List of levels for 137CE

Authors: E. Browne, J. K. Tuli | Citation: Nucl. Data Sheets 108,2173 (2007) | Cutoff date: 1-Oct-2006

Other reactions:

¹²⁸Te(¹⁴n,4np), measured excitation function (2005Un01).

¹²⁸Te(¹²C,3n), measured production σ, excitation function (2003Sh21).

¹³⁴Ba(α,nγ), E=10-30 MeV. Measured isomeric σ ratios (1996Ka03).

¹³⁴Ba(α,nγ), E=15-31 MeV. Measured isomeric σ ratios (1995TuZZ).

¹³⁶Ce(n,γ), E=thermal. Measured isomeric σ ratios (2001Ga57).

¹³⁶Ce(n,γ), E=25 MeV. Measured capture σ (1996Ka03).

¹³⁸Ce(n,2n), E=14.7 MeV. Measured σ (1997Ko44).

¹³⁸Ce(γ,n), E=25 MeV (2001Ga57); E=25, 30 MeV (1999Pa53); E|<25 MeV (1996Be32); E=25 MeV (1995ToZV); E=15-30 MeV (1994PaZY); E=15-25 MeV (1994BaZY). Measured isomer σ ratios. Other: 1996Ga43.

Gammas: Eγ, Iγ are from ¹³⁷Pr ε decay, from (n,γ), or from (¹⁸O,5nγ). There are some discrepancies between ε-decay and (n,γ) data. For example, the branching ratio I(402γ)/I(836γ)=3.6/100 in ε decay but 10.9/100 in (n,γ). Also it is not clear why 745γ from 1180 level was not seen in (n,γ) in spite of being the strongest transition from this level.

Q-value: Note: Current evaluation has used the following Q record -2701 9 7481.54 167130 50 2003Au03

