List of levels for 100PD

Authors: Balraj Singh and Jun Chen | Citation: Nucl. Data Sheets 172, 1 (2021) | Cutoff date: 31-Jan-2021

Other reactions:

¹⁰²Pd(p,t): 1974De31, 1977BrYJ, 1982NaZT; mainly Q value measurements

⁹⁶Ru(¹⁶O,¹²C): 1982Th01; Q value measurement

Multi-nucleon transfer in heavy-ion reactions: 1976Mi13

1998Be11: Hyperfine fields in Ni and Pd from γγ(θ,H,t) in ¹⁰⁰Pd ε decay

Theory references: consult the NSR database (www.nndc.bnl.gov/nsr/) for 49 primary references, 48 dealing with nuclear structure calculations and one with decay modes and half-lives.

The high-spin (J>8) data are available from several different reactions (2001Pe05, 2001Zh26, 2000ApZY, 1997Ta02, 1981Pi02). There is general agreement between the results of the three most recent and detailed studies using large γ-ray detector arrays. However, above 9 MeV excitation energy, there are differences in the ordering of the cascades and inventory of γ rays. The evaluators have adopted results from 2001Pe05 since the data from this study are presented in a most detailed and comprehensive manner. The differences between various studies are noted here as well as in the individual datasets. The band structures are mostly common between different studies but are primarily adopted from 2001Pe05 and 2001Zh26.

The following γγ cascades given in 2001Zh26, 2000ApZY, 1997Ta02 and 1981Pi02 with different orderings are reordered based on the adopted ordering taken from 2001Pe05:

876-1071-1035-940-809-805 in 1981Pi02 is reordered as 1071-940-1035-806-809-876 in 2001Pe05 and others; 1036-940 in 1981Pi02 is reordered as 940-1036 in 2001Pe05; 1736-1510-1200 (1997Ta02), 1850-1737-1201-1510 (2000ApZY), 1852-1510- 1200-1736 (2001Zh26) is reordered as 1510-1852-1200-1736 in 2001Pe05; 1106-609 in 2001Zh26 is reordered as 609-1106 in 2001Pe05; 609-1383-1107-1388 in 1997Ta02 is reordered as 1383-609-1107-1388 in 2001Pe05 and others; 626-1118 in 2000ApZY is reordered as 1116-626 in 2001Pe05; 558-1293 cascade in 2000ApZY from 15015 level in 2000ApZY is from 13502 level in 2001Pe05.

Q-value: S(2n)=20034 18, S(2p)=11566 19 (2017Wa10)

E(level): From least-squares fit to Eγ data. Many additional levels in the range 3650-6750 are implied by observed β⁺,ε feedings from ¹⁰⁰Ag ε decay (2.01 min), as a result of a total γ-absorption study by 1995Ba25. See ¹⁰⁰Ag ε decay (2.01 min) for details.

J^π(level): For levels populated in high-spin reaction studies, ascending order of spins is assumed with increasing excitation energy. This is supported by the yrast population of states in these reactions and by the decay modes. In addition to the arguments listed with the levels, the assignment to a relevant band is also used

