Data from AR_25D68ED588B5D1005CBBE98B5F0043AA_15.ens

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146NdAdopted Levels, Gammas199712
Published: 1997 Nuclear Data Sheets.
Qβ-=-1472 4Sn=7565.25 14Sp=8588 7Qα=1182.2 221995Au04
History
Type

Author

Citation

Cutoff Date

Full evaluationL. K. Peker and J. K. TuliNuclear Data Sheets 82, 187 (1997)30-Sep-1997
146Nd levels
Cross References (XREF) Flags
A146Pr β- DecayI136Xe(13C,3nγ)
B146Pm Electron Capture DecayJCoulomb Excitation
C148Nd(p,t)K144Nd(t,p)
D146Nd(p,p'),(d,d')L149Sm(n,α)
E145Nd(n,γ) E=ThermalM150Nd(α,α'4nγ)
F145Nd(n,γ) E=0.2-0.5 keVN146Nd(e,e')
G146Nd(γ,γ')O145Nd(n,γ) E=Resonance
H146Nd(n,n'γ)
Elevelg  Jπ#  T½f  XREF  Comments





   0.0@0+stableABCDEFGHIJ
KLMN
T½: T½(2β-,0 ν mode)(theory)=1.18×1028 y (1995Hi01).
 453.77@ 52+21.6 ps 13ABCDEFGHIJ
KLMN
T½: from B(E2) in Coul. ex. (1966Ec02,1967Bu04,1967BuZX,1970Ch14,1971Cr01).
µ=+0.58 2 (1990St18)
µ: Others: +0.50 8 (1978Ka36,1989Ra17), +0.44 6 (1972Ku10), +0.63 10 (1987Be08).
Q=-0.78 9 (1970Ge08,1989Ra17)
Q: Other: -0.72 20 (1971Cr01).
Jπ: γ to g.s. 0+ is E2.
 915.4 30+A  DJπ: J from γγ(θ), π from RUL. From B(M2)(W.u.)>1, T½>53 ns. Such T½ would have been seen in β- decay where resolution was 30 ns.
1042.22@ 144+4.0 ps 10ABCDEF HIJ
KLM
Jπ: L=4 in (d,d').
T½: from B(E2) in Coul. ex. (1967Bu04,1967BuZX).
1189.62& 143-0.62 ps +90-24ABCDEF HIJ
KLM
T½: from DSA in (n,n'γ) (1995Di06).
1303.1 42+A CJπ: γγ(θ), γ to 0+ and 2+ have similar intensity. Jπ=0+ in (p,t).
1376.81 51-h64 fs 20A CDE GH
 L
Jπ: γ to 0+ is ΔJ=1, D; excited in (d,d').
1470.59 62+≈0.3 psA CDEFGH
 L
Jπ: E2 γ to 0+.
1517.52& 145-  CDEF HI
KLM
1572 2(0+)   D
1602.57 110+  C    H
1688& 3Elevel: this could be the same level as 1696.
1696.76 200+A CD
K
Jπ: L=0 in (t,p).
1744.96 104+  CDEF H
KL
Jπ: stretch E2 to 2+; ΔJ=0, M1+E2 γ to 4+.
1769.4 8    EF
1777.16 103+A C EF HJπ: γγ(θ), γ's from 3-,4- resonances in (n,γ) are E1.
1780.02@ 156+   D    I
  M
Jπ: γ to 4+ is ΔJ=2, E2; γ to 5- is ΔJ=1, E1.
1787.30 142+A CDEFGHJπ: γ to 0+ is ΔJ=2, E2.
1812.0    EF
1834 10 L
1884.7    EF
1905.34 102+A C EF H
 L
Jπ: γγ(θ), γ to 2+ is M1+E2.
1918.8 34+   DEF H
 L
Jπ: γ to 2+ is ΔJ=2, E2; γ to 4+ is ΔJ=0, M1+E2.
1978.45 62+A CDEF H
K
Jπ: γ to 0+ is ΔJ=2, E2. Jπ=2- suggested in (n,n'γ) by 1994YaZT.