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Conversion Coefficient	Additional Data
160.36	(1/2)+	0.79 ns 14	160.32 9	M1	0.313	B(M1)(W.u.)=0.0052 10, α=0.313, α(K)=0.267 4, α(L)=0.0363 6, α(M)=0.00759 11, α(N)=0.001684 24, α(O)=0.000273 4, α(P)=2.06×10^-5 3, α(N+)=0.00198 3
254.29	11/2-	34.4 h 3 % IT = 99.21 4 % ε = 0.79 4	254.29 5	M4	7.93	B(M4)(W.u.)=2.28 7, α=7.93, α(K)=5.45 8, α(L)=1.92 3, α(M)=0.445 7, α(N)=0.0985 14, α(O)=0.01496 21, α(P)=0.000734 11, α(N+)=0.1142 16
433.97	(3/2)+		433.9 2	M1+E2	0.019	α=0.019 4, α(K)=0.016 3, α(L)=0.00234 17, α(M)=0.00049 3, α(N)=0.000109 8, α(O)=1.73×10^-5 16, α(P)=1.2E-6 3, α(N+)=0.000127 10
514.03	(3/2)+		353.7 2	M1,E2	0.033	α=0.033 5, α(K)=0.028 5, α(L)=0.00426 6, α(M)=0.000900 17, α(N)=0.000198 3, α(O)=3.13×10^-5 9, α(P)=2.0E-6 5, α(N+)=0.000232 4
514.03	(3/2)+		514.0 2	M1,E2	0.0123	α=0.0123 23, α(K)=0.0104 21, α(L)=0.00146 17, α(M)=0.00031 4, α(N)=6.8×10^-5 8, α(O)=1.09E-5 14, α(P)=7.7E-7 18, α(N+)=8.0E-5 9
763.29	(5/2,3/2)+		329.0 2	M1	0.0452	α=0.0452, α(K)=0.0387 6, α(L)=0.00515 8, α(M)=0.001075 16, α(N)=0.000239 4, α(O)=3.87×10^-5 6, α(P)=2.96E-6 5, α(N+)=0.000280 4
836.69	(5/2)+		402.4 2	M1,E2	0.023	α=0.023 4, α(K)=0.020 4, α(L)=0.00291 14, α(M)=0.000613 24, α(N)=0.000135 6, α(O)=2.15×10^-5 15, α(P)=1.4E-6 4, α(N+)=0.000158 8
836.69	(5/2)+		836.7 1	M1	0.00443	α=0.00443, α(K)=0.00381 6, α(L)=0.000490 7, α(M)=0.0001021 15, α(N)=2.27×10^-5 4, α(O)=3.69E-6 6, α(P)=2.87E-7 4, α(N+)=2.66E-5 4
927.7	15/2-		673.3 3	E2	0.00499	α=0.00499, α(K)=0.00422 6, α(L)=0.000610 9, α(M)=0.0001283 18, α(N)=2.83×10^-5 4, α(O)=4.49E-6 7, α(P)=3.02E-7 5, α(N+)=3.31E-5 5
1144.34	13/2-		890.1 2	M1+E2	0.0032	α=0.0032 7, α(K)=0.0028 6, α(L)=0.00036 6, α(M)=7.6×10^-5 13, α(N)=1.7E-5 3, α(O)=2.7E-6 5, α(P)=2.0E-7 5, α(N+)=2.0E-5 4
1925.29	(3/2,5/2)+		1088.6 1	M1,E2	0.0020	α=0.0020 4, α(K)=0.0018 3, α(L)=0.00023 4, α(M)=4.7×10^-5 8, α(N)=1.05E-5 17, α(O)=1.7E-6 3, α(P)=1.30E-7 25, α(N+)=1.23E-5 20
1933.57	3/2+		1096.9 1	M1	0.00235	α=0.00235, α(K)=0.00202 3, α(L)=0.000258 4, α(M)=5.37×10^-5 8, α(N)=1.192E-5 17, α(O)=1.94E-6 3, α(P)=1.517E-7 22, α(N+)=1.402E-5 20
1980.4	15/2-		836.1	(M1+E2)	0.0037	α=0.0037 8, α(K)=0.0032 7, α(L)=0.00042 7, α(M)=8.8×10^-5 15, α(N)=2.0E-5 4, α(O)=3.2E-6 6, α(P)=2.4E-7 6, α(N+)=2.3E-5 4
	15/2-		1052.6	(M1+E2)	0.0022	α=0.0022 4, α(K)=0.0019 4, α(L)=0.00025 4, α(M)=5.1×10^-5 8, α(N)=1.13E-5 19, α(O)=1.8E-6 3, α(P)=1.4E-7 3, α(N+)=1.33E-5 22
	15/2-		1726.2	E2	8.44×10^-4	α=8.44×10^-4, α(K)=0.000584 9, α(L)=7.40E-5 11, α(M)=1.537E-5 22, α(N)=3.41E-6 5, α(O)=5.53E-7 8, α(P)=4.25E-8 6, α(N+)=0.0001708 24
2039.3	19/2-		1111.5 3	E2	1.61×10^-3	α=1.61×10^-3, α(K)=0.001382 20, α(L)=0.000183 3, α(M)=3.81E-5 6, α(N)=8.44E-6 12, α(O)=1.361E-6 19, α(P)=1.004E-7 14, α(N+)=1.046E-5 15
2191.2	19/2-		1263.4 3	E2	1.26×10^-3	α=1.26×10^-3, α(K)=0.001066 15, α(L)=0.0001389 20, α(M)=2.89E-5 4, α(N)=6.41E-6 9, α(O)=1.035E-6 15, α(P)=7.75E-8 11, α(N+)=2.24E-5 4
2437.1	(17/2-)		1509.3	(M1+E2)	0.00109	α=0.00109 14, α(K)=0.00087 12, α(L)=0.000110 14, α(M)=2.3×10^-5 3, α(N)=5.1E-6 7, α(O)=8.3E-7 11, α(P)=6.4E-8 10, α(N+)=8.75E-5 21
2490.3	21/2-		298.4	M1+E2	0.054	α=0.054 5, α(K)=0.045 6, α(L)=0.0072 6, α(M)=0.00153 14, α(N)=0.00034 3, α(O)=5.25×10^-5 25, α(P)=3.2E-6 6, α(N+)=0.00039 3
2490.3	21/2-		450.0	M1+E2	0.017	α=0.017 3, α(K)=0.015 3, α(L)=0.00211 18, α(M)=0.00044 4, α(N)=9.8×10^-5 8, α(O)=1.57E-5 16, α(P)=1.08E-6 25, α(N+)=0.000115 10
2561.6	(19/2+)		370.4	(E1)	0.00733	α=0.00733, α(K)=0.00630 9, α(L)=0.000815 12, α(M)=0.0001694 24, α(N)=3.74×10^-5 6, α(O)=6.00E-6 9, α(P)=4.33E-7 6, α(N+)=4.38E-5 7