T_1/2(level): For excited states, values are from recoil-distance Doppler shift (RDDS) in ⁹²Mo(¹¹B,p2nγ) using Cologne Plunger (2009Ra28) with uncertainty including statistical and 2% systematic, unless otherwise noted. Corresponding values from RDDS in ²⁴Mg(⁸⁰Se,4nγ) in inverse kinematics (2011AnZZ) are in sharp disagreement, and are given in comments. Evaluators prefer to adopt values from 2009Ra28 primary publication, due to possible analysis issues in inverse kinematics reactions in 2011AnZZ.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
665.49	2+	6.24 ps 28	665.48 10	E2		0.00271	B(E2)(W.u.)=25.1 11, α=0.00271
1416.09	4+	2.50 ps 21	750.61 10	E2		0.00199	B(E2)(W.u.)=34 3, α=0.00199
1587.60	2(+)		922.00 17	(E2+M1)	-1.77 +32-43	1.25×10^-3	α=1.25×10^-3 2
1925.86	3(+)		337.9 3	(M1+E2)	-0.59 +31-42	0.0160	α=0.0160 14, α(K)=0.0139 11, α(L)=0.00173 21, α(M)=0.00033 4, α(N)=5.4×10^-5 6
1925.86	3(+)		1260.4 2	(E2+M1)	-2.36 30
2189.31	6+	2.56 ps 35	773.19 10	E2		0.00185	B(E2)(W.u.)=29 4, α=0.00185
2278.14	5(+)		862.4 2	(M1+E2)	-0.14 5	1.57×10^-3	α=1.57×10^-3, α(K)=0.001371 20, α(L)=0.0001588 23, α(M)=2.98E-5 5, α(N)=5.02E-6 7
2359.3	(2+)		1693.8 3	(M1(+E2))	-0.08 20
2431.11	4		505.25 15	D+Q	-0.08 5
2469.90	6(+)		191.3 8	[M1]		0.0640	α=0.0640 12, α(K)=0.0558 10, α(L)=0.00675 13, α(M)=0.001271 23, α(N)=0.000214 4
2505.46	5-	13.97 ps 35	450.5 3	(M1)		0.00718	B(M1)(W.u.)=0.0016 3, α=0.00718
2505.46	5-	13.97 ps 35	1089.32 10	E1			B(E1)(W.u.)=1.58E-5 7
2694.00	(4)		1277.9 2	D(+Q)	-0.37 +45-63
2821.40	(4)		1405.3 2	D+Q	-0.66 +51-97
2920.11	(4)+		1503.7 2	(M1+E2)	-0.7 +5-11
2987.97	8+	3.47 ps 28	798.57 10	E2		1.71×10^-3	B(E2)(W.u.)=18.2 15, α=1.71E-3
3178.21	8+	0.9 ns 2	190.3 1	M1		0.0649	B(M1)(W.u.)=0.0018 +7-4, α=0.0649, α(K)=0.0565 8, α(L)=0.00685 10, α(M)=0.001289 19, α(N)=0.000217 3
	8+	0.9 ns 2	708.1 5	[E2]		0.00231	B(E2)(W.u.)=0.0039 +25-15, α=0.00231
	8+	0.9 ns 2	988.9 1	E2		1.03×10^-3	B(E2)(W.u.)=0.0100 +37-24, α=1.03E-3
3231.36	7-		209.3 2	(M1)		0.0504	α=0.0504, α(K)=0.0439 7, α(L)=0.00531 8, α(M)=0.000998 15, α(N)=0.0001681 24
3231.36	7-		726.0 1	E2		0.00216	α=0.00216
3869.17	10+	1.94 ps 42	881.14 10	E2		1.35×10^-3	B(E2)(W.u.)=20 +6-4, α=1.35E-3
4761.62	12+	3.60 ps 28	616.3 2	[E2]		0.00332	B(E2)(W.u.)=1.19 +28-23, α=0.00332
4761.62	12+	3.60 ps 28	892.28 16	E2		1.31×10^-3	B(E2)(W.u.)=9.9 8, α=1.31E-3
4863.52	11-		809.40 10	E2		1.65×10^-3	α=1.65×10^-3
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
5452.70	13+		691.2 2	M1		0.00260	α=0.00260
5669.22	13-		805.69 11	E2		1.67×10^-3	α=1.67×10^-3
5706.73	14+		945.0 2	E2		1.14×10^-3	α=1.14×10^-3
5918.72	14+		466.1 2	M1		0.00661	α=0.00661
6704.63	15-	0.90 ps 10	570.0 5	[E1]			B(E1)(W.u.)=7E-6 +10-7
	15-	0.90 ps 10	786.0 2	[E1]			B(E1)(W.u.)=2.8E-5 +7-6
	15-	0.90 ps 10	997.9 1	[E1]			B(E1)(W.u.)=5.6E-6 +13-11
	15-	0.90 ps 10	1035.43 16	E2			B(E2)(W.u.)=18.0 +22-18
6938.48	(16)+		479.4 1	M1		0.00617	α=0.00617
7644.82	(17)-	0.55 ps 7	706.4 2	[E1]			B(E1)(W.u.)=9.2E-5 +25-23
7644.82	(17)-	0.55 ps 7	940.2 1	E2		1.16×10^-3	B(E2)(W.u.)=48 +7-6, α=1.16E-3
8716.01	(19)-	0.42 ps 5	1071.2 1	E2			B(E2)(W.u.)=34.6 +47-37
10104.0	(21)-	< 0.15 ps	1388.0 1	E2			B(E2)(W.u.)>27

Q(β-)=-7075 keV 18	S(n)= 11101 keV 18	S(p)= 6920 keV 19	Q(α)= -1557 keV 18
Reference: 2017WA10

References:
A	¹⁰⁰Ag ε decay (2.01 M)	B	¹⁰⁰Ag ε decay (2.24 M)
C	¹²C(⁹⁶Ru,2αγ)	D	²⁴Mg(⁸⁰Se,4nγ)
E	⁴⁶Ti(⁵⁸Ni,4PG)	F	⁵⁰Cr(⁵⁸Ni,4PAG),⁷⁰Zn(³⁶S,6nγ)
G	⁶⁶Zn(³⁷Cl,p2nγ)	H	⁷²Ge(³⁵Cl,AP2NG)
I	⁹¹Zr(¹²C,3nγ)	J	⁹²Mo(¹¹B,p2nγ)
K	⁹⁹Ru(³He,2nγ)

