ADOPTED LEVELS, GAMMAS for 93Tc

Author: Coral M. Baglin |  Citation: Nucl. Data Sheets 112, 1163 (2011) |  Cutoff date: 15-Dec-2010 

 Full ENSDF file | Adopted Levels (PDF version) 


Q(β-)=-6388.6 keV 25S(n)= 12751 keV 4S(p)= 4086.5 keV 10Q(α)= -5405 keV 24
Reference: 2012WA38

References:
  A  92Mo(α,p2nγ), 90Zr(6Li,3nγ),  B  92Mo(α,t)
  C  92Mo(d,n)  D  92Mo(p,γ)
  E  92Mo(3He,d), (3He,DP)  F  93Ru ε decay (10.8 S)
  G  93Ru ε decay (59.7 S)  H  93Tc IT decay (43.5 M)
  I  96Ru(p,α)  J  92Mo(16O,15N), (12C,11B)
  K  66Zn(31P,2P2NG),  L  93Nb(π+-)
  M  92Mo(p,p’), (pol p,p) IAR  N  58Ni(40Ca,5PG),
  O  92Mo(p,p) IAR: FINE STRUCTURE 

General Comments:

For discussion of shell-model structure of high-spin levels see, e.g., 1992Si14, 1994Ro08, 1995Gh08.

Levels: The high spin level scheme is that proposed in the 58Ni(40Ca,5pγ) reaction study; it differs in several significant respects from that suggested in 66Zn(31P,2p2nγ) (see the latter data set for specific differences).

Q-value: Note: Current evaluation has used the following Q record -6391 612752 54086.5 10-5380 27 2003Au03,2009AuZZ

Q-value: Q(β-), S(n), Q(α): from 2009AuZZ (cf. -6340 90, 12739 26, -5377 27, respectively, from 2003Au03).

Q-value: Q(ε-p)=-4442 4 (2009AuZZ) (cf. 2470 syst (2003Au03)).










E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
      0.0ABCDEFGHIJKL N  9/2+ 2.75 h 5 
% ε = 100
     
    391.84 8  BCDEFGHIJ      1/2- 43.5 m 10 
% IT = 77.4 6
% ε = 22.6 6
   391.83 8 
  100
M4
      0.0
9/2+
    680.59 8 AB DE G I       (7/2+) < 35 ns    680.68 9 
  100
(M1+E2)
      0.0
9/2+
   1190 9  BCDE   I       1/2-,3/2-        
   1194.13 10   CD  G I       (GE7/2) < 35 ns   1194.1 1 
  100

      0.0
9/2+
   1407.80 12  B D FG I       (5/2-) < 35 ns   1015.9 1 
  100
[E2]
    391.84
1/2-
   1434.42 13 A     G   K  N  (13/2)+ < 10 ns   1434.73 22 
  100
E2
      0.0
9/2+
   1503.04 12  BCDEF  I       1/2-,3/2-     1111.2 1 
  100

    391.84
1/2-
   1515.95 11 A            N  (11/2)+      835.9 3 ?
  1515.80 13 
    4
  100

M1+E2
    680.59
      0.0
(7/2+)
9/2+
   1555 2    D                   
   1788.09 13  BCDEF  I       1/2-,3/2-     1396.2 1 
  100

    391.84
1/2-
   1801.42 10       G I       (7/2,9/2,11/2)     1801.4 1 
  100

      0.0
9/2+
   1969.09 19       G I       (5/2-,7/2,9/2-)      561.2 2 
  1288.7 3 
  100 10 
   65 11 


   1407.80
    680.59
(5/2-)
(7/2+)
   2133.70 24  B DE G I       5/2-,7/2-      725.9 2 
  100

   1407.80
(5/2-)
   2142 2    D                   
   2145.45 13 A     G      N  (13/2)-      629.44 11 
   711.11 10 
   48.1 15 
  100.0 15 
E1
E1
   1515.95
   1434.42
(11/2)+
(13/2)+
   2184.84 15 A         K  N  (17/2)+ 27 ps 5     750.3 2 
  100
E2
   1434.42
(13/2)+
   2185.16 15 A         K  N  (17/2)- 10.2 µs 3 
% IT = 100
     0.31 2 
    39.75 10 
   750.7 2 
 
  100.0 14 
   35.7 14 
[E1]
[E2]
M2+E3
   2184.84
   2145.45
   1434.42
(17/2)+
(13/2)-
(13/2)+
   2257.73 10       G         (7/2,9/2,11/2)     2257.7 1 
  100

      0.0
9/2+
   2290 20 ?        I              
   2338.89 14       G             1658.7 3 
  2338.7 2 
   38 9 
  100 21 


    680.59
      0.0
(7/2+)
9/2+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   2431.08 15    D F          (1/2,3/2)-      642.9 5 
   928.3 2 
  1023.0 3 
  2039.1 2 
    5.0 13 
   18.0 17 
    7.5 13 
  100 4 




   1788.09
   1503.04
   1407.80
    391.84
1/2-,3/2-
1/2-,3/2-
(5/2-)
1/2-
   2490.2 4       G I           1809.6 4 
  100

    680.59
(7/2+)
   2535.3 4 A         K  N  (21/2)+ 1.61 ns 11     350.3 3 
  100
E2
   2184.84
(17/2)+
   2563 3  BCDE   IJ      3/2+,5/2+        
   2631.11 22       G         (7/2,9/2,11/2)     1950.5 2 
  100

