List of levels for 183AU

Author: Coral M. Baglin | Citation: Nucl. Data Sheets 134, 149 (2016) | Cutoff date: 15-Apr-2015

Other Reactions:

Isotope shift and hfs data: 1988Kr18, 1990Hi08.

For discussion of effects of deformation on decay patterns to Pt, Hg, see 2015Bo01.

Levels: For calculation of bands, Jπ, configurations, shape coexistence features (particle triaxial rotor model), see 2005Ch36.

Levels: For calculation of properties of low-lying levels, see 2001Ro23.

Q-value: Q(εp)=1574 23 (2012Wa38).

E(level): From least-squares fit to adopted Eγ, assigning 1 keV uncertainty to Eγ data for which the authors did not state the uncertainty.

J^π(level): From (³⁵Cl,4nγ), based on established band structure and measured DCO ratios and/or γ(θ), assuming Jπ=(5/2)- and (9/2)-, respectively, for the g.s. and the 12.4 level, except as noted.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
73.3	(1/2)+	> 1 µs	60.5 3	E1		0.323	B(E1)(W.u.)<6.6E-7, α=0.323 7
172.67	(3/2,5/2)-		159.9 3	M1+E2	0.7	1.551	α=1.551 24
172.67	(3/2,5/2)-		172.7 3	M1		1.533	α=1.533
179.14	(1/2,3/2,5/2)-		166.3 3	M1+E2	0.65	1.412	α=1.412 22
230.6	(11/2)-	< 1 µs	218.2 5	M1		0.797	B(M1)(W.u.)>1.2×10^-6, α=0.797 13
231.2	(13/2-)		218.8 2	(E2)		0.277	α=0.277
263.53	(5/2,7/2)-		90.7 3	M1+E2	0.5	9.24	α=9.24 16
273.5	(11/2-)		204.4 2	(E2)		0.348	α=0.348
289.43	(3/2,5/2,7/2)-		198.1 3	M1		1.044	α=1.044
289.43	(3/2,5/2,7/2)-		289.5 3	M1		0.366	α=0.366
296.8	(7/2)-		284.4 3	(M1)		0.384	α=0.384
296.8	(7/2)-		296.7 5	(M1)		0.342	α=0.342
317.94	(1/2,3/2,5/2)-		305.1 3	M1		0.317	α=0.317
565.3	(17/2-)		334.1 2	(E2)		0.0748	α=0.0748
599.6	(15/2-)		326.1 2	(E2)		0.0802	α=0.0802
865.4	(17/2+)		163.6 2	(E2)		0.761	α=0.761
989.1	(21/2-)		423.9 2	(E2)		0.0391	α=0.0391
1022.8	(19/2-)		423.2 2	(E2)		0.0393	α=0.0393
1148.5	(21/2+)		283.1 2	(E2)		0.1218	α=0.1218
1492.0	(25/2-)		502.8 2	(E2)		0.0255	α=0.0255
1527.7	(25/2+)		379.2 2	(E2)		0.0526	α=0.0526
1981.1	(29/2+)		453.4 2	(E2)		0.0329	α=0.0329
1986.4	(27/2-)		498.9 2	(E2)		0.0260	α=0.0260
2063.5	(29/2-)		571.5 2	(E2)		0.0188	α=0.0188
2490.9	(33/2+)		509.8 2	(E2)		0.0246	α=0.0246
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2541.5	(31/2-)		555.1 2	(E2)		0.0201	α=0.0201
2691.1	(33/2-)		627.6 2	(E2)		0.01520	α=0.01520
3048.7	(37/2+)		557.8 2	(E2)		0.0199	α=0.0199
3149.4	(35/2-)		607.9 2	(E2)		0.01633	α=0.01633
3360.0	(37/2-)		668.9 2	(E2)		0.01320	α=0.01320
4989.2	(49/2+)		679.6 2	(E2)		0.01275	α=0.01275
5681.3	(53/2+)		692.1 2	(E2)		0.01226	α=0.01226