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 K	0+	3.63 d 9 % ε = 100
665.49 10	A B C D E F G H I J K	2+	6.24 ps 28	665.48 10	100	E2	0.0	0+
1416.09 13	A B C D E F G H I J K	4+	2.50 ps 21	750.61 10	100	E2	665.49	2+
1523.6 3	B	(1,2+)		1523.6 3	100		0.0	0+
1587.60 14	A B C K	2(+)		922.00 17 1587.6 2	100 4 61 5	(E2+M1)	665.49 0.0	2+ 0+
1925.86 17	A C K	3(+)		337.9 3 510.9 4 1260.4 2	14 3 <68 100 3	(M1+E2) (E2+M1)	1587.60 1416.09 665.49	2(+) 4+ 2+
2055.08 17	A C F H J K	(4-)		639.3 3	100		1416.09	4+
2189.31 15	A C D E F G H I J K	6+	2.56 ps 35	773.19 10	100	E2	1416.09	4+
2278.14 18	A C K	5(+)		222.4 2 352.8 3 862.4 2	24 8 29 12 100 7	(M1+E2)	2055.08 1925.86 1416.09	(4-) 3(+) 4+
2350.98 22	A C K	(4+)		1685.7 3	100		665.49	2+
2359.3 4	B K	(2+)		1693.8 3 2359.3 8 ?	100	(M1(+E2))	665.49 0.0	2+ 0+
2431.11 23	C K	4		505.25 15	100	D+Q	1925.86	3(+)
2469.90 15	A C F H K	6(+)		191.3 8 280.6 2 1053.8 1	3.2 4 71 3 100 5	[M1] (M1)	2278.14 2189.31 1416.09	5(+) 6+ 4+
2505.46 16	C E F G H I J K	5-	13.97 ps 35	450.5 3 1089.32 10	10.0 18 100 2	(M1) E1	2055.08 1416.09	(4-) 4+
2519.1 4	K	(0+:4+)		931.6 4 1853.5 5	100 10 10 5		1587.60 665.49	2(+) 2+
2531.89 24	A B I K	(2+)		1115.8 2	100	(E2)	1416.09	4+
2616.9 4	C K	(0+:4+)		1951.4 3	100		665.49	2+
2621.5 4	A B	(1-:4+)		1956.0 4	100		665.49	2+
2679.2 10	A	(0+:4+)		2013.7 10	100		665.49	2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2694.00 24	A K	(4)		1277.9 2	100	D(+Q)	1416.09	4+
2784.0 5	B K	(1+,2+,3+)		2118.5 5	100		665.49	2+
2821.40 24	A K	(4)		1405.3 2	100	D+Q	1416.09	4+
2879.86 22	A K	(4+)		528.9 1 953.6 5 2214.3 3	44 10 5.0 14 100 20		2350.98 1925.86 665.49	(4+) 3(+) 2+
2886.6 3	K	(4+,5,6+)		416.9 4 697.4 4 1470.2 4	52 10 100 20 56 10		2469.90 2189.31 1416.09	6(+) 6+ 4+
2920.11 16	A K	(4)+		450.2 1 569.2 5 730.9 1 1503.7 2	100 6 4.1 3 42 3 72 5	(M1+E2)	2469.90 2350.98 2189.31 1416.09	6(+) (4+) 6+ 4+
2939.4 6	K	(2+:6+)		1523.3 5	100		1416.09	4+
2976.7 6	K	(0+:4+)		1389.1 5	100		1587.60	2(+)
2987.97 16	D E F G H I J K	8+	3.47 ps 28	798.57 10	100	E2	2189.31	6+
3021.90 16	F H K	(6-)		516.3 1 967.0 1	100 7 6 5	(Q)	2505.46 2055.08	5- (4-)
3079.61 21	A K	(4+,5+,6+)		609.6 2 890.4 2	100 14 81 8		2469.90 2189.31	6(+) 6+
3178.21 16	E F G H I K	8+	0.9 ns 2	190.3 1 708.1 5 988.9 1	100 4 5.8 13 80 5	M1 [E2] E2	2987.97 2469.90 2189.31	8+ 6(+) 6+
3231.36 16	E F G H I K	7-		209.3 2 726.0 1 1042.0 1	13.9 14 100 4 16.3 23	(M1) E2	3021.90 2505.46 2189.31	(6-) 5- 6+
3235.7 4	A B K	(2+,3+)		614.1 4 1819.6 5	38 18 100 20		2621.5 1416.09	(1-:4+) 4+
3296.6 4	K	(6+)		308.8 5 376.6 5 1018.1 5	45 10 100 20 12 5		2987.97 2920.11 2278.14	8+ (4)+ 5(+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3311.69 24	A K	(4,5,6)		960.7 1	100		2350.98	(4+)
3371.9 9	K	(2+:6+)		1955.8 8	100		1416.09	4+
3439.82 19	E F G H K	8(+)		261.7 2 970.0 2 1250.3 5	100 7 82 8 53 7	D Q	3178.21 2469.90 2189.31	8+ 6(+) 6+
3468.1 6	K	(2:6)		1037.0 5	100		2431.11	4
3548.4 6	K	(2:6)		1117.3 5	100		2431.11	4
3622.4 11	K	(4+:8+)		1152.5 10	100		2469.90	6(+)
3646.5 6	K	(3-:7-)		1141.0 5	100		2505.46	5-
3822.8 4	A K	(4,5,6)		1767.7 3	100		2055.08	(4-)
3869.17 18	D E F G H I J K	10+	1.94 ps 42	881.14 10	100	E2	2987.97	8+
3879.22 17	F H K	8(-)		647.8 1 857.4 1	100 13 25 13	D	3231.36 3021.90	7- (6-)
4054.09 17	E F G H I K	9-		614.4 2 822.8 2 875.9 1 1065.7 2	5.0 11 24 3 100 4 5.1 6	D Q E1 D	3439.82 3231.36 3178.21 2987.97	8(+) 7- 8+ 8+
4092.90 17	E F G H I	9(-)		213.7 1 861.7 2	8 3 100 9	Q	3879.22 3231.36	8(-) 7-
4145.68 22	E F G H I J	10(+)		276.6 2 706.2 10 ? 967.8 7	100 5 <8 44 17	D (Q)	3869.17 3439.82 3178.21	10+ 8(+) 8+
