))-0.09 100.00155B(E1)(W.u.)>5.1E-5, α=0.00155 4, α(K)=7.55E-6 22, α(L)=6.82E-7 20, α(M)=8.9E-8 3, α(N)=4.68E-9 14, α(N+)=0.00154 4
5/2+ < 1.4 fs   3954(M1+E2)+0.04 30.001040B(M1)(W.u.)>0.011, α=0.001040 15, α(K)=9.20×10-6 13, α(L)=8.31E-7 12, α(M)=1.089E-7 16, α(N)=5.72E-9 8, α(N+)=0.001033 15
5/2+ < 1.4 fs   4311(E1+M2)+0.04 10.00180B(E1)(W.u.)>0.00017, B(M2)(W.u.)>0.034, α=0.00180 3, α(K)=6.16E-6 9, α(L)=5.56E-7 8, α(M)=7.29E-8 11, α(N)=3.82E-9 6, α(N+)=0.00179 3
5/2+ < 1.4 fs   4424(M1(+E2))-0.01 10.001190B(M1)(W.u.)>0.012, α=0.001190 17, α(K)=7.82×10-6 11, α(L)=7.06E-7 10, α(M)=9.26E-8 13, α(N)=4.86E-9 7, α(N+)=0.001185 17
5/2+ < 1.4 fs   6134(M1+E2)+0.13 1B(E2)(W.u.)>0.0016, B(M1)(W.u.)>0.0017
5/2+ < 1.4 fs   6247(E1+M2)-0.16 4B(E1)(W.u.)>1.0E-5, B(M2)(W.u.)>0.016
5/2+ < 1.4 fs   6306(E1+M2)+0.26 12B(E1)(W.u.)>6.5E-6, B(M2)(W.u.)>0.0073
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   6425.87 3/2 < 1.4 fs   4250D+Q-0.06 1 
3/2 < 1.4 fs   6425D(+Q)+0.1 LT 
   6475.30 5/2+ < 1.4 fs   1252D+Q+0.08 3 
5/2+ < 1.4 fs   2394(M1(+E2))+0.00 10.000441B(M1)(W.u.)>0.029, α=0.000441 7, α(K)=2.00×10-5 3, α(L)=1.81E-6 3, α(M)=2.37E-7 4, α(N)=1.242E-8 18, α(N+)=0.000419 6
5/2+ < 1.4 fs   3171D+Q-0.10 1 
5/2+ < 1.4 fs   4035(M1(+E2))+0.04 60.001070B(M1)(W.u.)>0.0038, α=0.001070 15, α(K)=8.93×10-6 13, α(L)=8.07E-7 12, α(M)=1.057E-7 15, α(N)=5.55E-9 8, α(N+)=0.001059 15
5/2+ < 1.4 fs   4392(E1+M2)+0.03 10.00183B(E1)(W.u.)>0.00018, B(M2)(W.u.)>0.013, α=0.00183 3, α(K)=6.02E-6 9, α(L)=5.43E-7 8, α(M)=7.12E-8 10, α(N)=3.73E-9 6, α(N+)=0.00182 3
5/2+ < 1.4 fs   4506(M1+E2)+0.02 10.001220B(E2)(W.u.)>6.9E-7, B(M1)(W.u.)>0.034, α=0.001220 18, α(K)=7.62E-6 11, α(L)=6.88E-7 10, α(M)=9.02E-8 13, α(N)=4.73E-9 7, α(N+)=0.001210 17
5/2+ < 1.4 fs   5336M1+E2-1.00 190.00152B(E2)(W.u.)>0.075, B(M1)(W.u.)>0.00084, α=0.00152 3, α(K)=6.10E-6 9, α(L)=5.51E-7 8, α(M)=7.22E-8 11, α(N)=3.79E-9 6, α(N+)=0.00151 3
5/2+ < 1.4 fs   5814(M1+E2)-0.10 20.001570B(E2)(W.u.)>0.0069, B(M1)(W.u.)>0.015, α=0.001570 22, α(K)=5.36E-6 8, α(L)=4.84E-7 7, α(M)=6.34E-8 9, α(N)=3.33E-9 5, α(N+)=0.001565 22
5/2+ < 1.4 fs   6215(M1+E2)-0.47 2B(E2)(W.u.)>0.051, B(M1)(W.u.)>0.0037
5/2+ < 1.4 fs   6329(E1(+M2))-0.07 10B(E1)(W.u.)>5.7E-6
5/2+ < 1.4 fs   6475(E1+M2)+0.07 B(E1)(W.u.)>9.5E-5, B(M2)(W.u.)>0.051
   6679.73 7/2(-) < 1.4 fs   1681D(+Q)+0.02 4 
7/2(-) < 1.4 fs   2111D+Q+0.19 6 
7/2(-) < 1.4 fs   2457D+Q+0.05 2 
7/2(-) < 1.4 fs   2803(M1+(E2))+0.03 60.000611B(M1)(W.u.)>0.0092, α=0.000611 9, α(K)=1.551×10-5 22, α(L)=1.402E-6 20, α(M)=1.84E-7 3, α(N)=9.64E-9 14, α(N+)=0.000593 9
7/2(-) < 1.4 fs   2958D(+Q)+0.3 3 
7/2(-) < 1.4 fs   2961(E1+M2) 0.0009α=0.0009 4, α(K)=1.6×10-5 6, α(L)=1.4E-6 6, α(M)=1.9E-7 7, α(N)=1.0E-8 4, α(N+)=0.0008 4
7/2(-) < 1.4 fs   3162D+Q-0.06 2 
7/2(-) < 1.4 fs   3432(M1(+E2))-0.02 20.000855B(M1)(W.u.)>0.014, α=0.000855 12, α(K)=1.135×10-5 16, α(L)=1.026E-6 15, α(M)=1.344E-7 19, α(N)=7.05E-9 10, α(N+)=0.000842 12
7/2(-) < 1.4 fs   3625(M1+E2)+0.03 10.000925B(E2)(W.u.)>0.00065, B(M1)(W.u.)>0.011, α=0.000925 13, α(K)=1.046E-5 15, α(L)=9.45E-7 14, α(M)=1.238E-7 18, α(N)=6.50E-9 9, α(N+)=0.000913 13
7/2(-) < 1.4 fs   3695(M1(+E2))+0.02 20.000949B(M1)(W.u.)>0.068, α=0.000949 14, α(K)=1.016×10-5 15, α(L)=9.18E-7 13, α(M)=1.203E-7 17, α(N)=6.32E-9 9, α(N+)=0.000938 14
7/2(-) < 1.4 fs   3932(M1+E2)+0.02 10.001040B(E2)(W.u.)>4.5E-7, B(M1)(W.u.)>0.017, α=0.001040 15, α(K)=9.27E-6 13, α(L)=8.38E-7 12, α(M)=1.098E-7 16, α(N)=5.76E-9 8, α(N+)=0.001025 15