Q(β-)=-6385 keV 12	S(n)= 9960 keV 22	S(p)= 1310 keV 16	Q(α)= 5465.3 keV 29
Reference: 2012WA38

References:
A	¹⁸³Hg ε decay	B	¹⁸⁷Tl α decay
C	¹⁵²Sm(³⁵Cl,4nγ)	D	¹⁵⁹Tb(²⁹Si,5nγ),

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A C D	(5/2)-	42.8 s 10 % ε = 99.45 25 % α = 0.55 25
12.4 4	A B C D	(9/2)-		12.4 4 S	100	[E2]	0.0	(5/2)-
12.78 16	A C	(3/2)-		12.78 16 S	100	[M1]	0.0	(5/2)-
69.1 5	C D	(7/2-)
73.3 4	A	(1/2)+	> 1 µs	60.5 3	100	E1	12.78	(3/2)-
91.26 25	A	(5/2-,7/2-)		78.3 5 79.0 5 91.1 5	100 20		12.78 12.4 0.0	(3/2)- (9/2)- (5/2)-
172.67 16	A	(3/2,5/2)-		159.9 3 172.7 3	100 20 81 16	M1+E2 M1	12.78 0.0	(3/2)- (5/2)-
179.14 24	A	(1/2,3/2,5/2)-		166.3 3 179.5 5	100 20 5.9 12	M1+E2	12.78 0.0	(3/2)- (5/2)-
230.6 6	A	(11/2)-	< 1 µs	218.2 5	100	M1	12.4	(9/2)-
231.2 4	C D	(13/2-)		218.8 2	100	(E2)	12.4	(9/2)-
263.53 22	A	(5/2,7/2)-		90.7 3 250.9 5	100 23 ≈46	M1+E2	172.67 12.4	(3/2,5/2)- (9/2)-
273.5 4	C D	(11/2-)		204.4 2 261.1 2	100.0 25 43.5 14	(E2) D+Q	69.1 12.4	(7/2-) (9/2)-
289.43 18	A	(3/2,5/2,7/2)-		198.1 3 276.7 3 289.5 3	44 9 53 12 100 21	M1 M1	91.26 12.78 0.0	(5/2-,7/2-) (3/2)- (5/2)-
296.8 4	A	(7/2)-		284.4 3 296.7 5	100 20 ≈35	(M1) (M1)	12.4 0.0	(9/2)- (5/2)-
317.94 17	A	(1/2,3/2,5/2)-		305.1 3 318.1 3	100 20 18 4	M1	12.78 0.0	(3/2)- (5/2)-
517.1 8	A	(7/2-)		286.5 5	100		230.6	(11/2)-
562.52 25	A	(LE7/2)		244.6 5 273.0 5 549.6 3	≈7.1 36 7 100 21		317.94 289.43 12.78	(1/2,3/2,5/2)- (3/2,5/2,7/2)- (3/2)-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
565.3 4	C D	(17/2-)		334.1 2	100	(E2)	231.2	(13/2-)
599.6 4	C D	(15/2-)		326.1 2 368.0 5	100.0 17 18.6 12	(E2) D	273.5 231.2	(11/2-) (13/2-)
701.8 4	C D	(13/2+)		428.3 2 470.2	100 4 37 4	D+Q (D)	273.5 231.2	(11/2-) (13/2-)
779.86 16	A	(LE7/2)		462.2 3 490.4 5 516.3 3 607.7 3 767.1 3 779.5 3	96 20 20 4 ≈100 ≈52 96 20 84 16		317.94 289.43 263.53 172.67 12.78 0.0	(1/2,3/2,5/2)- (3/2,5/2,7/2)- (5/2,7/2)- (3/2,5/2)- (3/2)- (5/2)-
811.14 24	A	(LE7/2)		632.1 5 798.3 3	≈45 100 19		179.14 12.78	(1/2,3/2,5/2)- (3/2)-
817.67 20	A	(LE7/2)		254.7 5 499.9 5 644.9 3 805.0 5 817.9 5	≈50 43 9 100 21 ≈71 ≈14		562.52 317.94 172.67 12.78 0.0	(LE7/2) (1/2,3/2,5/2)- (3/2,5/2)- (3/2)- (5/2)-
865.4 4	C D	(17/2+)		163.6 2 265.8 2 300.0 5	63 7 100 4 6.0 8	(E2) D	701.8 599.6 565.3	(13/2+) (15/2-) (17/2-)