4635.11 19	E F H	(10-)		542.2 2 755.9 1	100 17 33 17	(D)	4092.90 3879.22	9(-) 8(-)
4761.62 20	D E F G H I J	12+	3.60 ps 28	616.3 2 892.28 16	1.9 2 100 3	[E2] E2	4145.68 3869.17	10(+) 10+
4779.3 3	E F H	11(+)		633.7 2 909.6 4	100 7 83 17	D	4145.68 3869.17	10(+) 10+
4863.52 17	E F G H I	11-		717.1 4 770.7 1 809.40 10 994.3 2	4.1 14 3.3 5 100 3 4.9 4	Q E2	4145.68 4092.90 4054.09 3869.17	10(+) 9(-) 9- 10+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4926.27 22	F H	12(+)		1056.9 4	100	Q	3869.17	10+
4946.76 24	E F H	(11-)		311.5 4 853.8 2	9 3 100 7	Q	4635.11 4092.90	(10-) 9(-)
5078.02 22	E F H	12(+)		298.0 5 931.8 5 1209.0 2	6.6 16 41 7 100 7	Q	4779.3 4145.68 3869.17	11(+) 10(+) 10+
5452.70 21	E F G H I	13+		374.6 3 526.5 1 674.0 10 ? 691.2 2	13.7 25 11 4 3.6 12 100 3	D M1	5078.02 4926.27 4779.3 4761.62	12(+) 12(+) 11(+) 12+
5573.5 4	E F H	(12-)		626.2 5 939.0 5	2.4 4 100 5	(Q)	4946.76 4635.11	(11-) (10-)
5669.22 19	E F G H I	13-		591.2 3 742.0 5 805.69 11 908.1 3	1.8 9 1.5 7 100 3 5.4 8	E2 D	5078.02 4926.27 4863.52 4761.62	12(+) 12(+) 11- 12+
5706.73 21	D E F G H I	14+		254.1 1 945.0 2	2.0 7 100 6	E2	5452.70 4761.62	13+ 12+
5879.9 17	E	(11,12,13+)		1100.5 16	100		4779.3	11(+)
5918.72 22	E F G H I	14+		466.1 2 842.8 13 ? 992.4 1 1156.8 3	100 4 4.9 13 46 3 14 2	M1 Q	5452.70 5078.02 4926.27 4761.62	13+ 12(+) 12(+) 12+
6068.8 6	E H	(13-)		1122.0 5	100		4946.76	(11-)
6134.11 23	E F H	(14+)		681.3 1 1208.0 5	100	D	5452.70 4926.27	13+ 12(+)
6459.12 22	E F G H	(15)+		324.0 5 540.4 2 752.4 1 1006.5 1	11.7 12 17 3 100 4 14.9 12	D	6134.11 5918.72 5706.73 5452.70	(14+) 14+ 14+ 13+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6689.5 7	E H	(14-)		1116.0 5	100		5573.5	(12-)
6704.63 21	E F G H I	15-	0.90 ps 10	570.0 5 786.0 2 997.9 1 1035.43 16	0.4 4 4.1 8 1.7 3 100 3	[E1] [E1] [E1] E2	6134.11 5918.72 5706.73 5669.22	(14+) 14+ 14+ 13-
6938.48 23	E F G H I	(16)+		479.4 1 1019.0 5 1231.8 2	100 3 8 3 71 8	M1 E2	6459.12 5918.72 5706.73	(15)+ 14+ 14+
7085.56 23	E F H	(16+)		626.4 2 1166.93 24 1378.8 1	36 11 86 10 100 11	Q	6459.12 5918.72 5706.73	(15)+ 14+ 14+
7274.9 4	E H	(16+)		816.0 5 1140.0 5 1569.0 5	100 43 57 29 57 14		6459.12 6134.11 5706.73	(15)+ (14+) 14+
7341.8 3	E F H	(16+)		256.0 5 1422.1 4 1635.0 5	63 25 100 13 50 13	Q	7085.56 5918.72 5706.73	(16+) 14+ 14+
7644.82 23	E F G H I	(17)-	0.55 ps 7	302.0 5 370.0 5 706.4 2 940.2 1	6.0 14 100 3	[E1] E2	7341.8 7274.9 6938.48 6704.63	(16+) (16+) (16)+ 15-
7835.4 4	E H	(17+)		492.7 5 1377.0 5	56 22 100 33	D	7341.8 6459.12	(16+) (15)+
7970.5 3	E F H	(18+)		1032.0 2	100	Q	6938.48	(16)+
8303.5 6	E F H	(18+)		468.0 5 1365.2 8	100	Q	7835.4 6938.48	(17+) (16)+
8565.0 5	H	(19-)		920.0 5	100	(Q)	7644.82	(17)-
8716.01 25	E F G H I	(19)-	0.42 ps 5	1071.2 1	100	E2	7644.82	(17)-
9389.5 6	H	(20+)		1419.0 5	100		7970.5	(18+)
9689.5 7	E H	(20+)		1386.0 3	100	Q	8303.5	(18+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9870.7 7	E F	(20-)		1154.8 8	100	D	8716.01	(19)-
10104.0 3	E F G H	(21)-	< 0.15 ps	1388.0 1	100	E2	8716.01	(19)-
10136.2 4 ?	E	(21-)		1420.2 3	100	(Q)	8716.01	(19)-
10452.3 5	E F G H	(20)+		1736.4 4 1887.0 5	100 8 33 8	E1	8716.01 8565.0	(19)- (19-)
10604.3 6 ?	E	(21-)		733.8 8	100		9870.7	(20-)
11211.2 4	E F G H	(22-)		606.6 5 1107.1 2	7.4 11 100 4	D	10604.3 10104.0	(21-) (21)-
11528.0 3	F			1424.0 1	100		10104.0	(21)-
11652.6 5	E F H	(22+)		1200.3 2		Q	10452.3	(20)+
11685.9 4	F H	(23-)		1581.9 3	100	(Q)	10104.0	(21)-