    680.59
(7/2+)
   2710 20         I              
   2840 20 ?        I              
   3100 20  B                     
   3150 11     E   I       (3/2+,5/2+)        
   3213.5 25   CD            3/2+,5/2+        
   3280.9 4 A         K  N  (21/2-) < 1.4 ps    745.2
  1095.9 3 
    1.7 6 
  100.0 11 

E2
   2535.3
   2185.16
(21/2)+
(17/2)-
   3353 7  BC E   IJ      3/2+,5/2+        
   3580 20  B                     
   3888.4 5 A         K  N  (25/2-) 57.5 ps 21     607.5 3 
  100
E2
   3280.9
(21/2-)
   3897 12  BC E    J      1/2+        
   3914.75 16  B    G  J      (7/2,9/2,11/2)+     1576.0 4 
  2720.4 3 
  3914.7 2 
   16.8 25 
   41.1 21 
  100 6 



   2338.89
   1194.13
      0.0

(GE7/2)
9/2+
   3927.8 8              N  (19/2+)     1743.1
  100

   2184.84
(17/2)+
   3950 20   C      J             
   4104 11  BC E           1/2+        
   4158.5 3  B    G         (7/2,9/2,11/2)+     3477.3 6 
  4158.5 3 
   24 3 
  100 7 


    680.59
      0.0
(7/2+)
9/2+
   4187.4 3  B    G         (7/2,9/2,11/2)+     4187.3 3 
  100

      0.0
9/2+
   4257.3 4 A         K  N  (21/2+) 3.3 ps 4     329.6 10 
  1721.9 3 
    6.0 5 
  100.0 25 
D

   3927.8
   2535.3
(19/2+)
(21/2)+
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   4344.4 5       G         (7/2,9/2,11/2)     4344.3 5 
  100

      0.0
9/2+
   4389.6 3  B  E G         (7/2,9/2,11/2)+     4389.5 3 
  100

      0.0
9/2+
   4451 16  B  E                  
   4608.9 4       G         (7/2,9/2,11/2)+     3928.0 5 
  4608.9 4 
   49 10 
  100 17 


    680.59
      0.0
(7/2+)
9/2+
   4619.0 4       G         (7/2,9/2,11/2)+     4618.9 4 
  100

      0.0
9/2+
   4668.63 14  BC E G         (9/2,11/2)+     2329.7 2 
  3234.3 2 
  3988.0 3 
  4668.1 3 
   16 3 
  100 5 
   39 5 
   31 3 




   2338.89
   1434.42
    680.59
      0.0

(13/2)+
(7/2+)
9/2+
   4760.6 5  B    G  J      (7/2,9/2,11/2)     4080.1 5 
  4759.6 10 
  100 29 
   17 9 


    680.59
      0.0
(7/2+)
9/2+
   4764 11  BC E    J      3/2+,5/2+        
   4775.0 5  B    G  J      (7/2,9/2,11/2)+     4094.3 5 
  4775.0 10 
  100 17 
   10 5 


    680.59
      0.0
(7/2+)
9/2+
   4900 12  BC E           3/2+,5/2+        
   4937.8 5       G         (7/2,9/2,11/2)+     4257.2 5 
  4937.5 10 
  100 24 
   44 15 


    680.59
      0.0
(7/2+)
9/2+
   4955.0 8       G         (7/2,9/2,11/2)+     4954.9 8 
  100

      0.0
9/2+
   4973.9 9              N  (25/2+) < 0.90 ps   2438.5 10 
  100
E2
   2535.3
(21/2)+
   5032 21   C E           3/2+,5/2+        
   5076.4 6           K  N  (23/2+) < 55 ps    818.2 10 
  1795.9 10 
  2541.3 10 
  100 4 
   24 9 
   10 6 
D


   4257.3
   3280.9
   2535.3
(21/2+)
(21/2-)
(21/2)+
   5176 10  BC E           3/2+,5/2+        
   5298.2 9       G         (7/2,9/2,11/2)+     4104.1 10 
  5297.9 15 
  100 33 
   63 20 


   1194.13
      0.0
(GE7/2)
9/2+
   5316 18   C E           3/2+,5/2+        
   5490 20   C             1/2+        
   5492 18   C E           (3/2+,5/2+)        
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   5564.3 7           K  N  (25/2+) 6.9 ps 10     487.9 10 
  1306.3 10 
   54.9 18 
  100 4 
(M1)
E2
   5076.4
   4257.3
(23/2+)
(21/2+)
   5620  C             1/2+        
   5648 18     E           3/2+,5/2+        
   5680  C             1/2+        
   5780  C             3/2+,5/2+        
   5830 20     E                  
   5980 18  BC E           1/2+        
   6017.4 8           K  N  (27/2+) < 62 ps    452.8 10 
  2129.5 10 
   28.4 14 
  100 4 

(E1)
   5564.3
   3888.4
(25/2+)
(25/2-)
   6053.3 9              N  (25/2-) < 0.55 ps   2164.9 10 
  100