885.57 21	A	(LE7/2)		712.7 3 872.8 3 885.9 5	100 20 65 15 40 8		172.67 12.78 0.0	(3/2,5/2)- (3/2)- (5/2)-
989.1 5	C D	(21/2-)		423.9 2	100	(E2)	565.3	(17/2-)
1022.8 5	C D	(19/2-)		423.2 2 457.4	100 7 18.1 23	(E2)	599.6 565.3	(15/2-) (17/2-)
1025.1 3	A			707.0 5 852.5 3	75 15 100 20		317.94 172.67	(1/2,3/2,5/2)- (3/2,5/2)-
1054.5 5	C	(19/2-)		455.0 5	100		599.6	(15/2-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1100.2 10	A			583.1 5	100		517.1	(7/2-)
1148.5 5	C D	(21/2+)		283.1 2	100	(E2)	865.4	(17/2+)
1487.5 5	C D	(23/2-)		433.0 2 464.0 5 498.5 2	52 5 95 14 100 21	(Q) (Q)	1054.5 1022.8 989.1	(19/2-) (19/2-) (21/2-)
1492.0 5	C D	(25/2-)		502.8 2	100	(E2)	989.1	(21/2-)
1527.7 5	C D	(25/2+)		379.2 2	100	(E2)	1148.5	(21/2+)
1544.5 5	C D	(23/2-)		522.0 5 555.0 5	100 27 12.0 20		1022.8 989.1	(19/2-) (21/2-)
1605.5 3	A	(LE7/2)		1426.4 3 1592.7 3	100 21 23 4		179.14 12.78	(1/2,3/2,5/2)- (3/2)-
1671.2 4	A			1381.8 3	100		289.43	(3/2,5/2,7/2)-
1680.9 3	A			1362.9 3 1391.6 3	54 12 100 19		317.94 289.43	(1/2,3/2,5/2)- (3/2,5/2,7/2)-
1681.96 17	A	(LE7/2)		864.2 3 870.8 3 902.2 3 1509.2 3 1669.4 3 1681.8 3	58 11 69 14 83 17 100 19 31 6 42 8		817.67 811.14 779.86 172.67 12.78 0.0	(LE7/2) (LE7/2) (LE7/2) (3/2,5/2)- (3/2)- (5/2)-
1736.9 10	D	(23/2+)		588.4	100	D+Q	1148.5	(21/2+)
1800.55 18	A	(LE7/2)		914.9 3 1021.0 3 1482.5 3 1536.8 3 1627.9 3 1787.8 3	38 8 18 4 45 10 19 4 23 4 100 21		885.57 779.86 317.94 263.53 172.67 12.78	(LE7/2) (LE7/2) (1/2,3/2,5/2)- (5/2,7/2)- (3/2,5/2)- (3/2)-
1981.1 6	C D	(29/2+)		453.4 2	100	(E2)	1527.7	(25/2+)
1986.4 5	C D	(27/2-)		441.0 5 ? 494.2 498.9 2	66 19 15.9 25 100 4	(E2)	1544.5 1492.0 1487.5	(23/2-) (25/2-) (23/2-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2063.5 6	C D	(29/2-)		571.5 2	100	(E2)	1492.0	(25/2-)
2117.9 12	D	(27/2-)		573.4	100		1544.5	(23/2-)
2175.7 10	D	(27/2+)		438.8 648.0	38 12 100 23	D	1736.9 1527.7	(23/2+) (25/2+)
2490.9 6	C	(33/2+)		509.8 2	100	(E2)	1981.1	(29/2+)
2541.5 6	C D	(31/2-)		555.1 2	100	(E2)	1986.4	(27/2-)
2681.6 12	D	(31/2+)		505.4? 700.5	100 22		2175.7 1981.1	(27/2+) (29/2+)
2691.1 6	C D	(33/2-)		627.6 2	100	(E2)	2063.5	(29/2-)
2742.4 16	D	(31/2-)		624.5	100		2117.9	(27/2-)
3048.7 6	C D	(37/2+)		557.8 2	100	(E2)	2490.9	(33/2+)
3149.4 6	C D	(35/2-)		607.9 2	100	(E2)	2541.5	(31/2-)