11821.1 4	E F G H	(23-)		609.9 1 1218.0 10 1717.2 4	100 4 24 3 46 3	D Q	11211.2 10604.3 10104.0	(22-) (21-) (21)-
12620.4 4 ?	F	(24-)		799.3 4	100		11821.1	(23-)
12879.0 3	F			1351.0 1	100		11528.0
12946.0 6	E F H	(23+)		1293.4 4	100		11652.6	(22+)
13205.1 4	E F G H	(25-)		584.7 2 1384.0 1	33 8 100 6	Q	12620.4 11821.1	(24-) (23-)
13438.3 7	F H	(25-)		1752.3 5	100	Q	11685.9	(23-)
13504.1 6	E F H	(24+)		558.1 1 1851.4 6	100 6 96 5		12946.0 11652.6	(23+) (22+)
15014.1 9	E F G H	(25+)		1510.0 6	100	D	13504.1	(24+)
16107.1 9	F			1093.0 3	100		15014.1	(25+)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - g.s. band.
0.0	0+	3.63 d 9 % ε = 100
665.49 10	2+	6.24 ps 28	665.48 10	100	E2	0.0	0+
1416.09 13	4+	2.50 ps 21	750.61 10	100	E2	665.49	2+
2189.31 15	6+	2.56 ps 35	773.19 10	100	E2	1416.09	4+
2987.97 16	8+	3.47 ps 28	798.57 10	100	E2	2189.31	6+
3869.17 18	10+	1.94 ps 42	881.14 10	100	E2	2987.97	8+
4761.62 20	12+	3.60 ps 28	616.3 2 892.28 16	1.9 2 100 3	[E2] E2	4145.68 3869.17	10(+) 10+
5706.73 21	14+		254.1 1 945.0 2	2.0 7 100 6	E2	5452.70 4761.62	13+ 12+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - Band based on 9-.
4054.09 17	9-
4863.52 17	11-		717.1 4 770.7 1 809.40 10 994.3 2	4.1 14 3.3 5 100 3 4.9 4	Q E2	4145.68 4092.90 4054.09 3869.17	10(+) 9(-) 9- 10+
5669.22 19	13-		591.2 3 742.0 5 805.69 11 908.1 3	1.8 9 1.5 7 100 3 5.4 8	E2 D	5078.02 4926.27 4863.52 4761.62	12(+) 12(+) 11- 12+
6704.63 21	15-	0.90 ps 10	570.0 5 786.0 2 997.9 1 1035.43 16	0.4 4 4.1 8 1.7 3 100 3	[E1] [E1] [E1] E2	6134.11 5918.72 5706.73 5669.22	(14+) 14+ 14+ 13-
7644.82 23	(17)-	0.55 ps 7	302.0 5 370.0 5 706.4 2 940.2 1	6.0 14 100 3	[E1] E2	7341.8 7274.9 6938.48 6704.63	(16+) (16+) (16)+ 15-
8716.01 25	(19)-	0.42 ps 5	1071.2 1	100	E2	7644.82	(17)-
10104.0 3	(21)-	< 0.15 ps	1388.0 1	100	E2	8716.01	(19)-
11821.1 4	(23-)		609.9 1 1218.0 10 1717.2 4	100 4 24 3 46 3	D Q	11211.2 10604.3 10104.0	(22-) (21-) (21)-
13205.1 4	(25-)		584.7 2 1384.0 1	33 8 100 6	Q	12620.4 11821.1	(24-) (23-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Band based on (4-),α=0
2055.08 17	(4-)
3021.90 16	(6-)		516.3 1 967.0 1	100 7 6 5	(Q)	2505.46 2055.08	5- (4-)
3879.22 17	8(-)		647.8 1 857.4 1	100 13 25 13	D	3231.36 3021.90	7- (6-)
4635.11 19	(10-)		542.2 2 755.9 1	100 17 33 17	(D)	4092.90 3879.22	9(-) 8(-)
5573.5 4	(12-)		626.2 5 939.0 5	2.4 4 100 5	(Q)	4946.76 4635.11	(11-) (10-)
6689.5 7	(14-)		1116.0 5	100		5573.5	(12-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Band based on 5-, α=1
2505.46 16	5-	13.97 ps 35
3231.36 16	7-		209.3 2 726.0 1 1042.0 1	13.9 14 100 4 16.3 23	(M1) E2	3021.90 2505.46 2189.31	(6-) 5- 6+
4092.90 17	9(-)		213.7 1 861.7 2	8 3 100 9	Q	3879.22 3231.36	8(-) 7-
4946.76 24	(11-)		311.5 4 853.8 2	9 3 100 7	Q	4635.11 4092.90	(10-) 9(-)
6068.8 6	(13-)		1122.0 5	100		4946.76	(11-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - Band based on 10(+)
4145.68 22	10(+)
4779.3 3	11(+)		633.7 2 909.6 4	100 7 83 17	D	4145.68 3869.17	10(+) 10+
5078.02 22	12(+)		298.0 5 931.8 5 1209.0 2	6.6 16 41 7 100 7	Q	4779.3 4145.68 3869.17	11(+) 10(+) 10+
5452.70 21	13+		374.6 3 526.5 1 674.0 10 ? 691.2 2	13.7 25 11 4 3.6 12 100 3	D M1	5078.02 4926.27 4779.3 4761.62	12(+) 12(+) 11(+) 12+
5918.72 22	14+		466.1 2 842.8 13 ? 992.4 1 1156.8 3	100 4 4.9 13 46 3 14 2	M1 Q	5452.70 5078.02 4926.27 4761.62	13+ 12(+) 12(+) 12+
6459.12 22	(15)+		324.0 5 540.4 2 752.4 1 1006.5 1	11.7 12 17 3 100 4 14.9 12	D	6134.11 5918.72 5706.73 5452.70	(14+) 14+ 14+ 13+
6938.48 23	(16)+		479.4 1 1019.0 5 1231.8 2	100 3 8 3 71 8	M1 E2	6459.12 5918.72 5706.73	(15)+ 14+ 14+
