List of levels for 136PM

ADOPTED LEVELS, GAMMAS for ¹³⁶Pm

Author: E.A. Mccutchan | Citation: Nucl. Data Sheets 152, 331 (2018) | Cutoff date: 1-Apr-2018

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-4.36×10³ keV 7	S(n)= 9.19×10³ keV 10	S(p)= 2.25×10³ keV 7	Q(α)= 1.63×10³ keV 7
Reference: 2017WA10

References:
A	¹³⁶Sm ε decay	B	(HI,xnγ)
C	(HI,xnγ):highly deformed

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
X	A	(2)	300 s 50 % ε = 100
Y	B	(5-)	107 s 6 % ε = 100
27.3+Y 2	B	(7-)
70.0+Y 6	B	(8+)	1.5 µs 1	42.7 2	100	(E1)	27.3+Y	(7-)
114.42+X 13	A	1+		114.4 2	100		X	(2)
123.35+X 19	A			123.4 3	100		X	(2)
169.2+Y 5	B	(9+)		99.2 2	100	(M1)	70.0+Y	(8+)
199.11+Y 20	B	(6-)		199.1 2	100		Y	(5-)
221.1+X 4	A			221.2 5	100		X	(2)
286.90+X 15	A	(1+)		163.3 4 172.4 3 286.8 2	12.5 25 19 5 100 25		123.35+X 114.42+X X	1+ (2)
299.30+X 21	A			185.0 3 299.3 4	32 8 100 17		114.42+X X	1+ (2)
306.51+X 20	A			183.2 3 192.0 4 306.6 4	100 24 86 19 76 15		123.35+X 114.42+X X	1+ (2)
315.3+X 3	A			192.0 4 200.7 5	100 22 78 11		123.35+X 114.42+X	1+
337.0+Y 5	B	(10+)		167.8 2 267	100	(M1)	169.2+Y 70.0+Y	(9+) (8+)
422.45+X 19	A			116.1 4 299.3 4 422.6 3	46 21 ≈83 100 13		306.51+X 123.35+X X	(2)
427.95+X 18	A			128.8 5 140.6 3 206.9 5 313.6 2	4.6 16 ≈8 12 4 100 23		299.30+X 286.90+X 221.1+X 114.42+X	(1+) 1+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
445.8+Y 4	B	(7-)		247 1 446 1			199.11+Y Y	(6-) (5-)
485.30+X 16	A			170.0 5 186.1 4 371.0 5 485.3 2	4.3 8 4.3 8 13 4 100 22		315.3+X 299.30+X 114.42+X X	1+ (2)
563.23+X 22	A			134.9 4 141.4 4 276.3 5 448.7 3	52 8 44 19 30 8 100 12		427.95+X 422.45+X 286.90+X 114.42+X	(1+) 1+
622.4+Y 5	B	(11+)		285.4 2 452.9 7	100 8 6.5 19	(M1)	337.0+Y 169.2+Y	(10+) (9+)
732.1+Y 3	B	(8-)		286.3 2 533.0 2			445.8+Y 199.11+Y	(7-) (6-)
802.45+X 24	A			380.0 3 515.6 5 802.4 4	29 5 5.7 15 1.0E2 3		422.45+X 286.90+X X	(1+) (2)
862.13+X 20	A			377.0 4 555.5 4 747.7 2	17 4 12 3 100 14		485.30+X 306.51+X 114.42+X	1+
914.2+Y 5	B	(12+)		291.8 2 577.2 3	100 6 41 3	(M1)	622.4+Y 337.0+Y	(11+) (10+)
927.7+Y 8	B	(11+)		591 759			337.0+Y 169.2+Y	(10+) (9+)
1057.5+Y 5	B	(9-)		325? 611.7 3	100		732.1+Y 445.8+Y	(8-) (7-)
1215.7+Y 8	B	(12+)		288 593 878		M1 (E2)	927.7+Y 622.4+Y 337.0+Y	(11+) (11+) (10+)
1322.7+Y 5	B	(13+)		408.5 2 700.3 2	100 10 40 5	(E2)	914.2+Y 622.4+Y	(12+) (11+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1352.6+Y 4	B	(10-)		295 1 ? 620.5 2	100		1057.5+Y 732.1+Y	(9-) (8-)
1579.9+Y 7	B	(13+)		364 653 665		M1	1215.7+Y 927.7+Y 914.2+Y	(12+) (11+) (12+)
1679.1+Y 5	B	(14+)		356.4 2 764.9 2	96 8 100 12	(M1)	1322.7+Y 914.2+Y	(13+) (12+)
1783.3+Y 11 ?	B	(11-)		430 1 ? 725 1 ?			1352.6+Y 1057.5+Y	(10-) (9-)
2006.0+Y 8	B	(14+)		426 683 790 1092?		M1	1579.9+Y 1322.7+Y 1215.7+Y 914.2+Y	(13+) (13+) (12+) (12+)
2049.9+Y 4	B	(12-)		268 1 ? 697.3 2 1135.7 2	89 12 100 23	(E2) (E1)	1783.3+Y 1352.6+Y 914.2+Y	(11-) (10-) (12+)
2157.5+Y 5	B	(15+)		478.2 3 834.8 3	63 13 100 19		1679.1+Y 1322.7+Y	(14+) (13+)