Elevel: there is a possible discrepancy in branching ratios as observed in (n,n'γ) and β- decay.
1988.92 174+  CDEF HJπ: γ to 2+ is ΔJ=2, E2; γ to 4+ is ΔJ=0, M1+E2.
Note that 218.6γ, 474.0γ, 800.0γ were observed only in (n,γ).
2027 21-   D
2029.42& 157-        I
  M
Jπ: γ to 5- is ΔJ=2, E2; γ to 6+ is ΔJ=1, E1.
2045.53 204-,5    EF HJπ: from γ feeding to various levels.
2069 25-   D
2072.59 123-  C EF H
K
Jπ: γ to 3- is M1+E2, γγ(θ) Jπ=4- suggested in (n,n'γ) by 1994YaZT.
2083.52 16(6+)  C     I
2090 2(0+)   D
2095.79 15(4)+  C EF HJπ: M1+E2 to 4+.
2119.45 152+A   E  HJπ: γ to 0+ is E2.
2143.86 142+A C    HJπ: M1+E2 γ to 2+, γ's to 0+ and 3-.
2148.95 16(1,2+)A      HJπ: γ to 0+, 2+.
2166.00 83-  C EF HXREF(C)=2171
Jπ: γ's to 1-, 5-.
2197.28 212+A CDEF HJπ: γ to 2+ is M1+E2; γ(θ).
2208.36 222+A  D   H
K
Jπ: γ to 0+ is E2.
2219.75 133+A   EF HJπ: γ to 4+ is M1+E2, γ(θ).
2225 21-   D
2225.60 133+,4+    EF HJπ: γ to 4+ is M1+E2; γ to 3-.
2232.2 33-  C EF H
2265.81 192+A C    H
K
Jπ: γ to 2+ is M1+E2, γ(θ); γ to 0+.
2269 21-   D
2285.99 132+  C EF HJπ: γ to 4+ is E2; γ to 2+ is M1+E2; γ(θ). Jπ=0+ in (p,t).
2302.3 10    EF
2310.4 6    E
2324.60 24    E
K
2327.3 4    E
2335.52 167-        I
2335.58 213-A CD   H
K
Jπ: γ to 2+ D+(Q), γ(θ).
2355.81 17119 fs 3A     GHJπ: γ to 0+ is D.
2356.54 16(4+)  C EF
2419.4    EF
2433.4 10    EF
2434.5 34+    EF HJπ: γ to 3+ is M1+E2, γ(θ); no γ to 0+.
2436.53 182+A C EF H
2457.13 212+   D   HJπ: γ to 2+ is M1+E2, γ(θ); γ to 1-.
2460.14 18A   E G
K
2469.40 25    EF H
2474.52b 158+        I
  M
Jπ: γ to 6+ is ΔJ=2, E2; γ to 7 is ΔJ=1, E1.
2478.8 4(2+)A CD
2483.8 3    EF
2491.07 192+,3+0.18 ps +6-4    EF HJπ: γ to 2+ is M1+E2, γ(θ).
T½: from DSA in (n,n'γ) (1995Di06).
2517.1 7-    EF H
K
Jπ: M1+E2 γ to 1-.
2521.34 22(4+,5-)  CDEFJπ: from L(p,t). Jπ=3- in (p,p'),(d,d').
2528.8 52+  C EF
2547.8     F
2551.79 172+,3,4+A    FJπ: γ to 2+, 3+, 4+.
2552.6 62+  CDE  H
K
Jπ: γ to 3- is E1+M2, γ(θ), L(p,t). Jπ=4+ suggested in (n,n'γ) by 1994YaZT and in (p,p'),(d,d').
2556.0     F
K
2561.59 213+    EF HJπ: γ to 2+ is M1+E2, γ(θ).
2570 35-   D
2574.5 32+  C EFGXREF(G)=2580
2587 32+  C   G
2590.49 20    EF
2593.53@ 168+        IJπ: γ to 6+ is ΔJ=2, Q; γ to 7- is ΔJ=1, D.
2600.9 70.14 ps 3     FG
K
2602.9 3    E
2611.00+  CD   H
2623 34+  CD
2628.3 12(8+)  MJπ: γ to 6+ is ΔJ=(2), (E2). No γ to J<6.