   3888.4
(25/2-)
   6087.8 8           K  N  (29/2+) 104 ps 6      70.0 3 
   523.1 10 
   21.9 10 
  100.0 18 
(M1)
E2
   6017.4
   5564.3
(27/2+)
(25/2+)
   6106   D            1/2,3/2     2892
  4551
  4603
  5714
   13
    6
    1.2
  100




   3213.5
   1555
   1503.04
    391.84
3/2+,5/2+

1/2-,3/2-
1/2-
   6232 18  B  E                  
   6366   D            1/2,3/2,5/2(-)     5974
  100

    391.84
1/2-
   6373.1 7           K  N  (27/2-) 215 fs 14     319.8 10 
  1399.2 10 
  2484.8 10 
    7.6 6 
    5.9 8 
  100.0 23 
(M1)
(E1)
(M1)
   6053.3
   4973.9
   3888.4
(25/2-)
(25/2+)
(25/2-)
   6454.0 9              N  (29/2-) < 0.55 ps   2565.6 10 
  100
E2
   3888.4
(25/2-)
   6463 B D            3/2     4675
  4908
  4960
  6071
    7.5
   12.5
    3.8
  100




   1788.09
   1555
   1503.04
    391.84
1/2-,3/2-

1/2-,3/2-
1/2-
   6469 B D            5/2     4914
  100

   1555

   6477 B D            5/2,7/2     4922
  4974
  5796
   14
   14
  100



   1555
   1503.04
    680.59

1/2-,3/2-
(7/2+)
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   6531   D            3/2     4976
  5337
  6139
   11
    3
  100



   1555
   1194.13
    391.84

(GE7/2)
1/2-
   6576   D            3/2     3362
  4434
  5021
  5073
  6184
    2.5
   11
   10
    2.5
  100





   3213.5
   2142
   1555
   1503.04
    391.84
3/2+,5/2+


1/2-,3/2-
1/2-
   6596   D F          (3/2)-     4808
  5093
  5402
  6204
   33
   55
   63
  100




   1788.09
   1503.04
   1194.13
    391.84
1/2-,3/2-
1/2-,3/2-
(GE7/2)
1/2-
   6600   D F          1/2,3/2,5/2(-)     5097
  6208
   61
  100


   1503.04
    391.84
1/2-,3/2-
1/2-
   6670.6 9           K  N  (31/2+) 0.236 ps 28     582.7 10 
  100
(M1)
   6087.8
(29/2+)
   6857.1 7           K  N  (29/2-) 0.91 ps 5     403.1 10 
   483.8 10 
  2968.9 10 
    9.4 7 
  100.0 22 
    2.5 7 

(M1)
(E2)
   6454.0
   6373.1
   3888.4
(29/2-)
(27/2-)
(25/2-)
   7160 50     E                  
   7282.2 9           K  N  (33/2+) < 0.42 ps    611.5 10 
  1194.2 10 
  100.0 20 
    2.6 12 
(M1)
[E2]
   6670.6
   6087.8
(31/2+)
(29/2+)
   7373.5 9           K  N  (31/2-) 0.89 ps 8     516.5 10 
  1000.4 10 
  100.0 19 
   36.9 14 
(M1)
E2
   6857.1
   6373.1
(29/2-)
(27/2-)
   7650 50     E                  
   7811.9 11           K  N  (35/2+) 0.62 ps 11     529.7 10 
  100
(M1)
   7282.2
(33/2+)
   7880.2 9           K  N  (33/2-) < 0.28 ps    506.8 10 
  1023.3 10 
  1209.5 10 
  100.0 18 
   15.0 9 
    4.0 13 
(M1)


   7373.5
   6857.1
   6670.6
(31/2-)
(29/2-)
(31/2+)
   8100 50     E                  
   8396.7 20   C E       M   5/2+ 15 eV 2       
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
   8487.6 13           K  N  (35/2-)      607.3 10 
  100

   7880.2
(33/2-)
   8497.5 9              N  (35/2-) 0.41 ps 6     617.2 10 
  1124.1 10 
  1215.2 10 
  100.0 18 
    5.0 10 
    3.8 15 
(M1)
(E2)

   7880.2
   7373.5
   7282.2
(33/2-)
(31/2-)
(33/2+)
   8852.3 10           K  N  (37/2-) 0.71 ps 6     354.8 10 
   972.1 10 
  1040.3 10 
  100.0 20 
   32.2 17 
   26.8 14 
(M1)
E2
(E1)
   8497.5
   7880.2
   7811.9
(35/2-)
(33/2-)
(35/2+)
   9139.7 17              N  (37/2-)      652.1 10 
  100

   8487.6
(35/2-)
   9332 3   C E       M   1/2+ 36 eV 4       
   9372.4 14              N  (37/2-)      874.9 10 
  100
D
   8497.5
(35/2-)
   9420.6 11           K  N  (39/2-) 2.6 ps 9     568.2 10 
   923.2 10 
  100.0 22 
   25.9 14 
(M1)
E2
   8852.3
   8497.5
(37/2-)
(35/2-)
      9.54E3 19            L           
   9780 16   C E           7/2+        
   9898  CDE       M   3/2+ 22 eV 2    8110
  8395
  9506
   28 15 
   57 15 
  100 15 