7/2(-) < 1.4 fs   3957(M1(+E2))-0.00 10.001040B(M1)(W.u.)>0.023, α=0.001040 15, α(K)=9.19×10-6 13, α(L)=8.30E-7 12, α(M)=1.088E-7 16, α(N)=5.71E-9 8, α(N+)=0.001034 15
7/2(-) < 1.4 fs   4240(E1(+M2))-0.01 10.001770B(E1)(W.u.)>0.00020, α=0.001770 25, α(K)=6.28E-6 9, α(L)=5.67E-7 8, α(M)=7.42E-8 11, α(N)=3.89E-9 6, α(N+)=0.001765 25
7/2(-) < 1.4 fs   4503(M1(+E2))-0.06 61.22×10-3B(M1)(W.u.)>0.00068, α=1.22×10-3 2, α(K)=7.63E-6 11, α(L)=6.89E-7 10, α(M)=9.03E-8 13, α(N)=4.74E-9 7, α(N+)=0.001210 17
7/2(-) < 1.4 fs   4932(E1(+M2))-0.00 30.00201B(E1)(W.u.)>4.3E-5, α=0.00201 3, α(K)=5.24E-6 8, α(L)=4.73E-7 7, α(M)=6.19E-8 9, α(N)=3.25E-9 5, α(N+)=0.00200 3
7/2(-) < 1.4 fs   5407(M1+E2)-0.04 10.001470B(E2)(W.u.)>0.0013, B(M1)(W.u.)>0.019, α=0.001470 21, α(K)=5.91E-6 9, α(L)=5.34E-7 8, α(M)=7.00E-8 10, α(N)=3.67E-9 6, α(N+)=0.001462 21
7/2(-) < 1.4 fs   6533(M1+E2)-0.21 2B(E2)(W.u.)>0.012, B(M1)(W.u.)>0.0054
7/2(-) < 1.4 fs   6591(M1+E2)-0.03 1B(E2)(W.u.)>9.7E-5, B(M1)(W.u.)>0.0055
E(level)
(keV)		Jπ(level)T1/2(level)E(γ)
(keV)		MultipolarityMixing
Ratio		Conversion
Coefficient		Additional Data
   6693.23 1/2+ < 0.9 fs   4610(E1) 0.00190B(E1)(W.u.)>0.00018, α=0.00190 3, α(K)=5.68E-6 8, α(L)=5.12E-7 8, α(M)=6.71E-8 10, α(N)=3.52E-9 5, α(N+)=0.00189 3
   6869.0 21/2+ < 0.21 ps    966(E1) 6.41×10-5B(E1)(W.u.)>0.00016, α=6.41E-5 9, α(K)=5.81E-5 9, α(L)=5.27E-6 8, α(M)=6.90E-7 10, α(N)=3.60E-8 5, α(N+)=3.60E-8 5
21/2+ < 0.21 ps   1869.8 9 E2 0.000287B(E2)(W.u.)>11, α=0.000287 5, α(K)=3.28E-5 5, α(L)=2.98E-6 5, α(M)=3.90E-7 6, α(N)=2.04E-8 3, α(N+)=0.000250 4
   6953.8 9/2+ < 7 fs   5206M1+E2-0.18 30.001420B(E2)(W.u.)>0.027, B(M1)(W.u.)>0.013, α=0.001420 20, α(K)=6.23E-6 9, α(L)=5.63E-7 8, α(M)=7.38E-8 11, α(N)=3.87E-9 6, α(N+)=0.001413 20
9/2+ < 7 fs   5658(E1(+M2))+0.00 70.00221B(E1)(W.u.)>3.7E-5, α=0.00221 4, α(K)=4.46E-6 7, α(L)=4.02E-7 6, α(M)=5.27E-8 8, α(N)=2.77E-9 4, α(N+)=0.00221 4
9/2+ < 7 fs   5681(E1+M2) 0.0017α=0.0017 5, α(K)=5.8×10-6 14, α(L)=5.2E-7 13, α(M)=6.8E-8 16, α(N)=3.6E-9 9, α(N+)=0.0017 5
9/2+ < 7 fs   6807D(+Q)+0.03 4 
   7398.9 (25/2-) 0.090 ps 14    1362.1 7 (E2) 0.0001120B(E2)(W.u.)=11 4, α=0.0001120 16, α(K)=6.17E-5 9, α(L)=5.61E-6 8, α(M)=7.35E-7 11, α(N)=3.84E-8 6, α(N+)=4.41E-5 7
(25/2-) 0.090 ps 14    1495.9 8 (M1) 0.0001130B(M1)(W.u.)=0.067 11, α=0.0001130 16, α(K)=4.48×10-5 7, α(L)=4.07E-6 6, α(M)=5.33E-7 8, α(N)=2.79E-8 4, α(N+)=6.40E-5 10
   7725.9 (23/2+) 0.069 ps 21    1997.6 9 (E2) 0.000344B(E2)(W.u.)=26 8, α=0.000344 5, α(K)=2.91E-5 4, α(L)=2.63E-6 4, α(M)=3.45E-7 5, α(N)=1.81E-8 3, α(N+)=0.000312 5
   7883.4 (27/2-) 0.107 ps 12     484.5 4 M1 0.000479B(M1)(W.u.)=1.18 18, α=0.000479 7, α(K)=0.000434 7, α(L)=3.97×10-5 6, α(M)=5.20E-6 8, α(N)=2.71E-7 4, α(N+)=2.71E-7 4
(27/2-) 0.107 ps 12    1980.4 9 E2 0.000336B(E2)(W.u.)=6.0 12, α=0.000336 5, α(K)=2.95E-5 5, α(L)=2.68E-6 4, α(M)=3.51E-7 5, α(N)=1.83E-8 3, α(N+)=0.000304 5
   9610.5 (27/2+) 0.0984 ps 30    1884.5 9 (E2) 0.000293B(E2)(W.u.)=24.0 8, α=0.000293 5, α(K)=3.24E-5 5, α(L)=2.93E-6 5, α(M)=3.84E-7 6, α(N)=2.01E-8 3, α(N+)=0.000257 4
  10004.6 (31/2-) 0.249 ps 17    2121.0 10 E2 0.000401B(E2)(W.u.)=5.3 4, α=0.000401 6, α(K)=2.61E-5 4, α(L)=2.36E-6 4, α(M)=3.10E-7 5, α(N)=1.620E-8 23, α(N+)=0.000373 6
  10768.7 (29/2-) < 0.055 ps    764.0 6 M1 0.000181B(M1)(W.u.)>0.45, α=0.000181 3, α(K)=0.0001643 24, α(L)=1.496×10-5 21, α(M)=1.96E-6 3, α(N)=1.024E-7 15, α(N+)=1.024E-7 15