2641 3(1-)  C
2660.8 3    EF
K
2663.4 13(1-)  CDE
2681.46 221-0.08 ps 3A     GH
K
Jπ: γ's to 0+ and 2+.
T½: other: 0.038 ps 6 from DSA in (n,n'γ) (1995Di06).
2690 3(3-)  CD
K
2705 4(4+,6+)  CDJπ: J=4 in (p,t). J=6 in (p,p'), (d,d').
2705.81 10(2-)A   EFJπ: strong γ's to 1-, 3+, 3-; no γ to 0+.
2706.22& 169-        I
  M
Jπ: γ to 7- is ΔJ=2, E2; γ to 8+ is E1.
2709.4 10    E
2729 30+  C
K
2750.15-  CDEF
2756.8 31-5.3 fs 13      GHJπ: γ to 0+, analysis of (γ,γ').
T½: other: T½<6 fs from DSA in (n,n'γ) (1995Di06).
2777.2 51,2+A      HElevel: 2775.6 5 in 146Pr β- decay.
Jπ: γ to 0+.
2783.8    EF
2803.4 3    EF
2806 3(4-)  CD
2820 30+  CDJπ: from L(p,t). Jπ=3- in (p,p'),(d,d').
2829.9 71-e67 fs 11      G
2844.6(3-)  CDE
2855.42+  C    H
2856 33-  C
2870.62+  CDE
2885.3(4+)  CDE  H
2905.8(6)+     F HJπ: (E2) γ to 4+, E1 from 3-,4- resonance.
2913.50 18(3+)  CD   HJπ: γ to 4+ is ΔJ=1, D+(Q); γ to 2+ is ΔJ=1, D+(Q).
2916 45-   D
2929.1 103-  C EF
2932 44+   D
2945 30+  CD
2958.6     F
2970.76 222+A CDE
2997.0 23-  C EF
30001e      G
3005 45-   D
3013.5 63-   DEF
3028 200+  C
K
3034.7(2)+  CD FJπ: E1 from 3-,4- resonance.
3043.0 102+  C EF
3064.7     F
3091.22+  CDEJπ: from L(p,t). Jπ=4+ in (p,p'),(d,d').
3102 42+   D
3109.03 169-        IJπ: γ to 8+ is E1, γ to 7- is E2.
3123.83b 1610+        I
  M
Jπ: γ to 8+ is ΔJ=2, E2; γ to 9- is E1.
3126 41-  CD
3148 44+  CDJπ: from L(p,t). Jπ=6+ in (p,p'),(d,d').
3161 44+   D
3172.12+  C  FXREF(C)=3178
3178.32 203+,5+    EF HJπ: γ to 4+ ΔJ=1, M1+E2.
3208 44+   D
3220 42+  C
3229.82+  C  FXREF(C)=3236
3230 4(4-)   D
3236 42+  C
3245.53c 1710-        I
3248 43-   D
3272 3(6+)   D  G
3275.9 71+e22 fs 3      G
3283 42+  CD
3292.5 31e13 fs 4A     G
3310 44+   D
3319.73@ 1610+        I
3329 32+  C
3329.3 3    E
3335.5 4A
3346.9 9A
3356 4(3-)  CD
3368.95 243-A C
3389 41-  C
3391.8 3A
3404.73a 1611-        I
  M
Jπ: γ to 9- is ΔJ=2, E2; γ to 10+ is ΔJ=1, D.
3410.9 71+e8.4 fs 12      G
3419 4(0+)  CD
3428.9 71e31 fs 8      G
3434 45-   D
3443 42+  C
3455 44+  CD  GJπ: (2+,1) in (γ,γ').
3468 43-  C
3472 44+   D
3481 42+  CD
3496 4(5-,6+)  CD
3500.73& 1711-        I
  M
Jπ: γ to 9-, band assignment.