2812.2	(23/2)-		322.3	M1+E2	0.043	α=0.043 5, α(K)=0.036 5, α(L)=0.00565 23, α(M)=0.00120 7, α(N)=0.000263 12, α(O)=4.14×10^-5 8, α(P)=2.6E-6 6, α(N+)=0.000307 13
2928.2	(19/2+)		366.8	M1+E2	0.030	α=0.030 4, α(K)=0.025 4, α(L)=0.00382 8, α(M)=0.000807 12, α(N)=0.000178 3, α(O)=2.81×10^-5 11, α(P)=1.8E-6 4, α(N+)=0.000208 5
2972.6	(-)		482.0	M1+E2	0.014	α=0.014 3, α(K)=0.0123 24, α(L)=0.00175 18, α(M)=0.00037 4, α(N)=8.1×10^-5 8, α(O)=1.29E-5 15, α(P)=9.0E-7 21, α(N+)=9.5E-5 10
3067.3	(21/2+)		505.5	M1+E2	0.0128	α=0.0128 24, α(K)=0.0109 22, α(L)=0.00153 17, α(M)=0.00032 4, α(N)=7.1×10^-5 8, α(O)=1.14E-5 15, α(P)=8.0E-7 19, α(N+)=8.3E-5 10
	(21/2+)		875.9	(E1)	1.09×10^-3	α=1.09×10^-3, α(K)=0.000941 14, α(L)=0.0001178 17, α(M)=2.44E-5 4, α(N)=5.41E-6 8, α(O)=8.76E-7 13, α(P)=6.68E-8 10, α(N+)=6.35E-6 9
	(21/2+)		1027.5	(E1)	8.03×10^-4	α=8.03×10^-4, α(K)=0.000694 10, α(L)=8.64E-5 12, α(M)=1.79E-5 3, α(N)=3.96E-6 6, α(O)=6.43E-7 9, α(P)=4.93E-8 7, α(N+)=4.66E-6 7
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Conversion Coefficient	Additional Data
3303.9	(25/2-)		491.6	(M1+E2)	0.0138	α=0.0138 25, α(K)=0.0117 23, α(L)=0.00165 17, α(M)=0.00035 4, α(N)=7.7×10^-5 8, α(O)=1.23E-5 15, α(P)=8.6E-7 20, α(N+)=9.0E-5 10
3404.9	(23/2+)		337.5	M1+E2	0.038	α=0.038 5, α(K)=0.032 5, α(L)=0.00491 12, α(M)=0.00104 4, α(N)=0.000229 7, α(O)=3.60×10^-5 6, α(P)=2.3E-6 5, α(N+)=0.000267 6
3725.0	(25/2+)		320.1	(M1+E2)	0.044	α=0.044 5, α(K)=0.037 5, α(L)=0.0058 3, α(M)=0.00122 7, α(N)=0.000269 13, α(O)=4.23×10^-5 9, α(P)=2.7E-6 6, α(N+)=0.000314 14
3936.1	25/2-		1445.9	E2	1.01×10^-3	α=1.01×10^-3, α(K)=0.000817 12, α(L)=0.0001051 15, α(M)=2.19E-5 3, α(N)=4.84E-6 7, α(O)=7.85E-7 11, α(P)=5.94E-8 9, α(N+)=6.52E-5 10
3985.9			301.4	M1+E2	0.052	α=0.052 5, α(K)=0.044 6, α(L)=0.0070 5, α(M)=0.00148 13, α(N)=0.000325 25, α(O)=5.09×10^-5 22, α(P)=3.1E-6 6, α(N+)=0.00038 3
4115.1	(29/2)		411.7	M1+E2	0.022	α=0.022 4, α(K)=0.019 4, α(L)=0.00272 15, α(M)=0.00057 3, α(N)=0.000127 7, α(O)=2.01×10^-5 15, α(P)=1.4E-6 3, α(N+)=0.000148 9
4255.7	(31/2)		269.7	E2	0.0684	α=0.0684, α(K)=0.0543 8, α(L)=0.01112 16, α(M)=0.00240 4, α(N)=0.000522 8, α(O)=7.89×10^-5 11, α(P)=3.52E-6 5, α(N+)=0.000605 9
4255.7	(31/2)		552.5	E2	0.00825	α=0.00825, α(K)=0.00692 10, α(L)=0.001053 15, α(M)=0.000222 4, α(N)=4.89×10^-5 7, α(O)=7.71E-6 11, α(P)=4.90E-7 7, α(N+)=5.71E-5 8
4704.5	(31/2)		589.4	(M1+E2)	0.0087	α=0.0087 17, α(K)=0.0074 15, α(L)=0.00102 14, α(M)=0.00021 3, α(N)=4.7×10^-5 7, α(O)=7.6E-6 12, α(P)=5.4E-7 13, α(N+)=5.5E-5 8
5305.1	(35/2+)		572.8	M1+E2	0.0093	α=0.0093 18, α(K)=0.0079 16, α(L)=0.00110 15, α(M)=0.00023 3, α(N)=5.1×10^-5 7, α(O)=8.1E-6 12, α(P)=5.8E-7 14, α(N+)=6.0E-5 8
5379.9	(33/2)		1124.1	(E1)	6.86×10^-4	α=6.86×10^-4, α(K)=0.000588 9, α(L)=7.30E-5 11, α(M)=1.511E-5 22, α(N)=3.35E-6 5, α(O)=5.44E-7 8, α(P)=4.19E-8 6, α(N+)=9.28E-6 13
5546.0	(35/2-)		813.7	(E1)	1.26×10^-3	α=1.26×10^-3, α(K)=0.001089 16, α(L)=0.0001366 20, α(M)=2.83E-5 4, α(N)=6.27E-6 9, α(O)=1.016E-6 15, α(P)=7.71E-8 11, α(N+)=7.36E-6 11
5851.6	(37/2-)		305.6	M1+E2	0.050	α=0.050 5, α(K)=0.042 5, α(L)=0.0067 5, α(M)=0.00141 11, α(N)=0.000311 22, α(O)=4.88×10^-5 19, α(P)=3.0E-6 6, α(N+)=0.000363 23
6322.0	(39/2-)		470.4	M1+E2	0.015	α=0.015 3, α(K)=0.0131 25, α(L)=0.00187 18, α(M)=0.00039 4, α(N)=8.7×10^-5 8, α(O)=1.38E-5 15, α(P)=9.6E-7 22, α(N+)=0.000102 10
6459.9			349.0	M1+E2	0.035	α=0.035 5, α(K)=0.029 5, α(L)=0.00443 7, α(M)=0.000937 22, α(N)=0.000206 4, α(O)=3.26×10^-5 8, α(P)=2.1E-6 5, α(N+)=0.000241 4