2239.3+Y 5	B	(13-)		189.3 2 456 1 916.6 2	100 12 53 12	(E1)	2049.9+Y 1783.3+Y 1322.7+Y	(12-) (11-) (13+)
2430.1+Y 7	B	(15+)		424 751 850 1108			2006.0+Y 1679.1+Y 1579.9+Y 1322.7+Y	(14+) (14+) (13+) (13+)
2450.5+Y 5	B	(14-)		211.3 2	100	(M1)	2239.3+Y	(13-)
2575.4+Y 5	B	(16+)		417.7 4 896.5 3	100		2157.5+Y 1679.1+Y	(15+) (14+)
2696.2+Y 6	B	(15-)		245.6 2	100		2450.5+Y	(14-)
2889.1+Y 9	B	(16+)		459 883			2430.1+Y 2006.0+Y	(15+) (14+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2997.0+Y 6	B	(16-)		300.8 2	100		2696.2+Y	(15-)
3081.4+Y 8	B	(17+)		506 924			2575.4+Y 2157.5+Y	(16+) (15+)
3324.0+Y 10	B	(17+)		435 894			2889.1+Y 2430.1+Y	(16+) (15+)
3350.4+Y 6	B	(17-)		353.4 2	100		2997.0+Y	(16-)
3550.5+Y 9	B	(18+)		469 975			3081.4+Y 2575.4+Y	(17+) (16+)
3724.3+Y 11	B	(18+)		400 835			3324.0+Y 2889.1+Y	(17+) (16+)
3748.8+Y 7	B	(18-)		398.4 2	100		3350.4+Y	(17-)
4006.2+Y 10	B	(19+)		456 925			3550.5+Y 3081.4+Y	(18+) (17+)
4158.6+Y 12	B	(19+)		434 835			3724.3+Y 3324.0+Y	(18+) (17+)
4215+Y?	B	(19-)		468 1 ?			3748.8+Y	(18-)
4448.1+Y 11	B	(20+)		442 897			4006.2+Y 3550.5+Y	(19+) (18+)
4539.5+Y 13	B	(20+)		381 815			4158.6+Y 3724.3+Y	(19+) (18+)
4885.7+Y 13	B	(21+)		437 880			4448.1+Y 4006.2+Y	(20+) (19+)
4942.5+Y 14	B	(21+)		403 784			4539.5+Y 4158.6+Y	(20+) (19+)
V	C	J
533.0+V 10	C	J+2		533	100		V	J
1136.0+V 15	C	J+4		603	100		533.0+V	J+2
1799.0+V 18	C	J+6		663	100		1136.0+V	J+4
2541.0+V 20	C	J+8		742	100		1799.0+V	J+6
3368.0+V 23	C	J+10		827	100		2541.0+V	J+8
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4282.0+V 25	C	J+12		914	100		3368.0+V	J+10
5282+V 3	C	J+14		1000	100		4282.0+V	J+12
6367+V 3	C	J+16		1085	100		5282+V	J+14
7535+V 3	C	J+18		1168	100		6367+V	J+16
8786+V 4	C	J+20		1251	100		7535+V	J+18
10116+V 4	C	J+22		1330	100		8786+V	J+20
11513+V 4	C	J+24		1397	100		10116+V	J+22
12955+V 4	C	J+26		1442	100		11513+V	J+24
W	C	J1
675.0+W 10	C	J1+2		675	100		W	J1
1386.0+W 15	C	J1+4		711	100		675.0+W	J1+2
2161.0+W 18	C	J1+6		775	100		1386.0+W	J1+4
3019.0+W 20	C	J1+8		858	100		2161.0+W	J1+6
3957.0+W 23	C	J1+10		938	100		3019.0+W	J1+8
4974.0+W 25	C	J1+12		1017	100		3957.0+W	J1+10
6066+W 3	C	J1+14		1092	100		4974.0+W	J1+12
7232+W 3	C	J1+16		1166	100		6066+W	J1+14
8469+W 3	C	J1+18		1237	100		7232+W	J1+16
9779+W 4	C	J1+20		1310	100		8469+W	J1+18
Z	C	J2
679.0+Z 10	C	J2+2		679	100		Z	J2
1436.0+Z 15	C	J2+4		757	100		679.0+Z	J2+2
2263.0+Z 18	C	J2+6		827	100		1436.0+Z	J2+4
3155.0+Z 20	C	J2+8		892	100		2263.0+Z	J2+6
4112.0+Z 23	C	J2+10		957	100		3155.0+Z	J2+8
5138.0+Z 25	C	J2+12		1026	100		4112.0+Z	J2+10
6231+Z 3	C	J2+14		1093	100		5138.0+Z	J2+12
7391+Z 3	C	J2+16		1160	100		6231+Z	J2+14
8617+Z 3	C	J2+18		1226	100		7391+Z	J2+16
9909+Z 4	C	J2+20		1292	100		8617+Z	J2+18
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11274+Z 4	C	J2+22		1365	100		9909+Z	J2+20
12720+Z 4	C	J2+24		1446	100		11274+Z	J2+22
U	C	J3
41.0+U 15	C	J3
753.0+U 10	C	J3+2		712 753			41.0+U U	J3 J3
1551.0+U 15	C	J3+4		798	100		753.0+U	J3+2