   1788.09
   1503.04
    391.84
1/2-,3/2-
1/2-,3/2-
1/2-
   9948 16     E           7/2+        
  10110 16     E       M   5/2+ 17 eV 3       
  10272.2 15              N  (39/2+) < 1.3 ps   2460.2 10 
  100
E2
   7811.9
(35/2+)
  10566            M   3/2+ 14 eV 4       
  10728 16     E           (11/2-)        
  10833            M   1/2+ 37 eV      
  11097.8 13              N  (41/2-)     2245.5 10 
  100

   8852.3
(37/2-)
  11190            M   (1/2+) 49 eV      
  11289            M   (3/2+) 20 eV      
  11526.4 13              N  (43/2-) < 2.8 ps    428.6 10 
  2105.8 10 
   18 6 
  100 10 
(M1)
E2
  11097.8
   9420.6
(41/2-)
(39/2-)
  11600 50     E       M   (5/2+) 30 eV      
     11.79E3 19            L           
E(level)
(keV)
XREFJπ(level) T1/2(level)E(γ)
(keV)
I(γ)M(γ)Final Levels
  11852            M   (5/2+) 40 eV      
  12016            M   (3/2+) 20 eV      
  12100            M   (3/2+) 35 eV      
  12209            M   (5/2-) 25 eV      
  12218.2 18              N  (43/2+)     1946.0 10 
  100
(E2)
  10272.2
(39/2+)
  12436            M   (3/2-) 70 eV      
  12584            M   (3/2+) 30 eV      
  13258.3 15              N  (41/2,43/2-) < 1.4 ps   3837.6 10 
  100
D,E2
   9420.6
(39/2-)
     15.08E3 7            L           
     16.86E3 9            L           
     19.53E3 2            L           
     20.48E3 11            L           
     33.73E3 26            L    5.1 MeV 11       
     47.3E3           L           

E(level): For additional levels with 8353<E<9533, see 92Mo(p,p) IAR: fine structure.

Jπ(level): Values given without comment are from (40Ca,5pγ), and are based on transition multipolarity (from γ anisotropy ratios and the assumptions that all transitions have Ji|>Jf, most have Ji>Jf and that crossover transitions are E2) and calculated shell-model structure.

T1/2(level): From (α,p2nγ), except as noted, for E<8000; from 92Mo(p,p), (pol p,p) IAR for E>8000, except as noted.

Back to top

Band Transitions:

E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 1 - π=-, SENIORITY=3 STATES.
   6053.3 9  (25/2-) < 0.55 ps      
   6373.1 7  (27/2-) 215 fs 14     319.8 10 
  1399.2 10 
  2484.8 10 
    7.6 6 
    5.9 8 
  100.0 23 
(M1)
(E1)
(M1)
   6053.3
   4973.9
   3888.4
(25/2-)
(25/2+)
(25/2-)
   6454.0 9  (29/2-) < 0.55 ps   2565.6 10 
  100
E2
   3888.4
(25/2-)
   6857.1 7  (29/2-) 0.91 ps 5       
   7373.5 9  (31/2-) 0.89 ps 8     516.5 10 
  1000.4 10 
  100.0 19 
   36.9 14 
(M1)
E2
   6857.1
   6373.1
(29/2-)
(27/2-)
   7880.2 9  (33/2-) < 0.28 ps    506.8 10 
  1023.3 10 
  1209.5 10 
  100.0 18 
   15.0 9 
    4.0 13 
(M1)


   7373.5
   6857.1
   6670.6
(31/2-)
(29/2-)
(31/2+)
   8487.6 13  (35/2-)      607.3 10 
  100

   7880.2
(33/2-)
   8497.5 9  (35/2-) 0.41 ps 6     617.2 10 
  1124.1 10 
  1215.2 10 
  100.0 18 
    5.0 10 
    3.8 15 
(M1)
(E2)

   7880.2
   7373.5
   7282.2
(33/2-)
(31/2-)
(33/2+)
   8852.3 10  (37/2-) 0.71 ps 6     354.8 10 
   972.1 10 
  1040.3 10 
  100.0 20 
   32.2 17 
   26.8 14 
(M1)
E2
(E1)
   8497.5
   7880.2
   7811.9
(35/2-)
(33/2-)
(35/2+)
   9139.7 17  (37/2-)        
   9372.4 14  (37/2-)      874.9 10 
  100
D
   8497.5
(35/2-)
   9420.6 11  (39/2-) 2.6 ps 9     568.2 10 
   923.2 10 
  100.0 22 
   25.9 14 
(M1)
E2
   8852.3
   8497.5
(37/2-)
(35/2-)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 2 - π=+, SENIORITY=3 STATES.
   3927.8 8  (19/2+)        
   4257.3 4  (21/2+) 3.3 ps 4     329.6 10 
  1721.9 3 
    6.0 5 
  100.0 25 
D

   3927.8
   2535.3
(19/2+)
(21/2)+
   5076.4 6  (23/2+) < 55 ps    818.2 10 
  1795.9 10 
  2541.3 10 
  100 4 
   24 9 
   10 6 
D