Q(β-)=-2717 keV 9	S(n)= 7481.53 keV 16	S(p)= 7.17×10³ keV 6	Q(α)= -790.1 keV 11
Reference: 2012WA38

References:
A	¹³⁷Ce IT decay (34.4 H)	B	¹³⁷Pr ε decay
C	¹³⁶Ce(n,γ): E ≈ 2 KEV	D	¹³⁶Ce(n,γ): E ≈ 24 KEV
E	¹³⁶Ce(n,γ) E=THERMAL	F	¹³⁶Ce(n,γ) E=66 EV RES
G	¹³⁶Ce(n,γ) E=136 EV RES	H	¹³⁷Ba(³He,3nγ) E=27 MeV
I	¹³⁸Ba(α,5nγ) E=70 MeV	J	¹²⁴Sn(¹⁸O,5nγ) E=70 MeV

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A B C D E F G H I J	3/2+	9.0 h 3 % ε = 100
160.36 6	B C D E	(1/2)+	0.79 ns 14	160.32 9	100	M1	0.0	3/2+
254.29 5	A H I J	11/2-	34.4 h 3 % IT = 99.21 4 % ε = 0.79 4	254.29 5	100	M4	0.0	3/2+
433.97 8	B D E H I	(3/2)+		273.6 5 433.9 2	3.4 7 100 9	M1+E2	160.36 0.0	(1/2)+ 3/2+
514.03 8	B D E	(3/2)+		353.7 2 514.0 2	54 5 100 10	M1,E2 M1,E2	160.36 0.0	(1/2)+ 3/2+
763.29 7	B D E	(5/2,3/2)+		251.6 2 329.0 2 602.6 1 763.2 1	7.1 21 57 10 100 8 61 3	M1	514.03 433.97 160.36 0.0	(3/2)+ (3/2)+ (1/2)+ 3/2+
825.78 8	D E G	(1/2,3/2)		665.5 1 825.7 1			160.36 0.0	(1/2)+ 3/2+
836.69 8	B E	(5/2)+		402.4 2 676.4 4 836.7 1	3.6 4 0.7 4 100 10	M1,E2 M1	433.97 160.36 0.0	(3/2)+ (1/2)+ 3/2+
866.68 8	B D E	(5/2,3/2)		706.4 2 866.5 1	18 3 100 4		160.36 0.0	(1/2)+ 3/2+
927.7 3	H I	15/2-		673.3 3	100	E2	254.29	11/2-
1104.87 13	B D E	3/2		590.3 2 671.2 3 944.6 6 1105.2 2	59 5 37 5 10 5 100 10		514.03 433.97 160.36 0.0	(3/2)+ (3/2)+ (1/2)+ 3/2+
1144.34 21	H J	13/2-		890.1 2	100	M1+E2	254.29	11/2-
1147.2 4	H			713.2 4	100	D	433.97	(3/2)+
1179.59 10	B E H	(5/2+)		416.3 4 665.2 2 745.4 2 1019.2 2 1180.0 2	43 5 62 5 100 5 23 4 43 6		763.29 514.03 433.97 160.36 0.0	(5/2,3/2)+ (3/2)+ (3/2)+ (1/2)+ 3/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1259.48 20	B E			825.6 2 1258.9 5	100 9 22 9		433.97 0.0	(3/2)+ 3/2+
1271.37 17	B C D E F G	3/2		1110.9 2 1271.6 3	100 2 18.6 19		160.36 0.0	(1/2)+ 3/2+
1288.8 3	B			1128.6 3 1288.2 5	100 21 32 11		160.36 0.0	(1/2)+ 3/2+
1337.4 4	H			903.4 4	100	D+Q	433.97	(3/2)+
1435.39 10	B E			921.2 1 1001.6 1 1435.2 5 ?	100 6 68 5 12 2		514.03 433.97 0.0	(3/2)+ (3/2)+ 3/2+
1476.67 17	B D E	(5/2+,3/2+)		609.9 4 713.3 2 963.2 5 1476.7 5	48 8 100 8 8 1 24 4		866.68 763.29 514.03 0.0	(5/2,3/2) (5/2,3/2)+ (3/2)+ 3/2+
1570.12 25	B			734.2 4 ? 1056.7 3 1569.0 4	31 8 100 15 31 8		836.69 514.03 0.0	(5/2)+ (3/2)+ 3/2+
1577.2 2	C D E	(1/2)
1602.74 13	D E F	3/2		1088.7 1	100		514.03	(3/2)+
1643.0 3	C D F	(1/2)
1687.1 20	D F	(1/2)
1693.35 20	B			856.4 3 1260.1 5 1533.0 4 1693.3 4	61 15 31 15 23 8 100 15		836.69 433.97 160.36 0.0	(5/2)+ (3/2)+ (1/2)+ 3/2+
1715.2 8	D E	(1/2)
1728.1 4	C D F G	(1/2)