3240.4 12	D	(35/2+)		557.9? 749.5	100 17		2681.6 2490.9	(31/2+) (33/2+)
3360.0 6	C D	(37/2-)		668.9 2	100	(E2)	2691.1	(33/2-)
3388.8 19	D	(35/2-)		646.4	100		2742.4	(31/2-)
3656.7 7	C D	(41/2+)		608.0 2	100		3048.7	(37/2+)
3798.9 6	C D	(39/2-)		649.5 2	100		3149.4	(35/2-)
3838.7 12	D	(39/2+)		597.0? 790.0	100 18		3240.4 3048.7	(35/2+) (37/2+)
4053.1 7	C D	(41/2-)		693.1 2	100		3360.0	(37/2-)
4309.6 7	C D	(45/2+)		652.9 2	100		3656.7	(41/2+)
4461.1 7	C D	(43/2-)		662.2 2	100		3798.9	(39/2-)
4765.6 7	C D	(45/2-)		712.5 2	100		4053.1	(41/2-)
4989.2 7	C D	(49/2+)		679.6 2	100	(E2)	4309.6	(45/2+)
5129.1 8 ?	C	(47/2-)		668.0 5 ?	100		4461.1	(43/2-)
5500.6 9	C D	(49/2-)		735.0 5	100		4765.6	(45/2-)
5681.3 8	C D	(53/2+)		692.1 2	100	(E2)	4989.2	(49/2+)
6276.6 10 ?	C	(53/2-)		776.0 5 ?	100		5500.6	(49/2-)
6381.5 8	C	(57/2+)		700.2 2	100		5681.3	(53/2+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7110.5 9	C	(61/2+)		729.0 5	100		6381.5	(57/2+)
7879.5 11 ?	C	(65/2+)		769.0 5 ?	100		7110.5	(61/2+)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - (π h_9/2), α=+1/2 band.
0.0	(5/2)-	42.8 s 10 % ε = 99.45 25 % α = 0.55 25
12.4 4	(9/2)-		12.4 4 S	100	[E2]	0.0	(5/2)-
231.2 4	(13/2-)		218.8 2	100	(E2)	12.4	(9/2)-
565.3 4	(17/2-)
989.1 5	(21/2-)		423.9 2	100	(E2)	565.3	(17/2-)
1492.0 5	(25/2-)		502.8 2	100	(E2)	989.1	(21/2-)
2063.5 6	(29/2-)		571.5 2	100	(E2)	1492.0	(25/2-)
2691.1 6	(33/2-)		627.6 2	100	(E2)	2063.5	(29/2-)
3360.0 6	(37/2-)		668.9 2	100	(E2)	2691.1	(33/2-)
4053.1 7	(41/2-)		693.1 2	100		3360.0	(37/2-)
4765.6 7	(45/2-)		712.5 2	100		4053.1	(41/2-)
5500.6 9	(49/2-)		735.0 5	100		4765.6	(45/2-)
6276.6 10	(53/2-)		776.0 5 ?	100		5500.6	(49/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - (π f_7/2)?, α=-1/2 band (2005So01).
69.1 5	(7/2-)
273.5 4	(11/2-)		204.4 2 261.1 2	100.0 25 43.5 14	(E2) D+Q	69.1 12.4	(7/2-) (9/2)-
599.6 4	(15/2-)		326.1 2 368.0 5	100.0 17 18.6 12	(E2) D	273.5 231.2	(11/2-) (13/2-)
1022.8 5	(19/2-)
1544.5 5	(23/2-)		522.0 5 555.0 5	100 27 12.0 20		1022.8 989.1	(19/2-) (21/2-)
2117.9 12	(27/2-)		573.4	100		1544.5	(23/2-)
2742.4 16	(31/2-)		624.5	100		2117.9	(27/2-)
3388.8 19	(35/2-)		646.4	100		2742.4	(31/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - 1/2[660], α=+1/2 band.
701.8 4	(13/2+)