  11949.0 (31/2+) 0.083 ps 14    2338.5 10 (E2) 0.000503B(E2)(W.u.)=9.7 17, α=0.000503 8, α(K)=2.20E-5 3, α(L)=1.99E-6 3, α(M)=2.61E-7 4, α(N)=1.365E-8 20, α(N+)=0.000479 7
  14036.8 (35/2-) < 0.08 ps   4032 2 E2 0.001190B(E2)(W.u.)>0.66, α=0.001190 17, α(K)=9.21E-6 13, α(L)=8.33E-7 12, α(M)=1.091E-7 16, α(N)=5.72E-9 8, α(N+)=0.001181 17
  15258.2 (35/2+) < 0.069 ps   3309.0 10 (E2) 9.26×10-4B(E2)(W.u.)>1.8, α=9.26E-4, α(K)=1.243E-5 18, α(L)=1.124E-6 16, α(M)=1.473E-7 21, α(N)=7.72E-9 11, α(N+)=0.000912 13

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Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
      0.03/2- 32.6 m 3 
% ε = 100
E(level): GS band, α=-1/2.
     87.5255/2- 0.68 ns 4  E(level): Level energy held fixed in least-squares adjustment. GS band, α=+1/2. From (p,nγ).
T1/2(level): Weighted average of T1/2(88)=0.85 ns 11 and 0.66 ns 4, T1/2(146)=0.44 ns 9 and 0.54 ns 7, and T1/2(259)=62 ps 9 and 54 ps 8 from RDM in (32S,2αpγ) and γ(t) in (p,nγ), respectively.
    145.8217/2- 0.51 ns 6  E(level): GS band, α=-1/2. Level energy held fixed in least-squares adjustment. From (p,nγ).
T1/2(level): Weighted average of T1/2(88)=0.85 ns 11 and 0.66 ns 4, T1/2(146)=0.44 ns 9 and 0.54 ns 7, and T1/2(259)=62 ps 9 and 54 ps 8 from RDM in (32S,2αpγ) and γ(t) in (p,nγ), respectively.
    259.4863/2+ 58 ps 6  E(level): Level energy held fixed in least-squares adjustment. From (p,nγ). band BASED ON 3/2+, α=-1/2.
T1/2(level): Weighted average of T1/2(88)=0.85 ns 11 and 0.66 ns 4, T1/2(146)=0.44 ns 9 and 0.54 ns 7, and T1/2(259)=62 ps 9 and 54 ps 8 from RDM in (32S,2αpγ) and γ(t) in (p,nγ), respectively.
    660.3585/2+ 1.6 ps 12  E(level): Level energy held fixed in least-squares adjustment. band BASED ON 3/2+, α=+1/2.
T1/2(level): Unweighted average of T1/2(660)=2.8 ps 19 and 0.47 ps +97-24 from RDM in (32S,2αpγ) and DSAM in (p,nγ). Other: T1/2(660)>2.8 ps from DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   1138.557/2+ 1.59 ps 35  E(level): Level energy held fixed in least-squares adjustment. band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   1271.809/2- 0.25 ps 8  E(level): Level energy held fixed in least-squares adjustment. GS band, α=+1/2.
   1294.9611/2- 1.59 ps 44  E(level): GS band, α=-1/2. Level energy held fixed in least-squares adjustment.
   1660.621/2+ 0.37 ps 16  E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): From angular momentum transfer in (3He,d).
   1746.969/2+ 0.56 ps 8  E(level): Level energy held fixed in least-squares adjustment. band BASED ON 3/2+, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   1968.923/2+ 0.44 ps 12  E(level): Level energy held fixed in least-squares adjustment.
   2082.723/2- 14.6 fs 35  E(level): Level energy held fixed in least-squares adjustment.
   2175.865/2- 15 fs 5  E(level): Level energy held fixed in least-squares adjustment.
   2211.751/2- 83 fs 21  E(level): Level energy held fixed in least-squares adjustment.
   2415.011/2+ 0.39 ps 4  E(level): band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   2439.545/2+ 65 fs 14  E(level): Level energy held fixed in least-squares adjustment.
   25465/2-,7/2-   Jπ(level): From angular momentum transfer in (3He,d).
   2558.813/2- 0.42 ps 14  E(level): GS band, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   2615.015/2- 0.679 ps 49  E(level): GS band, α=-1/2.