2418.0+U 18	C	J3+6		867	100		1551.0+U	J3+4
3353.0+U 20	C	J3+8		935	100		2418.0+U	J3+6
4352.0+U 23	C	J3+10		999	100		3353.0+U	J3+8
5421.0+U 25	C	J3+12		1069	100		4352.0+U	J3+10
6557+U 3	C	J3+14		1136	100		5421.0+U	J3+12
7759+U 3	C	J3+16		1202	100		6557+U	J3+14
9027+U 3	C	J3+18		1268	100		7759+U	J3+16
10368+U 4	C	J3+20		1341	100		9027+U	J3+18
11787+U 4	C	J3+22		1419	100		10368+U	J3+20

E(level): From least-squares fit to Eγ, by evaluator, assuming Δ(Eγ)=1 keV when no uncertainty available.

M(γ): From γ(θ) and R(DCO) in (HI,xnγ), except where noted. Stretched Q transitions assigned to rotational bands are assumed E2 in character.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - πh_11/2νh_11/2, α=0
70.0+Y 6	(8+)	1.5 µs 1
337.0+Y 5	(10+)
914.2+Y 5	(12+)
1679.1+Y 5	(14+)		356.4 2 764.9 2	96 8 100 12	(M1)	1322.7+Y 914.2+Y	(13+) (12+)
2575.4+Y 5	(16+)		417.7 4 896.5 3	100		2157.5+Y 1679.1+Y	(15+) (14+)
3550.5+Y 9	(18+)		469 975			3081.4+Y 2575.4+Y	(17+) (16+)
4448.1+Y 11	(20+)		442 897			4006.2+Y 3550.5+Y	(19+) (18+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - πh_11/2νh_11/2, α=1
169.2+Y 5	(9+)
622.4+Y 5	(11+)
1322.7+Y 5	(13+)
2157.5+Y 5	(15+)		478.2 3 834.8 3	63 13 100 19		1679.1+Y 1322.7+Y	(14+) (13+)
3081.4+Y 8	(17+)		506 924			2575.4+Y 2157.5+Y	(16+) (15+)
4006.2+Y 10	(19+)		456 925			3550.5+Y 3081.4+Y	(18+) (17+)
4885.7+Y 13	(21+)		437 880			4448.1+Y 4006.2+Y	(20+) (19+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Chiral doublet structure of πh_11/2νh_11/2, α=0
1215.7+Y 8	(12+)
2006.0+Y 8	(14+)
2889.1+Y 9	(16+)
3724.3+Y 11	(18+)		400 835			3324.0+Y 2889.1+Y	(17+) (16+)
4539.5+Y 13	(20+)		381 815			4158.6+Y 3724.3+Y	(19+) (18+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Chiral doublet structure of πh_11/2νh_11/2, α=1
927.7+Y 8	(11+)
1579.9+Y 7	(13+)
2430.1+Y 7	(15+)
3324.0+Y 10	(17+)		435 894			2889.1+Y 2430.1+Y	(16+) (15+)
4158.6+Y 12	(19+)		434 835			3724.3+Y 3324.0+Y	(18+) (17+)
4942.5+Y 14	(21+)		403 784			4539.5+Y 4158.6+Y	(20+) (19+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
Y	(5-)	107 s 6 % ε = 100
199.11+Y 20	(6-)
445.8+Y 4	(7-)
732.1+Y 3	(8-)		286.3 2 533.0 2			445.8+Y 199.11+Y	(7-) (6-)
1057.5+Y 5	(9-)		325? 611.7 3	100		732.1+Y 445.8+Y	(8-) (7-)
1352.6+Y 4	(10-)		295 1 ? 620.5 2	100		1057.5+Y 732.1+Y	(9-) (8-)
1783.3+Y 11	(11-)		430 1 ? 725 1 ?			1352.6+Y 1057.5+Y	(10-) (9-)
2049.9+Y 4	(12-)		268 1 ? 697.3 2 1135.7 2	89 12 100 23	(E2) (E1)	1783.3+Y 1352.6+Y 914.2+Y	(11-) (10-) (12+)
2239.3+Y 5	(13-)		189.3 2 456 1 916.6 2	100 12 53 12	(E1)	2049.9+Y 1783.3+Y 1322.7+Y	(12-) (11-) (13+)
2450.5+Y 5	(14-)		211.3 2	100	(M1)	2239.3+Y	(13-)
2696.2+Y 6	(15-)		245.6 2	100		2450.5+Y	(14-)
2997.0+Y 6	(16-)		300.8 2	100		2696.2+Y	(15-)
3350.4+Y 6	(17-)		353.4 2	100		2997.0+Y	(16-)
3748.8+Y 7	(18-)		398.4 2	100		3350.4+Y	(17-)
4215+Y	(19-)		468 1 ?			3748.8+Y	(18-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
V	J
533.0+V 10	J+2
1136.0+V 15	J+4
1799.0+V 18	J+6		663	100		1136.0+V	J+4