3503 45-   D
3521 53-  C
3534.2 41-A C
3546 52+  CD
3558 55-  CDXREF(D)=3567
3569 52+  C
3576.9 71(+)e6.9 fs 11      G
3583 42+   D
3594.7 5A
3601 54+  C
3610 55-  CD
3618.5 4A
3625 5(2+)  CD
3633.9 71e25 fs 5      G
3646 5  C
3667 55-  CD
3670 5(2+)  C
3692 5(5-)  C
3701 5(2+)  C
3709.2 142+45 fs 14A C   GXREF(C)=3712
3727 52+  C
3742 53-  C
3750.9 71-e16 fs 3  C   GXREF(C)=3754
3753 4(4+)   D
3762 5  C
3770(2+,1)e      G
3779.9 71e22 fs 4  C   GXREF(C)=3782
Jπ: (2+) in (p,t).
3789 5  C
3797.9 71e21 fs 4      G
3810 53-  C
38331e  C   GXREF(C)=3830
3847 5  C
3866 5(2+)  C
3875 5(5-)  C
3884 5(4+)  C
3892.9 71e  C   G
3902.23b 1712+        I
3913 5(3-)  C
3922 53-  C
3931 5  C
3939 5(2+)  C
3949 5(2+)  C
3958.13c 1912-        I
3974.9 71e17 fs 4      G
3993.73@ 1712+        I
4006 6(2+)  C
4014(1)e      G
4022 6  C
4028.13a 1713-        I
  M
Jπ: γ to 11- is ΔJ=2, E2; E1 to 12+.
4031 6  C
4039 6(2+,3-)  C
4042(1)e      G
4054 6(2+)  C
4066 6(2+)  C
4095 6  C
4121 6(2+)  C
4138 6(2+,3-)  C
4168 62+  C
4179 63-  C
4196 62+  C
4212 62+  C
4243 61-  C
4256 62+  C
4269 6  C
4295.03& 1713-        IJπ: γ to 11- is ΔJ=2, E2, E1 to 12+.
4302 6(4+)  C
4310 6(1-)  C
4325 6(4+)  C
4341 6(2+,3-)  C
4360 6  C
4380 6(3-)  C
4388 6(2+)  C
4404 64+  C
4411 6(4+)  C
4422 6(3-)  C
4442 63-  C
4461 6(3-)  C
4479 6  C
4491 6(3-)  C
4501 7(3-)  C
4517 7(4+)  C
4533 7(3-)  C
4545 74+  C
4558 7(3-)  C
4571 7(3-)  C
4591 7(2+,3-)  C
4601 7  C
4637 7  C
4649 7(3-)  C
4669 7  C
4683 7  C
4694.23@ 1814+        I
4695.53b 1814+        I
4696 7(3-)  C
4707 7(3-)  C
4720 7  C
4738 73-  C
4755 73-  C
4761.33a 2015-        IJπ: γ to 13- is ΔJ=2, E2.
4765 72+  C
4773 7  C
4784 7  C
4786.73c 2214-        IJπ: γ to 12- is ΔJ=2, E2.
4794 7  C
4802 7(3-)  C
4822 7  C
4832 7  C
4860 7  C
4866 7  C
4877 7  C
4887 7  C
4899 74+  C
4911 7  C
4931 7  C
4948 7(4+)  C
4964 7(3-)  C
4982 73-  C
5057.94& 1815-        I
5160.93 2315+        I
5362.83d 2116+        I
5460.53@ 1916+        I
5559.03a 2117-        IJπ: γ to 15- is ΔJ=2, E2.
5612.43c 2316-        I
5899.73d 2218+        I
6202.53a 2319-        I
6513.73d 2320+        I
6807.04a 25(21-)        I
7364d 24(22+)        I

#From σ(θ) in (p,t), (p,p'), (d,d'), unless given otherwise.
@Ground-state band
&Octupole band
aΔJ=- cascade-1
bΔJ=+ cascade-1
cΔJ=- cascade-2
dΔJ=+ cascade-2
eFrom γ(θ) and pol in (γ,γ').
fDeduced from Γγ0 in (γ,γ') using adopted branching ratios, unless indicated otherwise.
gFrom least-squares fit to Eγ.
hSuggested as lowest member of quadrupole-octupole quintet (1995Di06) other members of quintent suggested by 1994YaZT are stated by 1995Di06 to be more speculative.