1800.51 12	B			695.3 5 933.5 2 1286.5 2 1366.2 5 1800.9 2	8 3 38 4 28 3 8 3 100 8		1104.87 866.68 514.03 433.97 0.0	3/2 (5/2,3/2) (3/2)+ (3/2)+ 3/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1887.77 15	B E F	3/2		1125.0 6 1372.8 6 1453.3 3 1727.6 2 1887.9 3	77 14 17 6 66 9 43 9 100 20		763.29 514.03 433.97 160.36 0.0	(5/2,3/2)+ (3/2)+ (3/2)+ (1/2)+ 3/2+
1909.0 5	D F	(1/2)
1925.29 13	B	(3/2,5/2)+		1088.6 1 1764.8 7	100 5 3.2 11	M1,E2	836.69 160.36	(5/2)+ (1/2)+
1933.57 10	B F	3/2+		753.9 5 1066.8 3 1096.9 1 1170.7 2 1418.9 2 1774.3 8 ? 1934.5 5	9.8 22 6.5 22 100 7 29 3 37 2 3.3 21 9.8 22	M1	1179.59 866.68 836.69 763.29 514.03 160.36 0.0	(5/2+) (5/2,3/2) (5/2)+ (5/2,3/2)+ (3/2)+ (1/2)+ 3/2+
1951.69 14	B E F	3/2		1437.3 2 1517.5 2 1792.6 4 1952.6 4	100 7 25 4 10 3 12 4		514.03 433.97 160.36 0.0	(3/2)+ (3/2)+ (1/2)+ 3/2+
1980.4 6	H J	15/2-		836.1 1052.6 1726.2	100 52 59	(M1+E2) (M1+E2) E2	1144.34 927.7 254.29	13/2- 15/2- 11/2-
2039.3 4	F H I J	19/2-		1111.5 3	100	E2	927.7	15/2-
2040.6 8	D G	(1/2)
2061.1 3	C F G	(1/2)
2113.63 13	B			1246.5 3 1276.8 2 1350.2 6 1679.8 2 2114.4 4	43 7 96 11 25 7 82 11 100 19		866.68 836.69 763.29 433.97 0.0	(5/2,3/2) (5/2)+ (5/2,3/2)+ (3/2)+ 3/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2133.66 13	B C E F	3/2(+)		699.4 5 953.6 3 1028.9 5 ? 1619.3 2 1699.8 2 1974.2 6 ? 2134.5 4	10 5 17.2 17 8.6 17 57 9 100 10 5.2 17 40 9		1435.39 1179.59 1104.87 514.03 433.97 160.36 0.0	(5/2+) 3/2 (3/2)+ (3/2)+ (1/2)+ 3/2+
2142.7 5	E F	(1/2)
2152.9 3	B			973.5 6 1639.0 6 1718.4 7 1992.2 7 2153.0 5	35 12 100 12 24 12 12 6 65 18		1179.59 514.03 433.97 160.36 0.0	(5/2+) (3/2)+ (3/2)+ (1/2)+ 3/2+
2191.2 4	H I J	19/2-		1263.4 3	100	E2	927.7	15/2-
2197.7 5	J			1054.6	100		1144.34	13/2-
2206.7 4	D	(5/2+,3/2+)
2275.20 17	B E F G	3/2(+)		1511.9 3 1841.1 2 2115.4 5 2275.5 8	100 22 33 17 72 22 39 11		763.29 433.97 160.36 0.0	(5/2,3/2)+ (3/2)+ (1/2)+ 3/2+
2293.5 7	E F	(1/2)
2304.81 23	B D F	3/2(+)		1200.0 5 1467.6 4 1871.1 4 2145.4 7 2304.4 7	67 22 22 22 100 22 44 22 56 22		1104.87 836.69 433.97 160.36 0.0	3/2 (5/2)+ (3/2)+ (1/2)+ 3/2+
2308.9 6	I			270.1 5	100		2039.3	19/2-
2336.2 6	H I	(21/2)		138.9 3	100	D	2197.7
2347.4 3	B			1833.6 5 1912.9 6 2186.9 9 2347.6 6	50 25 100 33 25 8 75 25		514.03 433.97 160.36 0.0	(3/2)+ (3/2)+ (1/2)+ 3/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2437.1 7	J	(17/2-)		456.7 1509.3	100	(M1+E2)	1980.4 927.7	15/2- 15/2-
2454.1 3	D E F	(1/2)
2466.2 8	J			267.9 486	100		2197.7 1980.4	15/2-
2480.0 4	B I			1300.4 6 1612.9 10 1966.7 8 2320.3 8 2479.2 6	33 17 100 33 100 33 50 17 50 17		1179.59 866.68 514.03 160.36 0.0	(5/2+) (5/2,3/2) (3/2)+ (1/2)+ 3/2+