Jπ(level): From J|)J or J|)J-2 γ cascade to 11/2- and membership in band.
   2722.635/2- 36 fs 10  E(level): Level energy held fixed in least-squares adjustment.
   2747.129/2- 25 fs 10  E(level): Level energy held fixed in least-squares adjustment.
   2767.32(1/2)- 10.4 fs 28  E(level): Level energy held fixed in least-squares adjustment.
   2810.047/2+ 0.11 ps 3  E(level): Level energy held fixed in least-squares adjustment.
   2984.297/2- 5 fs 2  E(level): Level energy held fixed in least-squares adjustment.
   3005.453/2- 6 fs 2  E(level): Level energy held fixed in least-squares adjustment.
E(level)Jπ(level)T1/2(level)Comments
   3054.225/2- 5 fs 2  E(level): Level energy held fixed in least-squares adjustment.
   3247.737/2- 76 fs 21  E(level): Level energy held fixed in least-squares adjustment.
   3270.313/2+ 0.173 ps 28  E(level): band BASED ON 3/2+, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   3303.533/2 32 fs 7  E(level): Level energy held fixed in least-squares adjustment.
   3355.495/2+ 5 fs 2  E(level): Level energy held fixed in least-squares adjustment.
   3362.651/2 2.8 fs 14  E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   3370.521/2,3/2,5/2+ 11.8 fs 21  E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   3370.563/2 < 5 fs E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   3517.085/2 < 6.9 fs E(level): Level energy held fixed in least-squares adjustment.
   3524.607/2+ 9.7 fs 28  E(level): Level energy held fixed in least-squares adjustment.
   3590.355/2 6 fs 2  E(level): Level energy held fixed in least-squares adjustment.
   3659.71(7/2) 14 fs 4  Possible doublet.
E(level): Level energy held fixed in least-squares adjustment.
   3694.45/2,3/2+ 6 fs 3  E(level): Level energy held fixed in least-squares adjustment.
   3718.07/2,5/2,9/2+   E(level): Level energy held fixed in least-squares adjustment.
   3721.297/2+ 15 fs 6  E(level): Level energy held fixed in least-squares adjustment.
   3762.71/2 TO 5/2   E(level): Level energy held fixed in least-squares adjustment.
   3773.4(1/2) < 11 fs E(level): Level energy held fixed in least-squares adjustment.
   3822.61/2,3/2 19 fs 9  E(level): Level energy held fixed in least-squares adjustment.
   3869.05/2 9.7 ps 35  E(level): Level energy held fixed in least-squares adjustment.
   3875.85/2,3/2- < 8 fs E(level): Level energy held fixed in least-squares adjustment.
   3876.07/2- < 11 fs E(level): Level energy held fixed in least-squares adjustment.
   3890.11/2,3/2,5/2+ < 3.5 ps E(level): Level energy held fixed in least-squares adjustment.
   3892.263/2,5/2+ 24 fs 18  E(level): Level energy held fixed in least-squares adjustment.
   3952.67/2 37 fs 14  E(level): Level energy held fixed in least-squares adjustment.
   3954.315/2+ 0.166 ps 28  E(level): band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
E(level)Jπ(level)T1/2(level)Comments
   3958.73/2+ 9.0 fs 28  E(level): Level energy held fixed in least-squares adjustment.
   3984.977/2,3/2+,5/2+ 24 fs 9  E(level): Level energy held fixed in least-squares adjustment.
   4080.603/2+ 15 fs 4  E(level): Level energy held fixed in least-squares adjustment.
   4099.065/2-,3/2- < 8.3 fs E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4100.313/2- 5.5 fs 21  E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4118.123/2,1/2,5/2 13 fs 4  E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4133.019/2- 0.417 ps 28  E(level): GS band, α=-1/2.
Jπ(level): From J|)J or J|)J-2 γ cascade to 11/2- and membership in band.
   4150.355/2(-) < 7 fs T=3/2
IAS(47Ti,g.s.).
E(level): Level energy held fixed in least-squares adjustment.
   4197.35/2 < 11 fs E(level): Level energy held fixed in least-squares adjustment.
   4207.103/2,1/2,5/2   E(level): Level energy held fixed in least-squares adjustment.
   4222.485/2 < 11 fs E(level): Level energy held fixed in least-squares adjustment.
   4271.607/2,3/2+,5/2+   E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=3 for multiplet in (d,n),(3He,d).
   4271.75(1/2) < 11 fs E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=3 for multiplet in (d,n),(3He,d).
   4345.19(1/2+) < 9 fs E(level): Level energy held fixed in least-squares adjustment.
   4392.801/2-,3/2- < 24 fs E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): From angular momentum transfer in (3He,d).
   4402.67/2,5/2,9/2 < 28 fs E(level): Level energy held fixed in least-squares adjustment.
   4406.4   E(level): Level energy held fixed in least-squares adjustment.
   4453.77/2 11 fs 6  E(level): Level energy held fixed in least-squares adjustment.
   4509.527/2,3/2,5/2+   E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4510.015/2,3/2- < 8.3 fs E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4514.53/2,1/2,5/2-   E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4568.685/2 < 9 fs E(level): Level energy held fixed in least-squares adjustment.
   4694.335/2+,3/2+ < 8.3 fs E(level): Level energy held fixed in least-squares adjustment.
   4719.23/2,1/2,5/2-   E(level): Level energy held fixed in least-squares adjustment.
   4733.89/2 < 15 fs E(level): Level energy held fixed in least-squares adjustment.
E(level)Jπ(level)T1/2(level)Comments
   4792.91/2,3/2   E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4796.83/2,1/2-,5/2-   E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): L(p)=1 for multiplet in (d,n),(3He,d).
   4807.305/2 15 fs 9  E(level): Level energy held fixed in least-squares adjustment.
   4852.55/2,1/2-,3/2-   E(level): Level energy held fixed in least-squares adjustment.
   4907.65/2,3/2+,7/2+ < 13 fs E(level): Level energy held fixed in least-squares adjustment.