γ(146Nd)

Data from β- decay, (n,γ), and (13C,3nγ).

Elevel  Eγ  Iγ  Mult.  δ  α  Comments







 453.77 453.88 6100E20.01540α(K)=0.01267; α(L)=0.00214; α(M)=0.00046; α(N+..)=0.00012
B(E2)(W.u.)=29.3 18
 915.4 461.6 3100
1042.22 589.3 1100E20.00772α(K)=0.00640; α(L)=0.00099
B(E2)(W.u.)=43 11
1189.62 146.4 5  0.60 6
 735.72 6100.0 6E10.00172α(K)=0.00147; α(L)=0.00019
B(E1)(W.u.)=9.9×10-4
1303.1 849.1 5100 12
1303.4 5 90 11
1376.81 922.92 8 55.5 11E10.00110α(K)=0.00094; α(L)=0.00012
1376.71 6100.0 25E10.00053α(K)=0.00045
Iγ: Iγ(1377)/Iγ(923)=38/62 (1994YaZT).
1470.591016.78 10100 5M1+E2 +5.2 +16-10.00222α(K)=0.00187; α(L)=0.00026
1470.63 8 97 5E20.00103α(K)=0.00088; α(L)=0.00012
1517.52 327.9 1  0.4184E2
 474.3 1100.0E1
1602.571148.8 1102E20.00169α(K)=0.00143; α(L)=0.00019
1696.761243.3 2100Q
1744.96 555.5 1100 4E10.00313α(K)=0.00267; α(L)=0.00035
 701.7 2 78 7M1+E2 -0.23 100.00793 15α(K)=0.00674 13; α(L)=0.00089
1291.7 2 30.7 18E20.00133α(K)=0.00113; α(L)=0.00015
1769.4 725.6100
1777.16 587.8 5 13 3E1+(M2) -0.7 7
 736.0  3.7M1+E2-22 190.0045
1323.3 1100 3M1+E2-16 +8-60.00127α(K)=0.00108; α(L)=0.00014
1780.02 262.5 1 11.27E1
 736.8 1100.0E2α(K)=0.00374; α(L)=0.00055
1787.30 597.8 8 11.5 12
1333.6 2100 5M1+E2 -0.59 +10-10.00164 4α(K)=0.00140 4; α(L)=0.00018
1787.2 2 12.4 6E2
1905.34 715.7 2  4.6 14
1451.6 1100 4M1+E2 -0.37 90.00142α(K)=0.00121; α(L)=0.00016
1905.7 10  1.9 3
1918.8 448.4 6 58 11
 730.0 26.3
 875.6100 5M1+(E2)
1465.0 3100 4E20.00104α(K)=0.00089; α(L)=0.00012
1978.45 191.2 8  0.10 5D+(Q) +0.03 3
 508.0 2  3.0 2
 601.74 8 19.1 9Iγ: from 146Pr β- decay.
 788.90& 7 40.3& 22E1+(M2) +0.06 40.00155 10α(K)=0.00132 8; α(L)=0.00017
Eγ: see also 2168 level.
1524.73 6100 5M1+E2 +0.17 12
1977.4 2  1.4 9E2
1988.92 218.6100 21
 474.0 17.9
 800.0100 21
 946.3 2 68 4M1+E2 -0.14 70.00391 4α(K)=0.00333 3; α(L)=0.00044
1535.0 3 31.8 21E20.00081α(K)=0.00081
2029.42 249.4 1 79.81E1
 511.9 1100.0E2α(K)=0.00919; α(L)=0.00149
2045.53 528.3 4 54 6D+(Q)
1002.7 2100 4D
2072.59 883.1 1100 6M1+E2
1030.4 6 50 19(E1)Mult.: from 1994YaZT.
Iγ: Iγ(1030)/Iγ(883)=16/84 (1994YaZT).