2541.0+V 20	J+8		742	100		1799.0+V	J+6
3368.0+V 23	J+10		827	100		2541.0+V	J+8
4282.0+V 25	J+12		914	100		3368.0+V	J+10
5282+V 3	J+14		1000	100		4282.0+V	J+12
6367+V 3	J+16		1085	100		5282+V	J+14
7535+V 3	J+18		1168	100		6367+V	J+16
8786+V 4	J+20		1251	100		7535+V	J+18
10116+V 4	J+22		1330	100		8786+V	J+20
11513+V 4	J+24		1397	100		10116+V	J+22
12955+V 4	J+26		1442	100		11513+V	J+24
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
W	J1
675.0+W 10	J1+2
1386.0+W 15	J1+4
2161.0+W 18	J1+6		775	100		1386.0+W	J1+4
3019.0+W 20	J1+8		858	100		2161.0+W	J1+6
3957.0+W 23	J1+10		938	100		3019.0+W	J1+8
4974.0+W 25	J1+12		1017	100		3957.0+W	J1+10
6066+W 3	J1+14		1092	100		4974.0+W	J1+12
7232+W 3	J1+16		1166	100		6066+W	J1+14
8469+W 3	J1+18		1237	100		7232+W	J1+16
9779+W 4	J1+20		1310	100		8469+W	J1+18
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 8 - HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
Z	J2
679.0+Z 10	J2+2
1436.0+Z 15	J2+4
2263.0+Z 18	J2+6		827	100		1436.0+Z	J2+4
3155.0+Z 20	J2+8		892	100		2263.0+Z	J2+6
4112.0+Z 23	J2+10		957	100		3155.0+Z	J2+8
5138.0+Z 25	J2+12		1026	100		4112.0+Z	J2+10
6231+Z 3	J2+14		1093	100		5138.0+Z	J2+12
7391+Z 3	J2+16		1160	100		6231+Z	J2+14
8617+Z 3	J2+18		1226	100		7391+Z	J2+16
9909+Z 4	J2+20		1292	100		8617+Z	J2+18
11274+Z 4	J2+22		1365	100		9909+Z	J2+20
12720+Z 4	J2+24		1446	100		11274+Z	J2+22
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 9 - HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
U	J3
41.0+U 15	J3
753.0+U 10	J3+2
1551.0+U 15	J3+4		798	100		753.0+U	J3+2
2418.0+U 18	J3+6		867	100		1551.0+U	J3+4
3353.0+U 20	J3+8		935	100		2418.0+U	J3+6
4352.0+U 23	J3+10		999	100		3353.0+U	J3+8
5421.0+U 25	J3+12		1069	100		4352.0+U	J3+10
6557+U 3	J3+14		1136	100		5421.0+U	J3+12
7759+U 3	J3+16		1202	100		6557+U	J3+14
9027+U 3	J3+18		1268	100		7759+U	J3+16
10368+U 4	J3+20		1341	100		9027+U	J3+18
11787+U 4	J3+22		1419	100		10368+U	J3+20

E(level)	J^π(level)	T_1/2(level)	Comments
X	(2)	300 s 50 % ε = 100	E(level): In a recent Penning-Trap experiment (2000Be42) the isomers could not be resolved and their energy difference is still unknown.
Y	(5-)	107 s 6 % ε = 100	E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50. In a recent Penning-Trap experiment (2000Be42) the isomers could not be resolved and their energy difference is still unknown.
70.0+Y	(8+)	1.5 µs 1	E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
169.2+Y	(9+)		E(level): πh_11/2νh_11/2, α=1.
199.11+Y	(6-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
337.0+Y	(10+)		E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
445.8+Y	(7-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
622.4+Y	(11+)		E(level): πh_11/2νh_11/2, α=1.
732.1+Y	(8-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
914.2+Y	(12+)		E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
927.7+Y	(11+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=1.
1057.5+Y	(9-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