   4955.121/2,3/2,5/2+   E(level): Level energy held fixed in least-squares adjustment.
   4976.5   E(level): Level energy held fixed in least-squares adjustment.
   4998.75/2,7/2   E(level): Level energy held fixed in least-squares adjustment.
   4999.317/2+ 0.104 ps 35  E(level): band BASED ON 3/2+, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   5016.03/2,5/2+ < 15 fs E(level): Level energy held fixed in least-squares adjustment.
   5108.651/2,3/2,5/2+   E(level): Level energy held fixed in least-squares adjustment.
   5123.867/2,5/2+   E(level): Level energy held fixed in least-squares adjustment.
   5142.163/2,1/2-,5/2- < 11 fs E(level): Level energy held fixed in least-squares adjustment.
   5222.713/2,5/2+   E(level): Level energy held fixed in least-squares adjustment.
   5240.05/2,3/2+,7/2+ < 5 fs E(level): Level energy held fixed in least-squares adjustment.
   52441/2-,3/2-   Jπ(level): From angular momentum transfer in (3He,d).
   55851/2-,3/2-   Jπ(level): From angular momentum transfer in (3He,d).
   5635.93/2- < 19 fs T=3/2
IAS(47Ti,1550)? possibly fragmented.
E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   5711   May correspond to the 5738 resonance.
   5728.3(19/2+) 0.080 ps 17  E(level): band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   57381/2,3/2 < 7 fs E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   5748   May correspond to the preceding resonance.
   5853.411/2 < 8 fs E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   5885.203/2 < 7 fs E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   5887.331/2 < 2 fs Fragment of IAS(47Ti,1794)?.
E(level): Level energy held fixed in least-squares adjustment.
E(level)Jπ(level)T1/2(level)Comments
   5894.601/2 < 5 fs E(level): Level energy held fixed in least-squares adjustment.
   5903.0(23/2-) 0.254 ps 18  E(level): GS band, α=-1/2.
   5961.21/2 < 8.3 fs E(level): Level energy held fixed in least-squares adjustment.
   5994.33/2 < 6 fs E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   6024.001/2- < 1.4 fs Fragment of IAS(47Ti,1794)?.
E(level): Level energy held fixed in least-squares adjustment.
   6036.71/2+   Jπ(level): From angular momentum transfer in (3He,d).
   6036.8(21/2-) < 0.14 ps E(level): GS band, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   6087.435/2 < 5 fs E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   6122.071/2 < 3 fs E(level): Level energy held fixed in least-squares adjustment.
   6132.601/2+ < 1.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6157.52(5/2) < 17 fs E(level): Level energy held fixed in least-squares adjustment.
   6165.973/2(-) < 1.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6190.59(3/2) < 2 fs E(level): Level energy held fixed in least-squares adjustment.
   6229.555/2+ < 3 fs E(level): Level energy held fixed in least-squares adjustment.
   6239.953/2 < 0.7 fs E(level): Level energy held fixed in least-squares adjustment.
   6270.93(3/2) < 0.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6296.603/2- < 1.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6350.98(3/2)   E(level): Level energy held fixed in least-squares adjustment.
   6373.82(1/2) < 2 fs E(level): Level energy held fixed in least-squares adjustment.
   6387.28(5/2+) < 3 fs Fragment of IAS(47Ti,2260)?.
E(level): Level energy held fixed in least-squares adjustment.
   6393.955/2+ < 1.4 fs Fragment of IAS(47Ti,2260)?.
E(level): Level energy held fixed in least-squares adjustment.
   6427.395/2 < 1.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6475.305/2+ < 1.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6679.737/2(-) < 1.4 fs E(level): Level energy held fixed in least-squares adjustment.
   6683.16   Fragment of IAS(47Ti,2549)? (1973Sc29).
E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): See (p,γ) for proposed assignment by 1973Sc29 (not adopted by evaluator).
E(level)Jπ(level)T1/2(level)Comments
   6693.231/2+ < 0.9 fs E(level): Level energy held fixed in least-squares adjustment.
   6700   Fragment of IAS(47Ti,2549)? (1973Sc29).
E(level): Level energy held fixed in least-squares adjustment.
Jπ(level): See (p,γ) for proposed assignment by 1973Sc29 (not adopted by evaluator).
   6869.021/2+ < 0.21 ps E(level): band BASED ON 3/2+, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   6953.89/2+ < 7 fs E(level): Level energy held fixed in least-squares adjustment.
T1/2(level): Based on the Doppler-shift of primary γ’s deexciting the resonance.
   7398.9(25/2-) 0.090 ps 14  E(level): GS band, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   7725.9(23/2+) 0.069 ps 21  E(level): band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
   7883.4(27/2-) 0.107 ps 12  E(level): GS band, α=-1/2.
Jπ(level): From J|)J or J|)J-2 γ cascade to 11/2- and membership in band.
   8781.7(25/2+)   E(level): band BASED ON 3/2+, α=+1/2.
   9610.5(27/2+) 0.0984 ps 30  E(level): band BASED ON 3/2+, α=-1/2.
  10004.6(31/2-) 0.249 ps 17  E(level): GS band, α=-1/2.
Jπ(level): From J|)J or J|)J-2 γ cascade to 11/2- and membership in band.
  10768.7(29/2-) < 0.055 ps E(level): GS band, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
  11094.5(29/2+)   E(level): band BASED ON 3/2+, α=+1/2.
  11949.0(31/2+) 0.083 ps 14  E(level): band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
  14036.8(35/2-) < 0.08 ps E(level): GS band, α=-1/2.
  14489.1(33/2+) < 0.069 ps E(level): band BASED ON 3/2+, α=+1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.
  15258.2(35/2+) < 0.069 ps E(level): band BASED ON 3/2+, α=-1/2. From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
T1/2(level): From DSAM or NGTB in 28Si(28Si,2αpγ) E=110, 115 MeV.