2083.521040.3 1100.0(E2)
2095.79 906.4 2 81 7E1+(M2) +0.08 20.00120 4α(K)=0.00102 3; α(L)=0.00013
1052.8 2100 7M1+E2 -0.71 40.00272 3α(K)=0.00231; α(L)=0.00030
1642.4 4 37 7
2119.451665.3 2 92 15
2119.8 2100 12E2
2143.86 446.4 10 12.4 16
 766.4 10  5.9 13
 954.0 15  2.6 5
1690.4 2100 5M1+E2
2143.9 5 28.1 18
2148.95 772.1 3 63 22
1696.1 5 59 19
2148.8 2100 15
2166.00 380.9100 14
 650.6 5 22 3
 976.8 82 9
1125.1 2 55 5D+(Q)
2197.281743.5 2100M1+E2 +2.9 4
2208.362208.4 3100E2
2219.75 314.4 2 43 7
1030.4 6 90 33
1176.7 2 58 7M1+E2
1766.2 2100 7E2
2225.601036.5 2 50 10
1182.4 2100 10M1+E2
1771.8 2 88 10
2232.21778.4 3100
2265.811812.0 2100 7M1+E2
2265.9 4 38 7
2285.991243.2 1100 4E20.00144α(K)=0.00122; α(L)=0.00016
1831.7 5 30 4M1+E2
2302.3 525.1100
2310.4 565.1 6100 8
1268.5 83 15
2324.60 807.3 2100
2327.31873.5 4100
2335.52 306.1 1 34.12M1+E2
 555.5 1100.0E1
2335.581881.8 2100E1(+M2) -0.02 4Mult.: from (n,n'γ) (1994YaZT).
2355.81 979.1a 2Eγ: reported in (n,n'γ) but not seen in β- decay.
1902.0 3 37# 5
2355.8 2100D
2356.541167.2 2100 6E1+(M2) +0.00 16
1313.3 3 81 4M1+E2
1903.2 4 32 5
2433.41243.9100
2434.5 657.6M1+E2 +0.61 100.00850 24α(K)=0.00720 21; α(L)=0.00098
1391.7 3100
2436.531247.6 3 16 5
1982.5 2100 6M1+E2
2457.13 248.8 2 45 7
1081.0 4 25 7
2002.9 3100 11M1+E2
2460.14 481.5 5  8 5
2005.5 5 49 3
2460.2 2100 5
2469.40 724.6 4 54 12
1426.5 3100 10
2474.52 391.0 1 16.87(E2)
 445.1 1100.00E1
 694.5 1 43.37E2
2478.81436.0 4100
2483.82030.0 3100
2491.071448.6 4 52 11
2037.2 2100 11M1+E2
2517.11139.4100M1+E2
2518
2521.34 775.6 5 37 4
1332.3 4 59 3
1478.6 3100 10
2067
2528.8 716.8 5100
2551.79 774.4 3 32.7 18
1081.3 2100 5
1508.6 8  9.8 9
2098.3 8 12.3 16
2552.61363.6100E1+M2 +0.45 150.0011 4α(K)=0.0009 3; α(L)=0.00012 4
1509.8 59(E2)Eγ,Iγ: from (n,n'γ) (1994YaZT).
2561.592107.8 2100M1+E2<+0.06
2574.52120.2 3100
2590.491073.2 56 4
2136.7 2100 6
2593.53 564.1 1100.0E1
 813.5 1 51.06E2
2600.92147 34 17Iγ: from (γ,γ').
2601100
2602.92149.1 3100
2611.01234.0@100(E1)
2157.1@ 28(E2)
2628.3 848.5100(E2)0.00323α(K)=0.00272; α(L)=0.00039
2660.82207.0 3100
2663.4 894.0100
2681.462227.5 3100 5
2681.6 3 95 5E1Mult.: from γ(θ), T½ in (n,n'γ) (1995Di06).