2490.3 6	H J	21/2-		298.4 450.0	29 100	M1+E2 M1+E2	2191.2 2039.3	19/2- 19/2-
2538.8 9	J			48.6	100		2490.3	21/2-
2561.6 8	J	(19/2+)		370.4	100	(E1)	2191.2	19/2-
2565.5 6	D E F G	(1/2)
2586.8 7	I			278.3 5	100	D	2308.9
2703.1 6	I			505.4 3	100	D	2197.7
2767.7 9	F	(1/2)
2812.2 8	H I J	(23/2)-		322.3 772.3	100	M1+E2	2490.3 2039.3	21/2- 19/2-
2888.1 6	I			301.8 5	100		2586.8
2928.2 7	J	(19/2+)		366.8 461.5 491.2	52 100	M1+E2	2561.6 2466.2 2437.1	(19/2+) (17/2-)
2972.6 7	I J	(-)		482.0	100	M1+E2	2490.3	21/2-
3067.3 6	J	(21/2+)		138.7 505.5 875.9 1027.5	35 35 29 100	M1+E2 (E1) (E1)	2928.2 2561.6 2191.2 2039.3	(19/2+) (19/2+) 19/2- 19/2-
3128.7 8	J			937.2	100		2191.2	19/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3225.4 5	H I J	(23/2)		96.4 157 337.7 5 522.2 3 686.6 734.9 3 889.5 3 1027.6 3	4.3 60.0 42 21 22 6 23.4 100 10 61 18 7 7	D Q Q D D	3128.7 3067.3 2888.1 2703.1 2538.8 2490.3 2336.2 2197.7	(21/2+) 21/2- (21/2)
3303.9 10	J	(25/2-)		491.6	100	(M1+E2)	2812.2	(23/2)-
3404.9 8	J	(23/2+)		276.2 337.5	16 100	M1+E2	3128.7 3067.3	(21/2+)
3416.1 6	H I J	(25/2)		190.8 3 443.5 3	100 10 10 2	D D	3225.4 2972.6	(23/2) (-)
3684.4 8	J			279.3 459.1	100		3404.9 3225.4	(23/2+) (23/2)
3694.4 14	J			390.5	100		3303.9	(25/2-)
3703.3 7	I J	(27/2)		287.2 3	100	D	3416.1	(25/2)
3725.0 13	J	(25/2+)		320.1	100	(M1+E2)	3404.9	(23/2+)
3744.2 10	J			1253.9	100		2490.3	21/2-
3763.6 10	J			1273.3	100		2490.3	21/2-
3890.7 17	J			165.7	100		3725.0	(25/2+)
3936.1 8	J	25/2-		172.6 192.0 1445.9	100	E2	3763.6 3744.2 2490.3	21/2-
3985.9 8	J			49.8 301.4 681.8	100 11	M1+E2	3936.1 3684.4 3303.9	25/2- (25/2-)
4115.1 11	J	(29/2)		411.7	100	M1+E2	3703.3	(27/2)
4173.6 7	I			470.3 3	100	D	3703.3	(27/2)
4255.7 9	I J	(31/2)		269.7 552.5	50 100	E2 E2	3985.9 3703.3	(27/2)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4339.7 8	I			166.1 3	100		4173.6
4585.9 8	I			412.3 3	100	D	4173.6
4668.3 19	J			777.6	100		3890.7
4704.5 12	J	(31/2)		589.4	100	(M1+E2)	4115.1	(29/2)
4732.4 10	I J	(33/2+)		476.7 3	100	D	4255.7	(31/2)
5305.1 11	J	(35/2+)		572.8 600.6	100	M1+E2	4732.4 4704.5	(33/2+) (31/2)
5379.9 12	J	(33/2)		1124.1	100	(E1)	4255.7	(31/2)
5546.0 12	J	(35/2-)		166.0 813.7	35 100	(E1)	5379.9 4732.4	(33/2) (33/2+)
5851.6 13	J	(37/2-)		305.6 546.5	100 23	M1+E2	5546.0 5305.1	(35/2-) (35/2+)
6110.9 12	J			805.8 1378.6	100		5305.1 4732.4	(35/2+) (33/2+)
6322.0 16	J	(39/2-)		470.4	100	M1+E2	5851.6	(37/2-)
6459.9 13	J			349.0 1154.8	100	M1+E2	6110.9 5305.1	(35/2+)
6930.1 19	J			608.1	100		6322.0	(39/2-)
7661.2 22	J			731.1	100		6930.1