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Additional Gamma Comments:

E(level)E(gamma)Comments
     87.525     87.5M(γ): from α(K)exp in (p,nγ), γ(θ) in (p,γ), and comparison to RUL
    145.821     58.2E(γ): From (p,nγ)
I(γ): Weighted average of (p,nγ), 10B(40Ca,n2pγ),..., and 28Si(28Si,2αpγ) E=110, 115 MeV. Arithmetic mean of 99.17% 23 and 0.83% 23 (NRM) and 99.09% 25 and 0.21% 25 (RT)
M(γ): d from comparison to RUL. Δπ=no from level scheme
    145.8E(γ): from 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): Weighted average of (p,nγ), 10B(40Ca,n2pγ),..., and 28Si(28Si,2αpγ) E=110, 115 MeV. Arithmetic mean of 99.17% 23 and 0.83% 23 (NRM) and 99.09% 25 and 0.21% 25 (RT)
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme
    259.486    172.2E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
I(γ): Weighted av from (p,γ), (p,nγ), and 10B(40Ca,n2pγ),24Mg(32S,2αpγ),... Arithmetic mean of 11.4% 12 and 88.6% 12 (NRM) and 11.2% 9 and 88.8% 9 (RT)
M(γ): d from comparison to RUL. Δπ=yes from level scheme
    259.4E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
I(γ): Weighted av from (p,γ), (p,nγ), and 10B(40Ca,n2pγ),24Mg(32S,2αpγ),... Arithmetic mean of 11.4% 12 and 88.6% 12 (NRM) and 11.2% 9 and 88.8% 9 (RT)
M(γ): stretched d from angular anisotropy in (40Ca,n2pγ)
    660.358    400.8E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): from α(exp) in (p,nγ) and γ(θ) in (p,γ). Stretched dipole from angular anisotropy in (40Ca,n2pγ)
    514.5M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
    572.5E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL. Δπ=yes from level scheme
    660.1E(γ): From (p,nγ)
M(γ): stretched d from angular anisotropy in (40Ca,n2pγ). Δπ=yes from level scheme
   1138.55    478.0E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): from γ(θ) in (p,nγ). Δπ=no from level scheme. Stretched dipole from angular anisotropy in (40Ca,n2pγ)
    878.7E(γ): From (p,nγ)
    992.7M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   1050.0E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): Stretched dipole from angular anisotropy in (40Ca,n2pγ). D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   1138E(γ): From (p,nγ)
I(γ): From (p,nγ)
   1271.80   1125.7E(γ): From (p,nγ)
M(γ): Stretched dipole from angular anisotropy in (40Ca,n2pγ). From γ(θ) in (p,nγ) and comparison to RUL
   1184.5E(γ): From (p,nγ)
M(γ): From γ(θ) in (p,nγ) and comparison to RUL
   1294.96   1149.17E(γ): weighted average from (p,nγ), 28Si(28Si,2αpγ) E=125 MeV, 10B(40Ca,n2pγ),24Mg(32S,2αpγ),..., and 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): approximately stretched Q in (32S,2αpγ). J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ)
   1660.62   1401E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1661M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   1746.96    608.8E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
   1086.8E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
   1602E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): Stretched dipole from angular anisotropy in (40Ca,n2pγ). D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   1968.92    308M(γ): d from comparison to RUL. Δπ=no from level scheme
    830M(γ): d,E2 from comparison to RUL. Δπ=2,no from level scheme
   1881M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   1969M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
E(level)E(gamma)Comments
   2082.72   1422M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   1937M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   2175.86   1916M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   2030E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2211.75    551M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   1952M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   2124M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   2212E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2415.0    667.8E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): stretched dipole from angular anisotropy in (40Ca,n2pγ). Δπ=no from level scheme. Stretched dipole from angular anisotropy in (40Ca,n2pγ)
   1145E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme. From comparison to RUL
   1276.2E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme
   2439.54    778.9M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   2294M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   2352M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   2439M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   2558.8   1263.8E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): From comparison to RUL
   1287.0E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme
   2615.0     56.2E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): from comparison to RUL assuming Iγ|<8.
   1320.0E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): ≈stretched quadrupole in (32S,2αpγ). Ne M2 from comparison to RUL
   1343E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
   2722.63   1451M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   1584M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   2463M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   2577E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2747.12   1452E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1475E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2660M(γ): Q(+O) from γ(θ) in (p,γ). Δπ=no from level scheme
E(level)E(gamma)Comments
   2767.32   2767E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2810.04    370M(γ): d from comparison to RUL. Δπ=no from level scheme
   1538M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   1671E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2550M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   2722M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   2984.29   2984M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   3054.22   2908E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2966E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3247.73   1976E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3102E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3270.3    855.5E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
   1522.5E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL; Ne J|)J from existence of cascade transition
   1976E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   3303.53   1335E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2643E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3355.49   2695M(γ): d from comparison to RUL. Δπ=no from level scheme
   3355M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   3362.65   1280E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3363E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3370.52   1288E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1401E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3111E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3517.08   3429E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3517E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
E(level)E(gamma)Comments
   3524.60   2386M(γ): d from comparison to RUL. Δπ=no from level scheme
   2864M(γ): d from comparison to RUL. Δπ=no from level scheme
   3590.35   3444E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3503E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3659.71   2388E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2999E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3572E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3694.4   3034E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3607E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3721.29   2583E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3462M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme
   3634M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   3773.4   3773E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3822.6   1740E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2162E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3822E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3875.8   1793E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3876.0   2581M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   3890.1   2229E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3892.26   1716E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1810E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3633E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3954.3    684.0E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
   1539.4E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL; Ne J|)J from existence of cascade transition
   3958.7   1876M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   1990E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3298E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3959M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
E(level)E(gamma)Comments
   3984.97   2846E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3324E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4080.60   3420E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3993M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   4099.06   3953M(γ): M1+E2 if Ji=5/2 from δ and comparison to RUL
   4011E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4099E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4100.31   4100E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4118.12   4118E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4133.0   1518.0E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): approximately stretched Q in (32S,2αpγ); J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL
   4150.35   4004E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4063E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4150E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4197.3   4197E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4222.48   4135E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4222M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   4271.75   2611E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4272E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4345.19   2262M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   3685M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   4086M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   4345E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4346.8   1931E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
   4392.80   4305E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4393E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
E(level)E(gamma)Comments
   4402.6   3130M(γ): M1+E2 if Ji=7/2 from δ and comparison to RUL
   4453.7   3315M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   4510.01   4422E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4510E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4568.68   4568E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4733.8   3462M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3464E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4807.30   4661M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   4999.3   1045.2E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
   1728.6E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from from comparison to RUL; Ne J|)J from existence of cascade transition
   2387E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   5016.0   5016M(γ): M1+E2 if Ji=3/2 from δ and comparison to RUL
   5142.16   5142E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5240.0   4579M(γ): M1+E2 if Ji=5/2 from δ and comparison to RUL
   5635.9   3424M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3553M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3975M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   5548M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   5728.3   1774.0E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from AD. Ne M2 from comparison to RUL. Ne J|)J from existence of cascade transition?