   4257.3
   3280.9
   2535.3
(21/2+)
(21/2-)
(21/2)+
   5564.3 7  (25/2+) 6.9 ps 10       
   6087.8 8  (29/2+) 104 ps 6      70.0 3 
   523.1 10 
   21.9 10 
  100.0 18 
(M1)
E2
   6017.4
   5564.3
(27/2+)
(25/2+)
   6670.6 9  (31/2+) 0.236 ps 28     582.7 10 
  100
(M1)
   6087.8
(29/2+)
   7282.2 9  (33/2+) < 0.42 ps    611.5 10 
  1194.2 10 
  100.0 20 
    2.6 12 
(M1)
[E2]
   6670.6
   6087.8
(31/2+)
(29/2+)
   7811.9 11  (35/2+) 0.62 ps 11     529.7 10 
  100
(M1)
   7282.2
(33/2+)
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 3 - π=-, SENIORITY=1 STATES.
   2145.45 13  (13/2)-        
   2185.16 15  (17/2)- 10.2 µs 3 
% IT = 100
     0.31 2 
    39.75 10 
   750.7 2 
 
  100.0 14 
   35.7 14 
[E1]
[E2]
M2+E3
   2184.84
   2145.45
   1434.42
(17/2)+
(13/2)-
(13/2)+
   3280.9 4  (21/2-) < 1.4 ps    745.2
  1095.9 3 
    1.7 6 
  100.0 11 

E2
   2535.3
   2185.16
(21/2)+
(17/2)-
   3888.4 5  (25/2-) 57.5 ps 21       
E(level)
(keV)
Jπ(level) T1/2(level)E(γ)I(γ)M(γ)Final Levels
Band 4 - π=+, SENIORITY=1 STATES.
      0.0 9/2+ 2.75 h 5 
% ε = 100
     
   1434.42 13  (13/2)+ < 10 ns   1434.73 22 
  100
E2
      0.0
9/2+
   1515.95 11  (11/2)+      835.9 3 ?
  1515.80 13 
    4
  100

M1+E2
    680.59
      0.0
(7/2+)
9/2+
   2184.84 15  (17/2)+ 27 ps 5       
   2535.3 4  (21/2)+ 1.61 ns 11     350.3 3 
  100
E2
   2184.84
(17/2)+

Back to top

Additional Gamma Data:















E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
    391.84 1/2- 43.5 m 10 
% IT = 77.4 6
% ε = 22.6 6
   391.83 8 M4 0.328B(M4)(W.u.)=25.1 7, α=0.328
    680.59 (7/2+) < 35 ns    680.68 9 (M1+E2)0.7 20.00208B(E2)(W.u.)>0.00089, B(M1)(W.u.)>1.1E-6, α=0.00208
   1407.80 (5/2-) < 35 ns   1015.9 1 [E2] B(E2)(W.u.)>0.00060
   1434.42 (13/2)+ < 10 ns   1434.73 22 E2 B(E2)(W.u.)>0.00037
   1515.95 (11/2)+     1515.80 13 M1+E2-16.6 +21-29 
   2184.84 (17/2)+ 27 ps 5     750.3 2 E2 B(E2)(W.u.)=3.5 7
   2185.16 (17/2)- 10.2 µs 3 
% IT = 100
     0.31 2 [E1] B(E1)(W.u.)=0.0003 +4-3
(17/2)- 10.2 µs 3 
% IT = 100
    39.75 10 [E2] 33.9B(E2)(W.u.)=0.63 3, α=33.9 6
(17/2)- 10.2 µs 3 
% IT = 100
   750.7 2 M2+E3-1.33 +16-36B(E3)(W.u.)=0.0112 12, B(M2)(W.u.)=2.3E-6 4
   2535.3 (21/2)+ 1.61 ns 11     350.3 3 E2 0.01525B(E2)(W.u.)=2.64 18, α=0.01525
   3280.9 (21/2-) < 1.4 ps   1095.9 3 E2 B(E2)(W.u.)>10
   3888.4 (25/2-) 57.5 ps 21     607.5 3 E2 B(E2)(W.u.)=4.75 18
   4973.9 (25/2+) < 0.90 ps   2438.5 10 E2 B(E2)(W.u.)>0.29
   5564.3 (25/2+) 6.9 ps 10     487.9 10 (M1) B(M1)(W.u.)=0.0097 15
(25/2+) 6.9 ps 10    1306.3 10 E2 B(E2)(W.u.)=0.56 9
   6017.4 (27/2+) < 62 ps   2129.5 10 (E1) B(E1)(W.u.)>4.3E-7
   6087.8 (29/2+) 104 ps 6      70.0 3 (M1) 0.766B(M1)(W.u.)=0.097 8, α=0.766 15
(29/2+) 104 ps 6     523.1 10 E2 B(E2)(W.u.)=4.6 3
   6373.1 (27/2-) 215 fs 14     319.8 10 (M1) 0.01266B(M1)(W.u.)=0.210 22, α=0.01266 21
(27/2-) 215 fs 14    1399.2 10 (E1) B(E1)(W.u.)=2.9E-5 5
(27/2-) 215 fs 14    2484.8 10 (M1) B(M1)(W.u.)=0.0059 5
   6454.0 (29/2-) < 0.55 ps   2565.6 10 E2 B(E2)(W.u.)>0.37
   6670.6 (31/2+) 0.236 ps 28     582.7 10 (M1) B(M1)(W.u.)=0.47 6
   6857.1 (29/2-) 0.91 ps 5     483.8 10 (M1) B(M1)(W.u.)=0.191 12
(29/2-) 0.91 ps 5    2968.9 10 (E2) B(E2)(W.u.)=0.0024 7
E(level)
(keV)
Jπ(level)T1/2(level)E(γ)
(keV)
MultipolarityMixing
Ratio
Conversion
Coefficient
Additional Data
   7282.2 (33/2+) < 0.42 ps    611.5 10 (M1) B(M1)(W.u.)>0.22
(33/2+) < 0.42 ps   1194.2 10 [E2] B(E2)(W.u.)>0.56
   7373.5 (31/2-) 0.89 ps 8    1000.4 10 E2 B(E2)(W.u.)=6.8 7
   7811.9 (35/2+) 0.62 ps 11     529.7 10 (M1) B(M1)(W.u.)=0.24 5
   7880.2 (33/2-) < 0.28 ps    506.8 10 (M1) B(M1)(W.u.)>0.50
   8497.5 (35/2-) 0.41 ps 6     617.2 10 (M1) B(M1)(W.u.)=0.21 4
(35/2-) 0.41 ps 6    1124.1 10 (E2) B(E2)(W.u.)=1.4 4
   8852.3 (37/2-) 0.71 ps 6     354.8 10 (M1) B(M1)(W.u.)=0.44 4
(37/2-) 0.71 ps 6     972.1 10 E2 B(E2)(W.u.)=7.4 8
(37/2-) 0.71 ps 6    1040.3 10 (E1) B(E1)(W.u.)=6.9E-5 7
   9420.6 (39/2-) 2.6 ps 9     568.2 10 (M1) B(M1)(W.u.)=0.037 13
(39/2-) 2.6 ps 9     923.2 10 E2 B(E2)(W.u.)=2.7 10
  10272.2 (39/2+) < 1.3 ps   2460.2 10 E2 B(E2)(W.u.)>0.19
  11526.4 (43/2-) < 2.8 ps   2105.8 10 E2 B(E2)(W.u.)>0.16