865.4 4	(17/2+)		163.6 2 265.8 2 300.0 5	63 7 100 4 6.0 8	(E2) D	701.8 599.6 565.3	(13/2+) (15/2-) (17/2-)
1148.5 5	(21/2+)		283.1 2	100	(E2)	865.4	(17/2+)
1527.7 5	(25/2+)
1981.1 6	(29/2+)		453.4 2	100	(E2)	1527.7	(25/2+)
2490.9 6	(33/2+)		509.8 2	100	(E2)	1981.1	(29/2+)
3048.7 6	(37/2+)		557.8 2	100	(E2)	2490.9	(33/2+)
3656.7 7	(41/2+)		608.0 2	100		3048.7	(37/2+)
4309.6 7	(45/2+)		652.9 2	100		3656.7	(41/2+)
4989.2 7	(49/2+)		679.6 2	100	(E2)	4309.6	(45/2+)
5681.3 8	(53/2+)		692.1 2	100	(E2)	4989.2	(49/2+)
6381.5 8	(57/2+)		700.2 2	100		5681.3	(53/2+)
7110.5 9	(61/2+)		729.0 5	100		6381.5	(57/2+)
7879.5 11	(65/2+)		769.0 5 ?	100		7110.5	(61/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - π=+, α=-1/2 band.
1736.9 10	(23/2+)
2175.7 10	(27/2+)		438.8 648.0	38 12 100 23	D	1736.9 1527.7	(23/2+) (25/2+)
2681.6 12	(31/2+)		505.4? 700.5	100 22		2175.7 1981.1	(27/2+) (29/2+)
3240.4 12	(35/2+)
3838.7 12	(39/2+)		597.0? 790.0	100 18		3240.4 3048.7	(35/2+) (37/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - possible (π h_9/2), α=-1/2 band.
1054.5 5	(19/2-)
1487.5 5	(23/2-)		433.0 2 464.0 5 498.5 2	52 5 95 14 100 21	(Q) (Q)	1054.5 1022.8 989.1	(19/2-) (19/2-) (21/2-)
1986.4 5	(27/2-)		441.0 5 ? 494.2 498.9 2	66 19 15.9 25 100 4	(E2)	1544.5 1492.0 1487.5	(23/2-) (25/2-) (23/2-)
2541.5 6	(31/2-)
3149.4 6	(35/2-)		607.9 2	100	(E2)	2541.5	(31/2-)
3798.9 6	(39/2-)		649.5 2	100		3149.4	(35/2-)
4461.1 7	(43/2-)		662.2 2	100		3798.9	(39/2-)
5129.1 8	(47/2-)		668.0 5 ?	100		4461.1	(43/2-)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	(5/2)-	42.8 s 10 % ε = 99.45 25 % α = 0.55 25	μ=+1.972 23 (1988Kr18) <r²>^1/2(charge)=5.388 fm 6 (2004An14). E(level): <r²>^1/2(charge)=5.388 fm 6 (2004An14). (π h_9/2), α=+1/2 band.
12.4	(9/2)-		E(level): (π h_9/2), α=+1/2 band.
69.1	(7/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
230.6	(11/2)-	< 1 µs	E(level): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au. J^π(level): An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au.
231.2	(13/2-)		E(level): (π h_9/2), α=+1/2 band. From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au. J^π(level): An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au.
273.5	(11/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