   5738   3562E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4077M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   5077E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5478M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   5650E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5853.41   2080E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2091E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2482.69E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3641E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3770E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5593E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
E(level)E(gamma)Comments
   5885.20   2295M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3445M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3673M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3802M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   4224M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   5797M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   5887.33   3675E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3804E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4226E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5887E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5894.60   2590E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3682E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3811E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4233E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5634E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5894E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5903.0   1769.8E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL. ΔJ=2 from level scheme
   5961.2   1690.25E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1844E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2070E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3750E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3993E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4301E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5962E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5994.3   2171E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2221E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2623.54E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2989E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3227M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3271E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3554M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3818E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3911E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
E(level)E(gamma)Comments
   6024.00   1227E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2201E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2661E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3811E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3941E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4054E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5935E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6023E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6036.8   1903.7E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV. 1362γ-1904γ sequence assigned to 7399,25/2-|)6037,21/2- by 1998Be69 in 24Mg(28Si,αpγ) and 2001Br32 in 28Si(28Si,2αpγ) E=110, 115 MeV. 1998Ca26 assign 1900γ-1367γ sequence to 7400,25/2-|)5500,21/2- in 28Si(28Si,2αpγ) E=125 MeV.
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
   6087.43   1865E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2428E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3082E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6122.07   2163E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3354E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3910E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4039E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4153E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4461E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5862E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6132.60   2761.83E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2761.87E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2770E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2829E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3693M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   3920E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4163E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5472M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme
   5873E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6132M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
E(level)E(gamma)Comments
   6157.52   2199E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2463E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5018E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6165.97   1656E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1894.4E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1969E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2016E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2066E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2795E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2803E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3160E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3399E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3443E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3954E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3990E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4083E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6078E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6190.59   1622E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1968E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3185E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3423E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3468E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4014E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5530E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5930E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6190E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
E(level)E(gamma)Comments
   6229.55   2079M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   2508M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2511M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2570M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2705E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2926E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3224M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   3419M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3790M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   4053M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   4147M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6083M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6142M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6229M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6239.95   1241M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   1521M(γ): M1+E2 if Jf=3/2 from δ and comparison to RUL
   1671M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   1725M(γ): M1+E2 if Jf=3/2 from δ and comparison to RUL
   1847M(γ): M1+E2 if Jf=3/2 from δ and comparison to RUL
   2017E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2141M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2649M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2877M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3185M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3234M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3472M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3800M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   4064M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   6152M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   6239M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
E(level)E(gamma)Comments
   6270.93   1878E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2048E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2170E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2378E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2680E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2754E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2900.13E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2908E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3217E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3503E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3548E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6011E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6183E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6270E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6296.60   1444M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   1500M(γ): M1+E2 if Jf=3/2 from δ and comparison to RUL
   1786M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   2024.6M(γ): M1+E2 if Jf=1/2 from δ and comparison to RUL
   2099M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2178E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2197M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   2523M(γ): M1+E2 if Jf=1/2 from δ and comparison to RUL
   2706E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2925.79M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2934E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4120M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   4327M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   4635M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6208M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
E(level)E(gamma)Comments
   6373.82   1831E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2166E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2273E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2293E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2415E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2483E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2600E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3003E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3003E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3606E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4162E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4291E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4404E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4713E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6114E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6373E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6387.28   1147E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1877.49E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1933E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   1981E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2402E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2518E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2666M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   2727E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2862E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3031E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3333M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   3403M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   3577E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3947E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4418E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5726E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