7970.5 3	(18+)		1032.0 2	100	Q	6938.48	(16)+
9389.5 6	(20+)		1419.0 5	100		7970.5	(18+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - Band based on (20)+.
10452.3 5	(20)+
11652.6 5	(22+)		1200.3 2		Q	10452.3	(20)+
12946.0 6	(23+)		1293.4 4	100		11652.6	(22+)
13504.1 6	(24+)		558.1 1 1851.4 6	100 6 96 5		12946.0 11652.6	(23+) (22+)
15014.1 9	(25+)		1510.0 6	100	D	13504.1	(24+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - γ cascade based on (16⁺)
7341.8 3	(16+)
7835.4 4	(17+)		492.7 5 1377.0 5	56 22 100 33	D	7341.8 6459.12	(16+) (15)+
8303.5 6	(18+)		468.0 5 1365.2 8	100	Q	7835.4 6938.48	(17+) (16)+
9689.5 7	(20+)		1386.0 3	100	Q	8303.5	(18+)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	3.63 d 9 % ε = 100	E(level): g.s. band.
665.49	2+	6.24 ps 28	μ=+0.60 28 (2011To09,2014StZZ) E(level): g.s. band.
1416.09	4+	2.50 ps 21	μ=+1.80 56 (2011To09,2014StZZ) E(level): g.s. band.
2055.08	(4-)		E(level): Band based on (4-),α=0.
2189.31	6+	2.56 ps 35	μ=+8.8 52 (2011To09) E(level): g.s. band.
2505.46	5-	13.97 ps 35	E(level): Band based on 5-, α=1.
2531.89	(2+)		XREF: I(?).
2987.97	8+	3.47 ps 28	E(level): g.s. band.
3021.90	(6-)		E(level): Band based on (4-),α=0.
3231.36	7-		E(level): Band based on 5-, α=1.
3869.17	10+	1.94 ps 42	E(level): g.s. band.
3879.22	8(-)		E(level): Band based on (4-),α=0.
4054.09	9-		E(level): Band based on 9-.
4092.90	9(-)		E(level): Band based on 5-, α=1.
4145.68	10(+)		E(level): Band based on 10(+).
4635.11	(10-)		E(level): Band based on (4-),α=0.
4761.62	12+	3.60 ps 28	E(level): g.s. band.
4779.3	11(+)		E(level): Band based on 10(+).
4863.52	11-		E(level): Band based on 9-.
4946.76	(11-)		E(level): Band based on 5-, α=1.
5078.02	12(+)		E(level): Band based on 10(+).
5452.70	13+		E(level): Band based on 10(+).
5573.5	(12-)		E(level): Band based on (4-),α=0.
5669.22	13-		E(level): Band based on 9-.
5706.73	14+		E(level): g.s. band.
E(level)	J^π(level)	T_1/2(level)	Comments
5918.72	14+		XREF: I(?). E(level): Band based on 10(+).
6068.8	(13-)		E(level): Band based on 5-, α=1.
6459.12	(15)+		E(level): Band based on 10(+).
6689.5	(14-)		E(level): Band based on (4-),α=0.
6704.63	15-	0.90 ps 10	E(level): Band based on 9-.
6938.48	(16)+		E(level): Band based on 10(+).
7644.82	(17)-	0.55 ps 7	E(level): Band based on 9-.
7970.5	(18+)		E(level): Band based on 10(+).
8716.01	(19)-	0.42 ps 5	XREF: I(?). E(level): Band based on 9-. Possible antimagnetic rotational structure. This structure proposed by 2001Zh26 in (³⁵Cl,αp2nγ) based on spectroscopic properties and cranked model calculations.
9389.5	(20+)		E(level): Band based on 10(+).
10104.0	(21)-	< 0.15 ps	E(level): Band based on 9-. Possible antimagnetic rotational structure. This structure proposed by 2001Zh26 in (³⁵Cl,αp2nγ) based on spectroscopic properties and cranked model calculations.
10452.3	(20)+		E(level): Band based on (20)+.
11652.6	(22+)		E(level): Band based on (20)+.
11685.9	(23-)		E(level): Possible antimagnetic rotational structure. This structure proposed by 2001Zh26 in (³⁵Cl,αp2nγ) based on spectroscopic properties and cranked model calculations.
11821.1	(23-)		E(level): Band based on 9-.
12946.0	(23+)		E(level): Band based on (20)+.
13205.1	(25-)		E(level): Band based on 9-.
13438.3	(25-)		E(level): Possible antimagnetic rotational structure. This structure proposed by 2001Zh26 in (³⁵Cl,αp2nγ) based on spectroscopic properties and cranked model calculations.
13504.1	(24+)		E(level): Band based on (20)+.
15014.1	(25+)		E(level): Band based on (20)+.