565.3	(17/2-)		E(level): (π h_9/2), α=+1/2 band.
599.6	(15/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
701.8	(13/2+)		E(level): 1/2[660], α=+1/2 band.
865.4	(17/2+)		E(level): 1/2[660], α=+1/2 band.
989.1	(21/2-)		E(level): (π h_9/2), α=+1/2 band.
1022.8	(19/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
1054.5	(19/2-)		E(level): possible (π h_9/2), α=-1/2 band.
1148.5	(21/2+)		E(level): 1/2[660], α=+1/2 band.
1487.5	(23/2-)		E(level): possible (π h_9/2), α=-1/2 band.
1492.0	(25/2-)		E(level): (π h_9/2), α=+1/2 band.
1527.7	(25/2+)		E(level): 1/2[660], α=+1/2 band.
1544.5	(23/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
1736.9	(23/2+)		E(level): π=+, α=-1/2 band.
1981.1	(29/2+)		E(level): 1/2[660], α=+1/2 band.
1986.4	(27/2-)		E(level): possible (π h_9/2), α=-1/2 band.
2063.5	(29/2-)		E(level): (π h_9/2), α=+1/2 band.
2117.9	(27/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
2175.7	(27/2+)		E(level): π=+, α=-1/2 band.
2490.9	(33/2+)		E(level): 1/2[660], α=+1/2 band.
E(level)	J^π(level)	T_1/2(level)	Comments
2541.5	(31/2-)		E(level): possible (π h_9/2), α=-1/2 band.
2681.6	(31/2+)		E(level): π=+, α=-1/2 band.
2691.1	(33/2-)		E(level): (π h_9/2), α=+1/2 band.
2742.4	(31/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
3048.7	(37/2+)		E(level): 1/2[660], α=+1/2 band.
3149.4	(35/2-)		E(level): possible (π h_9/2), α=-1/2 band.
3240.4	(35/2+)		E(level): π=+, α=-1/2 band.
3360.0	(37/2-)		E(level): (π h_9/2), α=+1/2 band.
3388.8	(35/2-)		E(level): (π f_7/2)?, α=-1/2 band (2005So01).
3656.7	(41/2+)		E(level): 1/2[660], α=+1/2 band.
3798.9	(39/2-)		E(level): possible (π h_9/2), α=-1/2 band.
3838.7	(39/2+)		E(level): π=+, α=-1/2 band.
4053.1	(41/2-)		E(level): (π h_9/2), α=+1/2 band.
4309.6	(45/2+)		E(level): 1/2[660], α=+1/2 band.
4461.1	(43/2-)		E(level): possible (π h_9/2), α=-1/2 band.
4765.6	(45/2-)		E(level): (π h_9/2), α=+1/2 band.
4989.2	(49/2+)		E(level): 1/2[660], α=+1/2 band.
5129.1	(47/2-)		E(level): possible (π h_9/2), α=-1/2 band.
5500.6	(49/2-)		E(level): (π h_9/2), α=+1/2 band.
5681.3	(53/2+)		E(level): 1/2[660], α=+1/2 band.
6276.6	(53/2-)		E(level): (π h_9/2), α=+1/2 band.
6381.5	(57/2+)		E(level): 1/2[660], α=+1/2 band.
7110.5	(61/2+)		E(level): 1/2[660], α=+1/2 band.
7879.5	(65/2+)		E(level): 1/2[660], α=+1/2 band.