E(level)E(gamma)Comments
   6392.5    486.0E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
   6393.95   1270M(γ): M1+E2 if Jf=7/2 from δ and comparison to RUL
   1584M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   1884.1M(γ): M1+E2 if Jf=7/2 from δ and comparison to RUL
   1940M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2244M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   2314E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2441E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2672M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2699E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2869M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3038M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3146M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   3583M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3671M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   3954M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   4311M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   4424M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   5733E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6134M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   6247M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6306M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6425.87   2275M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   2307M(γ): M1+E2 if Jf=3/2 from δ and comparison to RUL
   2325E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2550.2M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   2835M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3055E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3122E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3659E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4214M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   4457M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   6279M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
E(level)E(gamma)Comments
   6427.39   2346E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2706E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2902E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3987E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4458E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5288E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5766E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6339E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6475.30   2394M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   2490E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2516E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2522E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2781M(γ): M1+E2 if Jf=5/2 from δ and comparison to RUL
   2815E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3227M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3665E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4035M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   4392M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   4506M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   5814M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   6215M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   6329M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6475M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   6679.73   1946M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   2277M(γ): M1+E2 if Jf=7/2 from δ and comparison to RUL
   2803M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   2961M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   3089M(γ): M1+E2 if δ(4222)=-2.1 3, δ(3315)<-0.6, δ(3462)<-5, δ(4661)<-3.5, δ(4077)=-2.5 6, δ(5478)<-5, δ(2295)<-3, δ(3445)=-3.7 +12-25, δ(3673)=-2.1 3, δ(3802)=+5.3 +48-18, δ(4224)=-1.8 2, δ(5797)=-2.8 7, δ(3227)=-2.0 3, δ(3554)=-2.9 +15-45, δ(2508)=-3.9 6, δ(2511)=-4 1, δ(2570)=+4 1, δ(1671)=-6 2, δ(2141)=+5.4 5, δ(2649)=-3.8 4, δ(2877)=-1.6 8, δ(3185)=-1.9 4, δ(3234)=+20 10, δ(3472)=-2.0 1, δ(3800)=-2.6 4, δ(4064)=-4.8 3, δ(6152)=-4.3 3, δ(6239)=-8 2, δ(2099)=-3.2 5, δ(2926)=+6.2 6, δ(1940)<-7, δ(2672)<-15, δ(2835)=-4.5 9, δ(4214)=-1.53 2, δ(4457)=+4.1 5, δ(6279)<-2.1, δ(3227)<-15, δ(1946)=-11 4, and δ(3089)=-3.1 7 from comparison to RUL
   3432M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3625M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3695M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3932M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   3957M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   4240M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   4503M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   4932M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   5407M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   6533M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
   6591M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=no from level scheme
E(level)E(gamma)Comments
   6683.16   2173E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   2173E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   2411E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
M(γ): δ(2411)=+0.14 4 or +13 +14-5 and δ(3312)=+0.07 4 or -5.4 10 δ(3329)=-0.04 1 or -3.3 2 for possible doublets
   2411E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
M(γ): δ(2411)=+0.14 4 or +13 +14-5 and δ(3312)=+0.07 4 or -5.4 10 δ(3329)=-0.04 1 or -3.3 2 for possible doublets
   3312E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
M(γ): δ(2411)=+0.14 4 or +13 +14-5 and δ(3312)=+0.07 4 or -5.4 10 δ(3329)=-0.04 1 or -3.3 2 for possible doublets
   3312E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
M(γ): δ(2411)=+0.14 4 or +13 +14-5 and δ(3312)=+0.07 4 or -5.4 10 δ(3329)=-0.04 1 or -3.3 2 for possible doublets
   6693.23   2486E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2734E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   2803E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   3322E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   4610M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   5032E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6433E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   6700   2428E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   2428E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
   3329E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
M(γ): δ(2411)=+0.14 4 or +13 +14-5 and δ(3312)=+0.07 4 or -5.4 10 δ(3329)=-0.04 1 or -3.3 2 for possible doublets
   3329E(γ): Multiply placed with undivided intensity
I(γ): Multiply placed with undivided intensity
M(γ): δ(2411)=+0.14 4 or +13 +14-5 and δ(3312)=+0.07 4 or -5.4 10 δ(3329)=-0.04 1 or -3.3 2 for possible doublets
   6869.0    966E(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): d,E2 from comparison to RUL. Δπ=yes from level scheme
   1869.8E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 10B(40Ca,n2pγ),24Mg(32S,2αpγ),...
M(γ): J|)J or J|)J-2 from angular anisotropy in (40Ca,n2pγ). Ne M2 from comparison to RUL; Ne J|)J from existence of cascade transition
   6953.8   3001E(γ): Level energy held fixed in least-squares adjustment
M(γ): From comparison to RUL
   5658M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   5681M(γ): D+Q or d(+Q) from γ(θ) in (p,γ). Δπ=yes from level scheme
   7398.9   1362.1E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV. 1362γ-1904γ sequence assigned to 7399,25/2-|)6037,21/2- by 1998Be69 in 24Mg(28Si,αpγ) and 2001Br32 in 28Si(28Si,2αpγ) E=110, 115 MeV. 1998Ca26 assign 1900γ-1367γ sequence to 7400,25/2-|)5500,21/2- in 28Si(28Si,2αpγ) E=125 MeV.
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme
   1495.9E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): stretched dipole from angular anisotropy in (40Ca,n2pγ). Δπ=no from level scheme
   7725.9   1997.6E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme
E(level)E(gamma)Comments
   7883.4    484.5E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J-1 d from AD and DCO in 28Si(28Si,2αpγ) E=125 MeV. M1 from comparison to RUL
   1980.4E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J or J|)J-2 from AD and DCO in 28Si(28Si,2αpγ) E=125 MeV and from angular anisotropy in (40Ca,n2pγ). Ne J|)J from existence of cascade transition; Ne M2 from comparison to RUL
   8781.7   1912.6E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
   9610.5   1884.5E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J-2 Q from DCO in 28Si(28Si,2αpγ) E=125 MeV. Ne M2 from comparison to RUL. ΔJ=2 from level scheme
  10004.6   2121.0E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J-2 Q from DCO in 28Si(28Si,2αpγ) E=125 MeV. Ne M2 from comparison to RUL
  10768.7    764.0E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): branching ratios in 28Si(28Si,2αpγ) E=125 MeV and 28Si(28Si,2αpγ) E=110, 115 MeV are discrepant. From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J-1 d from AD in 28Si(28Si,2αpγ) E=125 MeV. Ne E1 from comparison to RUL
   2885E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): branching ratios in 28Si(28Si,2αpγ) E=125 MeV and 28Si(28Si,2αpγ) E=110, 115 MeV are discrepant. From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): J|)J-1 d from AD in 28Si(28Si,2αpγ) E=125 MeV.
   3370E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
  11094.5   2312.8E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
  11949.0   2338.5E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): d,E2 from comparison to RUL. ΔJ=2 from level scheme
  14036.8   4032M(γ): J|)J-2 Q from AD in 28Si(28Si,2αpγ) E=125 MeV. Ne M2 from comparison to RUL.
  14489.1   2540.0E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
   3394E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
  15258.2    769.1E(γ): Level energy held fixed in least-squares adjustment. From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): From comparison to RUL
   3309.0E(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
I(γ): From 28Si(28Si,2αpγ) E=110, 115 MeV
M(γ): d,E2 from comparison to RUL. ΔJπ=2,no from level scheme

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