E(level)	E(gamma)	Comments
665.49	665.48	E(γ): weighted average of 665.7 1 from ¹⁰⁰Ag ε decay (2.01 min), 665.50 10 from (⁹⁶Ru,2αγ), 665.5 3 from (⁵⁸Ni,4pγ), 665.4 1 from (⁵⁸Ni,4pαγ), 665.0 5 from (³⁵Cl,αp2nγ), 665.32 12 from (¹²C,3nγ), and 665.4 2 from (³He,2nγ) M(γ): from γ(θ,pol) in (¹²C,3nγ) and (⁵⁸Ni,4pαγ), γ(DCO) in (⁵⁸Ni,4pγ) and (³⁵Cl,αp2nγ), and ce data in ε decay (2.01 m)
1416.09	750.61	E(γ): weighted average of 750.8 1 from ¹⁰⁰Ag ε decay (2.01 min), 750.50 20 from (⁹⁶Ru,2αγ), 750.6 3 from (⁵⁸Ni,4pγ), 750.6 1 from (⁵⁸Ni,4pαγ), 750.0 5 from (³⁵Cl,αp2nγ), 750.48 12 from (¹²C,3nγ), and 750.5 2 from (³He,2nγ) M(γ): from γ(θ,pol) in (¹²C,3nγ) and (⁵⁸Ni,4pαγ), γ(DCO) in (⁵⁸Ni,4pγ) and (³⁵Cl,αp2nγ)
1523.6	1523.6	E(γ): from ε decay (2.24 m) only
1587.60	922.00	E(γ): unweighted average of 922.3 1 from ¹⁰⁰Ag ε decay (2.01 min), 922.3 1 from ¹⁰⁰Ag ε decay (2.24 min), 921.70 10 from (⁹⁶Ru,2αγ), and 922.0 2 from (³He,2nγ) I(γ): from (³He,2nγ) and (⁹⁶Ru,2αγ)
1587.60	1587.6	E(γ): weighted average of 1587.9 2 from ¹⁰⁰Ag ε decay (2.01 min), 1587.3 3 from (⁹⁶Ru,2αγ), and 1587.4 3 from (³He,2nγ) I(γ): weighted average of 72 17 from ¹⁰⁰Ag ε decay (2.24 min), 60 5 from (³He,2nγ), 69 23 from ¹⁰⁰Ag ε decay (2.01 min). Other: 33 3 in (⁹⁶Ru,2αγ) seems discrepant
1925.86	337.9	E(γ): weighted average of 337.5 3 from (⁹⁶Ru,2αγ) and 338.1 2 from (³He,2nγ) I(γ): unweighted average of 17.5 20 from (⁹⁶Ru,2αγ) and 11.0 20 from (³He,2nγ)
1925.86	1260.4	E(γ): weighted average of 1260.5 1 from ¹⁰⁰Ag ε decay (2.01 min), 1260.0 6 from (⁹⁶Ru,2αγ), and 1260.0 2 from (³He,2nγ) I(γ): from (⁹⁶Ru,2αγ). Other: 100 4 from (³He,2nγ)
2055.08	639.3	E(γ): unweighted average of 639.9 1 from ¹⁰⁰Ag ε decay (2.01 min), 639.5 10 from (⁹⁶Ru,2αγ), 638.5 2 from (⁵⁸Ni,4pαγ), 639.0 5 from (³⁵Cl,αp2nγ), and 639.6 2 from (³He,2nγ)
2189.31	773.19	E(γ): weighted average of 773.3 1 from ¹⁰⁰Ag ε decay (2.01 min), 773.0 7 from (⁹⁶Ru,2αγ), 773.2 3 from (⁵⁸Ni,4pγ), 773.2 1 from (⁵⁸Ni,4pαγ), 773.0 5 from (³⁵Cl,αp2nγ), 773.05 12 from (¹²C,3nγ), and 773.1 2 from (³He,2nγ) M(γ): from γ(θ,pol) in (¹²C,3nγ) and (⁵⁸Ni,4pαγ), γ(DCO) in (⁵⁸Ni,4pγ) and (³⁵Cl,αp2nγ), and ce data in ε decay (2.01 m). δ(M3/E2)=+0.01 5 from γγ(θ) in (³He,2nγ)
2278.14	222.4	E(γ): poor fit. Level-energy difference=223.06. weighted average of 222.5 2 from ¹⁰⁰Ag ε decay (2.01 min), 221.9 3 from (⁹⁶Ru,2αγ), and 222.7 4 from (³He,2nγ) I(γ): weighted average of 27 8 from ¹⁰⁰Ag ε decay (2.01 min), and 20 8 from (³He,2nγ). Other: 89 11 in (⁹⁶Ru,2αγ) seems discrepant
	352.8	E(γ): weighted average of 353.0 5 from ¹⁰⁰Ag ε decay (2.01 min), 353.6 5 from (⁹⁶Ru,2αγ), and 352.6 2 from (³He,2nγ) I(γ): unweighted average of 26 4 from ¹⁰⁰Ag ε decay (2.01 min), 50 7 from (⁹⁶Ru,2αγ), and 10 5 from (³He,2nγ)
	862.4	E(γ): weighted average of 862.5 1 from ¹⁰⁰Ag ε decay (2.01 min), 862.0 2 from (⁹⁶Ru,2αγ), and 862.0 4 from (³He,2nγ) I(γ): from (⁹⁶Ru,2αγ). Other: 100 8 from ¹⁰⁰Ag ε decay (2.01 min), 100 20 from (³He,2nγ)
2350.98	1685.7	E(γ): weighted average of 1685.8 3 from ¹⁰⁰Ag ε decay (2.01 min), 1686.0 8 from (⁹⁶Ru,2αγ), and 1685.5 4 from (³He,2nγ)
2359.3	1693.8	E(γ): weighted average of 1694.0 3 from ¹⁰⁰Ag ε decay (2.24 min) and 1693.4 4 from (³He,2nγ)
2359.3	2359.3	E(γ): tentative γ from (³He,2nγ) only
2431.11	505.25	E(γ): weighted average of 505.30 10 from (⁹⁶Ru,2αγ) and 504.8 3 from (³He,2nγ)
2469.90	191.3	E(γ): unweighted average of 190.5 5 from ¹⁰⁰Ag ε decay (2.01 min) and 192.0 5 from (³He,2nγ) I(γ): weighted average of 3.2 3 from ¹⁰⁰Ag ε decay (2.01 min) and 8 4 from (³He,2nγ)