E(level)	E(gamma)	Comments
12.4	12.4	E(γ): from level energy difference.
12.78	12.78	E(γ): from level energy difference.
73.3	60.5	M(γ): anomalous E1 transition (1984Ma41); α(exp)=0.45 from ε decay.
231.2	218.8	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
273.5	204.4	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
273.5	261.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From DCO in ¹⁵⁹Tb(²⁹Si,5nγ), assigning Δπ=(no) for intraband transitions.
296.8	284.4	M(γ): anomalous M1 or M1⁺E0+E2 from α(K)exp in ε decay; level scheme.
296.8	296.7	M(γ): anomalous M1 or M1⁺E0+E2 from α(K)exp in ε decay; level scheme.
565.3	334.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
599.6	326.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
599.6	368.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
701.8	428.3	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
701.8	470.2	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
865.4	163.6	E(γ): from (³⁵Cl,4nγ). Other: 164.9 from (²⁹Si,5nγ). I(γ): unweighted average of 56 4 from (²⁹Si,5nγ) and 69 6 from (³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
	265.8	E(γ): from (³⁵Cl,4nγ). Other: 266.5 from (²⁹Si,5nγ). I(γ): from (²⁹Si,5nγ). Other Iγ: 100 10 from (³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
	300.0	E(γ): from (³⁵Cl,4nγ). I(γ): from (²⁹Si,5nγ). Other Iγ: 23 6 from (³⁵Cl,4nγ).
989.1	423.9	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
1022.8	423.2	E(γ): from (³⁵Cl,4nγ). I(γ): from (²⁹Si,5nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
1022.8	457.4	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
1054.5	455.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
1148.5	283.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): from ¹⁵⁹Tb(²⁹Si,5nγ).
1487.5	433.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
	464.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
	498.5	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
1492.0	502.8	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): from (²⁹Si,5nγ).
E(level)	E(gamma)	Comments
1527.7	379.2	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
1544.5	522.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
1544.5	555.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
1736.9	588.4	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). M(γ): from ¹⁵⁹Tb(²⁹Si,5nγ).
1981.1	453.4	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
1986.4	441.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
	494.2	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
	498.9	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): from ¹⁵⁹Tb(²⁹Si,5nγ).
2063.5	571.5	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): from (²⁹Si,5nγ).
2117.9	573.4	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).. Placement adopted from (²⁹Si,5nγ) where it is firmly established from coin spectra double-gated on transitions lower in the same band. I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
2175.7	438.8	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
2175.7	648.0	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). M(γ): from ¹⁵⁹Tb(²⁹Si,5nγ).
2490.9	509.8	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
2541.5	555.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
2681.6	505.4	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).. An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au.
2681.6	700.5	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
2691.1	627.6	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
2742.4	624.5	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).. Placement adopted from (²⁹Si,5nγ) where it is firmly established from coin spectra double-gated on transitions lower in the same band. I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
3048.7	557.8	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): from ¹⁵⁹Tb(²⁹Si,5nγ).
3149.4	607.9	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
3240.4	557.9	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).. An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au.
3240.4	749.5	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
3360.0	668.9	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
3388.8	646.4	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).. Placement adopted from (²⁹Si,5nγ) where it is firmly established from coin spectra double-gated on transitions lower in the same band. I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
3656.7	608.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
E(level)	E(gamma)	Comments
3798.9	649.5	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
3838.7	597.0	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).. An almost degenerate pair of levels with Jπ=11/2- and 13/2- is adopted (analogous to the 220 keV doublet in ¹⁸⁵Au) to accommodate both the M1 Eγ=218.2 5 transition in ε decay and the Q Eγ=218.8 2 transition from (³⁵Cl,4nγ). Level energy systematics for odd-A Au isotopes support the existence of such a doublet in ¹⁸³Au.
3838.7	790.0	E(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ). I(γ): From ¹⁵⁹Tb(²⁹Si,5nγ). Uncertainty in Eγ unstated by authors but, typically, Eγ from this source ranges from 2.2 keV higher to 4.7 keV lower than the data from (³⁵Cl,4nγ).
4053.1	693.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
4309.6	652.9	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
4461.1	662.2	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
4765.6	712.5	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
4989.2	679.6	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
5129.1	668.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
5500.6	735.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
5681.3	692.1	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ). M(γ): From ¹⁵²Sm(³⁵Cl,4nγ), assigning Δπ=(no) for intraband transitions.
6276.6	776.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
6381.5	700.2	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
7110.5	729.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).
7879.5	769.0	E(γ): From ¹⁵²Sm(³⁵Cl,4nγ). I(γ): From ¹⁵²Sm(³⁵Cl,4nγ).