1215.7+Y	(12+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=0.
1322.7+Y	(13+)		E(level): πh_11/2νh_11/2, α=1.
1352.6+Y	(10-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
1579.9+Y	(13+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=1.
1679.1+Y	(14+)		E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
1783.3+Y	(11-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
2006.0+Y	(14+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=0.
2049.9+Y	(12-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
2157.5+Y	(15+)		E(level): πh_11/2νh_11/2, α=1.
2239.3+Y	(13-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
2430.1+Y	(15+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=1.
2450.5+Y	(14-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
2575.4+Y	(16+)		E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
E(level)	J^π(level)	T_1/2(level)	Comments
2696.2+Y	(15-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
2889.1+Y	(16+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=0.
2997.0+Y	(16-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
3081.4+Y	(17+)		E(level): πh_11/2νh_11/2, α=1.
3324.0+Y	(17+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=1.
3350.4+Y	(17-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
3550.5+Y	(18+)		E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
3724.3+Y	(18+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=0.
3748.8+Y	(18-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
4006.2+Y	(19+)		E(level): πh_11/2νh_11/2, α=1.
4158.6+Y	(19+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=1.
4215+Y	(19-)		E(level): νh11/2~#π5/2[413] configuration. Assignment by 1987Be50.
4448.1+Y	(20+)		E(level): πh_11/2νh_11/2, α=0. From ¹³⁶Sm ε decay.
4539.5+Y	(20+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=0.
4885.7+Y	(21+)		E(level): πh_11/2νh_11/2, α=1.
4942.5+Y	(21+)		E(level): Chiral doublet structure of πh_11/2νh_11/2, α=1.
V	J		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
533.0+V	J+2		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
1136.0+V	J+4		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
1799.0+V	J+6		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
2541.0+V	J+8		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
3368.0+V	J+10		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
4282.0+V	J+12		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
5282+V	J+14		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
6367+V	J+16		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
E(level)	J^π(level)	T_1/2(level)	Comments
7535+V	J+18		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
8786+V	J+20		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
10116+V	J+22		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
11513+V	J+24		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
12955+V	J+26		E(level): HIGHLY-DEFORMED band #1. Q(intrinsic)=5.2 3.