	280.6	E(γ): weighted average of 280.7 2 from ¹⁰⁰Ag ε decay (2.01 min), 280.90 20 from (⁹⁶Ru,2αγ), 280.4 2 from (⁵⁸Ni,4pαγ), 280.0 5 from (³⁵Cl,αp2nγ), and 280.5 2 from (³He,2nγ) I(γ): weighted average of 69 8 from ¹⁰⁰Ag ε decay (2.01 min), 49 11 from (⁹⁶Ru,2αγ), 75 10 from (⁵⁸Ni,4pαγ), 72 6 from (³⁵Cl,αp2nγ), and 72 3 from (³He,2nγ) M(γ): from (⁵⁸Ni,4pαγ) with ΔJ=(0), (M1) from ΔJπ
	1053.8	E(γ): weighted average of 1053.9 1 from ¹⁰⁰Ag ε decay (2.01 min), 1053.5 3 from (⁹⁶Ru,2αγ), 1053.8 2 from (⁵⁸Ni,4pαγ), 1053.0 5 from (³⁵Cl,αp2nγ), and 1053.5 2 from (³He,2nγ) I(γ): from (³He,2nγ)
2505.46	450.5	E(γ): weighted average of 450.4 3 from (⁹⁶Ru,2αγ), 450.7 2 from (⁵⁸Ni,4pαγ), 449.0 5 from (³⁵Cl,αp2nγ), and 450.6 5 from (³He,2nγ) I(γ): unweighted average of 12 1 from (³He,2nγ), 6.4 9 from (⁵⁸Ni,4pαγ), and 11.5 10 from (³⁵Cl,αp2nγ). Other: 43 5 in (⁹⁶Ru,2αγ) seems discrepant. M(γ): d from γγ(θ) in (³⁶S,6nγ), consistent with ΔJ=1
2505.46	1089.32	E(γ): weighted average of 1089.40 10 from (⁹⁶Ru,2αγ), 1089.4 9 from (⁵⁸Ni,4pγ), 1089.3 1 from (⁵⁸Ni,4pαγ), 1089.0 5 from (³⁵Cl,αp2nγ), 1089.1 3 from (¹²C,3nγ), and 1089.2 2 from (³He,2nγ) M(γ): from γ(θ,pol) in (¹²C,3nγ) and (⁵⁸Ni,4pαγ), γ(DCO) in (⁵⁸Ni,4pγ) and (³⁵Cl,αp2nγ). δ(M2/E1)=-0.06 4 from γγ(θ) in (³He,2nγ)
2531.89	1115.8	E(γ): weighted average of 1115.8 2 from ¹⁰⁰Ag ε decay (2.01 min) and 1115.6 5 from (³He,2nγ) M(γ): (Q) from γγ(θ) in (³He,2nγ), δ(O/Q)=-0.10 14; (E2) from level scheme
2616.9	1951.4	E(γ): weighted average of 1951.4 3 from (⁹⁶Ru,2αγ) and 1951.4 5 from (³He,2nγ)
2621.5	1956.0	E(γ): from ¹⁰⁰Ag ε decay (2.01 min)
2679.2	2013.7	E(γ): from ¹⁰⁰Ag ε decay (2.01 min) only
E(level)	E(gamma)	Comments
2694.00	1277.9	E(γ): weighted average of 1278.0 2 from ¹⁰⁰Ag ε decay (2.01 min) and 1277.8 3 from (³He,2nγ)
2784.0	2118.5	E(γ): from both ¹⁰⁰Ag ε decay (2.01 min) and (³He,2nγ)
2821.40	1405.3	E(γ): weighted average of 1405.3 2 from ¹⁰⁰Ag ε decay (2.01 min) and 1405.2 5 from (³He,2nγ)
2879.86	528.9	E(γ): weighted average of 528.9 1 from ¹⁰⁰Ag ε decay (2.01 min) and 528.7 4 from (³He,2nγ) I(γ): from (³He,2nγ). Iγ=167 17 in ¹⁰⁰Ag ε seems discrepant
	953.6	E(γ): weighted average of 953.3 5 from ¹⁰⁰Ag ε decay (2.01 min) and 954.3 8 from (³He,2nγ) I(γ): from ¹⁰⁰Ag ε decay (2.01 min). Other: 5.0 20 from (³He,2nγ)
	2214.3	E(γ): weighted average of 2214.3 3 from ¹⁰⁰Ag ε decay (2.01 min) and 2214.1 8 from (³He,2nγ) I(γ): from (³He,2nγ). Other: 100 25 from ¹⁰⁰Ag ε decay (2.01 min)
2920.11	450.2	E(γ): weighted average of 450.2 1 from ¹⁰⁰Ag ε decay (2.01 min) and 450.0 2 from (³He,2nγ) I(γ): from ¹⁰⁰Ag ε decay (2.01 min). Other: 100 10 from (³He,2nγ)
	569.2	E(γ): weighted average of 569.5 3 from ¹⁰⁰Ag ε decay (2.01 min) and 568.5 5 from (³He,2nγ) I(γ): weighted average of 4.1 3 from ¹⁰⁰Ag ε decay (2.01 min) and 6.0 20 from (³He,2nγ)
	730.9	E(γ): weighted average of 730.9 1 from ¹⁰⁰Ag ε decay (2.01 min) and 730.6 3 from (³He,2nγ) I(γ): from ¹⁰⁰Ag ε decay, where the 2920 level is strongly populated. Iγ=20 5 in (³He,2nγ) seems discrepant.
	1503.7	E(γ): weighted average of 1503.8 2 from ¹⁰⁰Ag ε decay (2.01 min) and 1503.4 4 from (³He,2nγ) I(γ): from ¹⁰⁰Ag ε decay, where the 2920 level is strongly populated. Iγ=30 8 in (³He,2nγ) seems discrepant.
2939.4	1523.3	E(γ): from (³He,2nγ) only
2976.7	1389.1	E(γ): from (³He,2nγ) only
2987.97	798.57	E(γ): weighted average of 798.7 4 from (⁵⁸Ni,4pγ), 798.6 1 from (⁵⁸Ni,4pαγ), 798.0 5 from (³⁵Cl,αp2nγ), 798.58 14 from (¹²C,3nγ), and 798.5 2 from (³He,2nγ) M(γ): from γ(θ,pol) in (¹²C,3nγ) and (⁵⁸Ni,4pαγ), γ(DCO) in (⁵⁸Ni,4pγ) and (³⁵Cl,αp2nγ). δ(M3/E2)=+0.04 5 from γγ(θ) in (³He,2nγ)