Back to top

Additional Level Data and Comments:

E(level)Jπ(level)T1/2(level)Comments
      0.09/2+ 2.75 h 5 
% ε = 100
μ=6.32 6
μ: from g=1.405 14 (1995Hi06); NMR on oriented nuclei. Others: 6.26 10 from radiative detection of NMR (1989Ra17, from g=1.392 22 (1981Ha16)); 6.2 +11-4 from 1977Be19, low temperature nuclear orientation in iron (1989Ra17).
E(level): μ: from g=1.405 14 (1995Hi06); NMR on oriented nuclei. Others: 6.26 10 from radiative detection of NMR (1989Ra17, from g=1.392 22 (1981Ha16)); 6.2 +11-4 from 1977Be19, low temperature nuclear orientation in iron (1989Ra17). π=+, SENIORITY=1 STATES.
    680.59(7/2+) < 35 ns T1/2(level): From time resolution for coincidences in 93Ru ε decay (59.7 s).
   1194.13(GE7/2) < 35 ns T1/2(level): From time resolution for coincidences in 93Ru ε decay (59.7 s).
   1407.80(5/2-) < 35 ns T1/2(level): From time resolution for coincidences in 93Ru ε decay (59.7 s).
   1434.42(13/2)+ < 10 ns E(level): π=+, SENIORITY=1 STATES.
   1515.95(11/2)+   E(level): π=+, SENIORITY=1 STATES.
   2145.45(13/2)-   E(level): π=-, SENIORITY=1 STATES.
   2184.84(17/2)+ 27 ps 5  E(level): π=+, SENIORITY=1 STATES.
   2185.16(17/2)- 10.2 µs 3 
% IT = 100
μ=+10.46 5
μ: from DPAD (1989Ra17, from data of 1977Ha49); value is corrected for diamagnetic shielding and Knight shift.
E(level): μ: from DPAD (1989Ra17, from data of 1977Ha49); value is corrected for diamagnetic shielding and Knight shift. π=-, SENIORITY=1 STATES.
   2535.3(21/2)+ 1.61 ns 11  E(level): π=+, SENIORITY=1 STATES.
   3280.9(21/2-) < 1.4 ps E(level): π=-, SENIORITY=1 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   3888.4(25/2-) 57.5 ps 21  E(level): π=-, SENIORITY=1 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   3927.8(19/2+)   E(level): π=+, SENIORITY=3 STATES.
   4257.3(21/2+) 3.3 ps 4  E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   4973.9(25/2+) < 0.90 ps Configuration=(π g9/25) suggested in (40Ca,5pγ).
E(level): Configuration=(π g9/25) suggested in (40Ca,5pγ). From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   5076.4(23/2+) < 55 ps XREF: K(5267).
E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   5564.3(25/2+) 6.9 ps 10  XREF: K(4779).
E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   6017.4(27/2+) < 62 ps XREF: K(3956).
E(level): From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   6053.3(25/2-) < 0.55 ps E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   6087.8(29/2+) 104 ps 6  E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   61061/2,3/2   E(level): From 93Ru ε decay (10.8 s).
Jπ(level): From γ(θ) in (p,γ).
   6373.1(27/2-) 215 fs 14  E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   6454.0(29/2-) < 0.55 ps Different configuration suggested in 1994Ro08.
E(level): Different configuration suggested in 1994Ro08. π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   64633/2   E(level): From 93Ru ε decay (10.8 s).
Jπ(level): From γ(θ) in (p,γ).
   64695/2   E(level): From 93Ru ε decay (10.8 s).
Jπ(level): From γ(θ) in (p,γ).
E(level)Jπ(level)T1/2(level)Comments
   64775/2,7/2   E(level): From 93Ru ε decay (10.8 s).
Jπ(level): From γ(θ) in (p,γ).
   65313/2   E(level): From 93Ru ε decay (10.8 s).