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - Level sequence based on J^π=19/2(+)
2928.2 7	(19/2+)
3067.3 6	(21/2+)		138.7 505.5 875.9 1027.5	35 35 29 100	M1+E2 (E1) (E1)	2928.2 2561.6 2191.2 2039.3	(19/2+) (19/2+) 19/2- 19/2-
3225.4 5	(23/2)		96.4 157 337.7 5 522.2 3 686.6 734.9 3 889.5 3 1027.6 3	4.3 60.0 42 21 22 6 23.4 100 10 61 18 7 7	D Q Q D D	3128.7 3067.3 2888.1 2703.1 2538.8 2490.3 2336.2 2197.7	(21/2+) 21/2- (21/2)
3416.1 6	(25/2)		190.8 3 443.5 3	100 10 10 2	D D	3225.4 2972.6	(23/2) (-)
3703.3 7	(27/2)		287.2 3	100	D	3416.1	(25/2)
4115.1 11	(29/2)		411.7	100	M1+E2	3703.3	(27/2)
4704.5 12	(31/2)		589.4	100	(M1+E2)	4115.1	(29/2)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - Level sequence based on J^π=31/2(+)
4255.7 9	(31/2)
4732.4 10	(33/2+)		476.7 3	100	D	4255.7	(31/2)
5305.1 11	(35/2+)		572.8 600.6	100	M1+E2	4732.4 4704.5	(33/2+) (31/2)
6110.9 12			805.8 1378.6	100		5305.1 4732.4	(35/2+) (33/2+)
6459.9 13			349.0 1154.8	100	M1+E2	6110.9 5305.1	(35/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Level sequence based on J^π=33/2(-)
5379.9 12	(33/2)
5546.0 12	(35/2-)		166.0 813.7	35 100	(E1)	5379.9 4732.4	(33/2) (33/2+)
5851.6 13	(37/2-)		305.6 546.5	100 23	M1+E2	5546.0 5305.1	(35/2-) (35/2+)
6322.0 16	(39/2-)		470.4	100	M1+E2	5851.6	(37/2-)
6930.1 19			608.1	100		6322.0	(39/2-)
7661.2 22			731.1	100		6930.1