2705.81 562.1 2 36.0 19
 727.3 2 55.1 28
 928.1 4 16.4 11
1235.1 3 35.5 19
1328.9 2 56.1 28
1515.9 5 25.2 28
2252.19 16100 5
2706.22 112.7 1  2.010E1
 676.8 1100.00E2α(K)=0.00457; α(L)=0.00068
2709.41192.1100
2756.81286.2 4 72 16
2302.9 4100 16
2757.2 6 78 13
2777.22777.2 5100
2803.41059.4100 6
1426.5 3 80 8
2829.92376 18# 8
2830100
2855.41665.5@100(E1)
2401.5@ 53E2
2855.4@ 23E2
2885.31842.4@(E2)
2905.81862.4@(E2)
2913.501169.0 3100 10D+(Q) +0.06 10
1869.8@(E2)
2459.5 2 59 6D+(Q) -0.03 4
2929.11739.6100
2970.761183.1 5 28.1 23
1500.0 5 26.1 29
1593.9 5 41.5 29
1781.3 5 23.0 13
2517.3 4100 6
3043.03043100
3109.03 634.5 1 13.79E1
 773.5 1100.0E2
3123.83 417.6 1 51.39E1
 649.3 1100.0E2
3178.321190.2 4 87 15
2135.3 2100 10M1+E2
3245.53 136.5 1 85.53M1+E2
 539.3 1100.0M1+E2
3275.92822 25# 4
3276100
3292.51148.9 4100 6
1504.9 10 17 4
1915.1 5 38 3
3292.6 5 67 4
3319.73 613.5 1100.0E1
 726.2 1  3.125E2
3329.31102.7 12 8
1812.1 3100 7
3335.51192.2 8 25 3
1958.3 5100 6
2881.8 6 41 3
3346.91650.1 10100 11
2893.0 15 18 2
3368.95 816.5 10  7.9 34
1012.7 6 63 18
1463.8 7 25 3
1991.8 10 29 3
2179.3 3100 6
2915.6 8 21 2
3391.8 839.5 10 36 10
1614.1 7 69 8
1920.9 5 68 8
2938.4 5100 7
3404.73 159.2 1  4.651M1+E2
 280.9 1 96.51E1
 698.5 1100.0E2
3410.92957 29# 4
3411100
3428.92975 65# 20
3429100
3500.73 181.0 1  8.929E1
 794.5 1100.0E2
3534.21555.6 8 91 8
2157.1 7 63 8
3080.6 6100 6
3576.93123 47# 7
3577100
3594.72217.9 6100 13
3140.9 6 98 7
3618.51831.1 3100 6
3165.6 10 11 1
3633.93180 46# 10
3634100
3709.23255.5 18 36 4
3709.0 20100 11
3750.93297 33# 6
3751100
3779.93326 13# 4
3780100
3797.93344 44# 10
3798100
3892.93439 16 8
3893100
3902.23 497.5 1 36.67E1
 778.4 1100.0E2
3958.13 712.6 1100.0E2
3974.93521 24# 6
3975100
3993.73 493.0 1100.0E1
 674.0 1 69.70E2
4028.13 125.9 1  3.279E1
 527.4 1  6.557E2
 623.4 1100.00E2
4295.03 301.3 1 73.33E1
 794.3 1100.0E2
 890.3 1 26.67E2
4694.23 399.2 1100.0E1
 700.5 1 48.15E2
4695.53 667.4 1 96.43E1
 793.3 1100.0E2
4761.33 733.2 1100.0E2
4786.73 828.6 1100.0E2
5057.94 363.7 1100.0E1
 762.9 1100.0E2
5160.93 374.2 1100.0E1
5362.83 601.5 1100.0(E1)
5460.53 402.6 1100.0E1
 766.3 1 56.25E2
5559.03 196.2 1 20.00E1
 797.7 1100.0E2
5612.43 451.5 1 30.00E1
 825.7 1100.0E2
5899.73 340.7 1 92.11E1
 536.9 1100.0(E2)
6202.53 643.5 1100.0E2
6513.73 311.2 1 51.22E1
 614.0 1100.00E2
6807.04 293.3 1100.0(E1)
7364 557.2 1 24(E1)
 850.5 1100(E2)

#Branching deduced from (γ,γ').
@From (n,n'γ) (1994YaZT).
&Multiply placed.
aPlacement in the level scheme is uncertain.


Generated at NNDC by WebTREND Tue Feb 5 20:21:51 2013