Jπ(level): From γ(θ) in (p,γ).
   65763/2   E(level): From 93Ru ε decay (10.8 s).
Jπ(level): From γ(θ) in (p,γ).
   6670.6(31/2+) 0.236 ps 28  XREF: K(6668).
E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   6857.1(29/2-) 0.91 ps 5  E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   7282.2(33/2+) < 0.42 ps XREF: K(7279).
E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   7373.5(31/2-) 0.89 ps 8  E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   7811.9(35/2+) 0.62 ps 11  XREF: K(7809).
E(level): π=+, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   7880.2(33/2-) < 0.28 ps E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   8487.6(35/2-)   XREF: K(8494).
E(level): π=-, SENIORITY=3 STATES.
   8497.5(35/2-) 0.41 ps 6  E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   8852.3(37/2-) 0.71 ps 6  E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   9139.7(37/2-)   E(level): π=-, SENIORITY=3 STATES.
   93321/2+ 36 eV 4  Isobaric analog of 93Mo(943 level). See 92Mo(p,p) fine structure for data on ≈180 fragments of this resonance.
E(level): Isobaric analog of 93Mo(943 level). See 92Mo(p,p) fine structure for data on ≈180 fragments of this resonance.
   9372.4(37/2-)   E(level): π=-, SENIORITY=3 STATES.
   9420.6(39/2-) 2.6 ps 9  XREF: K(9416).
E(level): π=-, SENIORITY=3 STATES. From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
   98983/2+ 22 eV 2  Isobaric analog of 3/2+ 93Mo(1492 level).
E(level): Isobaric analog of 3/2+ 93Mo(1492 level).
  101105/2+ 17 eV 3  Isobaric analog of 5/2+ 93Mo(1695 level).
E(level): Isobaric analog of 5/2+ 93Mo(1695 level).
  10272.2(39/2+) < 1.3 ps Configuration=(π g9/25)(ν d5/2g9/2-1).
E(level): From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
  11289(3/2+) 20 eV Possible analog of 93Mo(2881 level).
E(level): Possible analog of 93Mo(2881 level).
  11526.4(43/2-) < 2.8 ps E(level): From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
  11600(5/2+) 30 eV Possible analog of 93Mo(3159 level).
E(level): Possible analog of 93Mo(3159 level).
  11852(5/2+) 40 eV Possible analog of 93Mo(3450 level).
E(level): Possible analog of 93Mo(3450 level).
  12016(3/2+) 20 eV Possible analog of 93Mo(3596 level).
E(level): Possible analog of 93Mo(3596 level).
  12436(3/2-) 70 eV Possible analog of 93Mo(3980 level).
E(level): Possible analog of 93Mo(3980 level).
E(level)Jπ(level)T1/2(level)Comments
  12584(3/2+) 30 eV Possible analog of 93Mo(4170 level).
E(level): Possible analog of 93Mo(4170 level).
  13258.3(41/2,43/2-) < 1.4 ps E(level): From 93Ru ε decay (59.7 s).
T1/2(level): From recoil distance Doppler shift (RDDS) and/or differential decay curve method (DDCM) in 64Zn(35Cl,α2pγ) (2003Ha22).
     20.48E3   α T> resonance.
E(level): α T> resonance.
     33.73E3 5.1 MeV 11  Collective giant resonance from coupling of GDR and isobaric analog resonance.
E(level): Collective giant resonance from coupling of GDR and isobaric analog resonance.
     47.3E3   Resonance in (π+-) interpreted as double dipole resonance; σ(θ) has Q shape; Γ≈8-10 MeV (1994Mo04).
E(level): Resonance in (π+-) interpreted as double dipole resonance; σ(θ) has Q shape; Γ≈8-10 MeV (1994Mo04).