W	J1		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
675.0+W	J1+2		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
1386.0+W	J1+4		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
2161.0+W	J1+6		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
3019.0+W	J1+8		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
3957.0+W	J1+10		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
4974.0+W	J1+12		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
6066+W	J1+14		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
7232+W	J1+16		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
8469+W	J1+18		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
9779+W	J1+20		E(level): HIGHLY-DEFORMED band #2. Q(intrinsic)=5.2 4.
Z	J2		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
679.0+Z	J2+2		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
1436.0+Z	J2+4		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
2263.0+Z	J2+6		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
3155.0+Z	J2+8		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
4112.0+Z	J2+10		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
5138.0+Z	J2+12		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
6231+Z	J2+14		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
7391+Z	J2+16		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
E(level)	J^π(level)	T_1/2(level)	Comments
8617+Z	J2+18		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
9909+Z	J2+20		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
11274+Z	J2+22		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
12720+Z	J2+24		E(level): HIGHLY-DEFORMED band #3. Q(intrinsic)=5.7 6.
U	J3		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
41.0+U	J3		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
753.0+U	J3+2		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
1551.0+U	J3+4		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
2418.0+U	J3+6		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
3353.0+U	J3+8		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
4352.0+U	J3+10		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
5421.0+U	J3+12		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
6557+U	J3+14		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
7759+U	J3+16		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
9027+U	J3+18		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
10368+U	J3+20		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.
11787+U	J3+22		E(level): HIGHLY-DEFORMED band #4. Q(intrinsic)=5.7 6.

E(level)	E(gamma)	Comments
70.0+Y	42.7	M(γ): M2, and higher multipolarities are excluded based on comparison to RUL. Systematics of odd-odd n=77 nuclei exhibit Jπ=8⁺ isomers decaying by E1 transitions. Similarly in the n=73 odd-odd nucleus ¹³⁴Pm, the long-lived μs isomer decays by an E1 transition (2008Ri05).
114.42+X	114.4	E(γ): From ¹³⁶Sm ε decay
123.35+X	123.4	E(γ): From ¹³⁶Sm ε decay
169.2+Y	99.2	M(γ): d from γ(θ) and R(DCO) in (HI,xnγ), M1 from assignment to rotational band
221.1+X	221.2	E(γ): From ¹³⁶Sm ε decay
286.90+X	163.3	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	172.4	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	286.8	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
299.30+X	185.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
299.30+X	299.3	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
306.51+X	183.2	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	192.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	306.6	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
315.3+X	192.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
315.3+X	200.7	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
337.0+Y	167.8	M(γ): d from γ(θ) and R(DCO) in (HI,xnγ), M1 from assignment to rotational band
422.45+X	116.1	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	299.3	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	422.6	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
427.95+X	128.8	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	140.6	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	206.9	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	313.6	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
485.30+X	170.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	186.1	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	371.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	485.3	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
E(level)	E(gamma)	Comments
563.23+X	134.9	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	141.4	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	276.3	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	448.7	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
802.45+X	380.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	515.6	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	802.4	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
862.13+X	377.0	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	555.5	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
	747.7	E(γ): From ¹³⁶Sm ε decay I(γ): From ¹³⁶Sm ε decay
1215.7+Y	593	M(γ): from R(DCO) and γ(lin pol) in (HI,xnγ)
1215.7+Y	878	M(γ): Q from R(DCO) in (HI,xnγ), E2 from Δπ=no from level scheme
1322.7+Y	700.3	M(γ): Q from R(DCO) in (HI,xnγ), E2 from assumed band structure
1579.9+Y	364	M(γ): from R(DCO) and γ(lin pol) in (HI,xnγ)
1679.1+Y	356.4	M(γ): d from γ(θ) and R(DCO) in (HI,xnγ), M1 from assignment to rotational band
2006.0+Y	683	M(γ): from R(DCO) and γ(lin pol) in (HI,xnγ)
2049.9+Y	697.3	M(γ): Q from R(DCO) in (HI,xnγ), E2 from assumed band structure
2049.9+Y	1135.7	M(γ): d from γ(θ) in (HI,xnγ), Δπ=yes from level scheme. d from γ(θ) and R(DCO) in (HI,xnγ), M1 from assignment to rotational band
2239.3+Y	916.6	M(γ): d from γ(θ) in (HI,xnγ), Δπ=yes from level scheme
2450.5+Y	211.3	M(γ): d from γ(θ) and R(DCO) in (HI,xnγ), M1 from assignment to rotational band