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	3/2+	9.0 h 3 % ε = 100	μ=0.96 4 (1991Mu06) μ from γ(θ,H,t) (1991Mu06). Other: 0.91 15 (1989Ra17).
433.97	(3/2)+		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
514.03	(3/2)+		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
763.29	(5/2,3/2)+		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
825.78	(1/2,3/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
866.68	(5/2,3/2)		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
927.7	15/2-		J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
1104.87	3/2		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
1179.59	(5/2+)		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
1271.37	3/2		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
1476.67	(5/2+,3/2+)		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
1577.2	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
1602.74	3/2		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
1643.0	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
1687.1	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
1715.2	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
1728.1	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
1887.77	3/2		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
1909.0	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
1933.57	3/2+		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
1951.69	3/2		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
2039.3	19/2-		J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
2040.6	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2061.1	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2133.66	3/2(+)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
E(level)	J^π(level)	T_1/2(level)	Comments
2142.7	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2191.2	19/2-		J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
2206.7	(5/2+,3/2+)		J^π(level): From ε decay via 5/2⁺ parent, observed dipole γ rays that deexcite E(n)≈24 keV resonances, which include states with Jπ=3/2-,1/2.
2275.20	3/2(+)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
2293.5	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2304.81	3/2(+)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, ΔJ=1 or 0, ε decay via 5/2⁺ parent, shell model.
2336.2	(21/2)		J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
2454.1	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2490.3	21/2-		J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
2565.5	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2767.7	(1/2)		J^π(level): From dipole γ rays that deexcite 1/2⁺ neutron resonances, not observed in ε decay via 5/2⁺ parent.
2928.2	(19/2+)		E(level): Level sequence based on J^π=19/2(+).
2972.6	(-)		π=(+) in 2000Zh39 is not consistent with 482γ M1⁺E2 to 21/2-. E(level): π=(+) in 2000Zh39 is not consistent with 482γ M1⁺E2 to 21/2-.
3067.3	(21/2+)		E(level): Level sequence based on J^π=19/2(+).
3225.4	(23/2)		E(level): Level sequence based on J^π=19/2(+). J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
3416.1	(25/2)		E(level): Level sequence based on J^π=19/2(+). J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
3703.3	(27/2)		E(level): Level sequence based on J^π=19/2(+). J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
4115.1	(29/2)		E(level): Level sequence based on J^π=19/2(+).
4255.7	(31/2)		E(level): Level sequence based on J^π=31/2(+). J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
4704.5	(31/2)		E(level): Level sequence based on J^π=19/2(+).
4732.4	(33/2+)		E(level): Level sequence based on J^π=31/2(+). J^π(level): From γ(θ) in (α,5nγ) and systematics in (HI,xnγ).
5305.1	(35/2+)		E(level): Level sequence based on J^π=31/2(+).
5379.9	(33/2)		E(level): Level sequence based on J^π=33/2(-).
5546.0	(35/2-)		E(level): Level sequence based on J^π=33/2(-).
5851.6	(37/2-)		E(level): Level sequence based on J^π=33/2(-).
E(level)	J^π(level)	T_1/2(level)	Comments
6110.9			E(level): Level sequence based on J^π=31/2(+).
6322.0	(39/2-)		E(level): Level sequence based on J^π=33/2(-).
6459.9			E(level): Level sequence based on J^π=31/2(+).
6930.1			E(level): Level sequence based on J^π=33/2(-).
7661.2			E(level): Level sequence based on J^π=33/2(-).