Back to top

Additional Gamma Comments:

E(level)E(gamma)Comments
    680.59    680.68E(γ): weighted average of 680.5 3 from (α,p2nγ) and 680.7 1 from ε decay (59.7 s).
   1194.13   1194.1E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   1407.80   1015.9E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   1434.42   1434.73E(γ): weighted average of 1434.45 13 from (α,p2nγ) and 1434.9 1 from ε decay (59.7 s).
   1503.04   1111.2E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
   1788.09   1396.2E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
   1801.42   1801.4E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   1969.09    561.2E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   1288.7E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   2133.70    725.9E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   2145.45    711.11E(γ): weighted average of 711.09 11 from (α,p2nγ) and 711.3 3 from ε decay (59.7 s).
I(γ): from (α,p2nγ).
   2184.84    750.3E(γ): from (α,p2nγ).
   2185.16      0.31E(γ): from energy shift between prompt and delayed 750γ peaks in (α,p2nγ). Other Eγ: 0.44 2 (1976Br08) in (α,2pnγ).
    750.7M(γ): possible parity-violating E2 component <6%; from (32S,2n2pγ).
   2257.73   2257.7E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   2338.89   1658.7E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   2338.7E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   2431.08    642.9E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
    928.3E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
   1023.0E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
   2039.1E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
   2490.2   1809.6E(γ): From 93Ru ε decay (10.8 s).
I(γ): From 93Ru ε decay (10.8 s).
   2535.3    350.3E(γ): from (α,p2nγ).
M(γ): Q from γ(θ) in (α,p2nγ); not M2 from RUL.
   2631.11   1950.5E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   3280.9   1095.9E(γ): from (α,p2nγ).
M(γ): Q from γ(θ) in (α,p2nγ); not M2 from RUL.
E(level)E(gamma)Comments
   3888.4    607.5E(γ): from (α,p2nγ).
M(γ): Q from γ(θ) in (α,p2nγ); not M2 from RUL.
   3914.75   1576.0E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   2720.4E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   3914.7E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4158.5   3477.3E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4158.5E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4187.4   4187.3E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4257.3    329.6M(γ): From γ anisotropy ratio in 58Ni(40Ca,5pγ).
   1721.9E(γ): from (α,p2nγ); 1723.0 in (40Ca,5pγ), 1722.4 in (31P,2p2nγ).
M(γ): ΔJ=0 transition from (40Ca,5pγ). ΔJ=2 assumed in (31P,2p2nγ).
   4344.4   4344.3E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4389.6   4389.5E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4608.9   3928.0E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4608.9E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4619.0   4618.9E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4668.63   2329.7E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   3234.3E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   3988.0E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4668.1E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4760.6   4080.1E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4759.6E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4775.0   4094.3E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4775.0E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4937.8   4257.2E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4937.5E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   4955.0   4954.9E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
E(level)E(gamma)Comments
   4973.9   2438.5E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
   5076.4    818.2M(γ): From γ anisotropy ratio in 58Ni(40Ca,5pγ).
   5298.2   4104.1E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   5297.9E(γ): From 93Ru ε decay (59.7 s).
I(γ): From 93Ru ε decay (59.7 s).
   5564.3    487.9M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   1306.3M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
   6017.4   2129.5M(γ): d from (40Ca,5pγ); Δπ=(yes) from level scheme.
   6053.3   2164.9M(γ): ΔJ=0 transition from (40Ca,5pγ).
   6087.8     70.0E(γ): from (α,p2nγ) (where γ is placed differently); 70.4 from (40Ca,5pγ).
M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
    523.1M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
   6106   2892E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   4551E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   4603E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5714E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6366   5974E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6373.1    319.8M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   1399.2M(γ): d from (40Ca,5pγ); Δπ=(yes) from level scheme.
   2484.8M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   6454.0   2565.6M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
   6463   4675E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   4908E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   4960E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6071E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6469   4914E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6477   4922E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   4974E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5796E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
E(level)E(gamma)Comments
   6531   4976E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5337E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6139E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6576   3362E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   4434E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5021E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5073E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6184E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6596   4808E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5093E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   5402E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6204E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6600   5097E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6208E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   6670.6    582.7M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   6857.1    403.1M(γ): assigned as ΔJ=0 transition in (40Ca,5pγ).
    483.8M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   2968.9M(γ): Q from (40Ca,5pγ); Δπ=(no) from level scheme.
   7282.2    611.5M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   7373.5    516.5M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   1000.4M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
   7811.9    529.7M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   7880.2    506.8M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   8497.5    617.2M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
   1124.1M(γ): (Q) from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
E(level)E(gamma)Comments
   8852.3    354.8M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
    972.1M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL if T1/2<0.83 ps.
   1040.3M(γ): d from (40Ca,5pγ); Δπ=(yes) from level scheme.
   9372.4    874.9M(γ): From γ anisotropy ratio in 58Ni(40Ca,5pγ).
   9420.6    568.2M(γ): d from (40Ca,5pγ); Δπ=(no) from level scheme.
    923.2M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
   9898   8110E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   8395E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
   9506E(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
I(γ): Observed in 92Mo(p,γ) only; Eγ from level energy difference.
  10272.2   2460.2M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
  11526.4    428.6M(γ): d from γ anisotropy in (40Ca,5pγ); Δπ=(no) from level scheme.
   2105.8M(γ): Q from γ anisotropy in (40Ca,5pγ); not M2 from RUL.
  12218.2   1946.0M(γ): Q from (40Ca,5pγ); Δπ=(no) from level scheme.
  13258.3   3837.6M(γ): not M2 from RUL.

Back to top