List of levels for 64ZN

Authors: Balraj Singh and Jun Chen | Citation: Nucl. Data Sheets 178, 41 (2021). | Cutoff date: 12-Nov-2021

Mass excess measurements: 2018Ki21, 2008Go23, 2007Ke09, 2005Ch60, 1977De20, 1976De21.

Other reactions:

⁵⁹Co(⁶Li,n) E=39.7, 90 MeV: 1984Bo45: Measured σ(θ), reaction mechanism

⁶⁰Ni(α,p):IAR E=7.260-7.450 MeV: 1976Fo06: Measured resonance strengths. Other: 1961No04

⁶⁰Ni(α,α’):IAR E=14.6-20.9 MeV: 1975Lu06: Si telescope, σ(θ), deduced isospin mixing for ⁶⁴Zn at excitations of 17.6-23.5 MeV

⁶¹Ni(α,n) E=53 MeV: 1984Bo45, 1979Bo45: σ(θ), reaction mechanism

⁶⁴Zn(t,t) E=12 MeV: 1972Hu06: measured σ(θ). Deduced optical model-parameters

⁶⁴Zn(⁶Li,⁶Li), (⁷Li,⁷Li): 1991Bo48

²⁷Al(³⁷Cl,X) and ⁴⁸Ti(¹⁶O,X): 1984Mi09 (scission mechanism for excited ⁶⁴Zn nucleus)

⁶³Cu(¹⁶O,¹⁵N): 1975We20 E=38-51 MeV. Reaction mechanism

⁶⁰Ni(¹⁸O,¹⁴C): 1973RoYT, 1972HeYV

⁶⁴Zn(π⁺,π^-): 1993Be02: E=293.4 MeV, measured σ(θ)

⁶⁴Zn(π⁺,π^-): 1997Fo03: E=140-230 MeV, measured σ(θ)

⁶⁴Zn(K^-,X): 1980De11, calculated atomic level shifts

⁶⁴Zn(⁷Li,tα) E=42 MeV: 2001To07 (also 1999Ut03): measured triton and α spectra, σ(θ), deduced astrophysical S factors

⁶⁴Zn(¹⁰Be,¹⁰Be),((¹¹Be,¹¹Be),E(c.m.)=24.5 MeV: 2014DiZV: measured σ(θ) for elastic scattering at REX-ISOLDE facility of CERN, and analyzed using CDCC with optical model calculations.

Giant-dipole resonances: 1981Do12 (⁶⁴Zn(e,p)); 1977TaYW (⁶⁴Zn(γ,α)); 1973Ya04 (⁶⁴Zn(γ,n), (γ,np)); 1972ClZK (⁶⁴Zn(γ,p)); 1970Co25 (⁶⁴Zn(γ,n), (γ,2n), (γ,np))

Isotope shifts: 1970Le23. Theory: 1982Fo09

There are several high-spin studies: ¹²C(⁵⁴Fe,2pγ) from 1994Cr05; ⁴⁰Ca(²⁸Si,4pγ) E=115 MeV from 1998Ga11; ⁴⁰Ca(²⁸Si,4pγ) E=120 MeV from 1997Fu08; ⁴⁰Ca(²⁸Si,4pγ) E=122 MeV from 2004Ka18; ⁵¹V(¹⁶O,p2nγ),⁵⁹Co(⁷Li,2nγ) from 1977We10, 1978We15, and 1977Al14; ⁶¹Ni(α,nγ),⁵⁶Fe(¹¹B,2npγ) from 1980Si02 and 1978Si02; ⁶¹Ni(α,nγ),(HI,xnγ) from 1978Ne02 and 1976Ch11. While there is general agreement between all these studies below about 5 MeV excitation, above this energy, there are major differences even when the same reaction is used as in 2004Ka18, 1998Ga11 and 1997Fu08. Since the statistics in γγ coincidences is the highest in 2004Ka18, where Gammasphere array has been used, evaluators have adopted the high-spin level scheme from 2004Ka18 with the exception of few cases where results of 2004Ka18 are in clear disagreement with other experiments, the results of which are considered by evaluators as more definitive. Such cases are noted in comments. It should also be mentioned that complete details of data are not available from 2004Ka18. Requests by evaluators for obtaining such details from the authors of 2004Ka18 were unsuccessful. Full details of data are also missing in 1998Ga11 and 1997Fu08, although, some were obtained as priv. comm. (1996GaZZ) from authors of 1998Ga11. Several levels proposed by 1998Ga11, 1997Fu08 and 1994Cr05, but not reported by 2004Ka18 have been omitted here. See individual datasets for details.

In the opinion of the evaluators, there are several incomplete or discrepant aspects of the high-spin portion of the level scheme which need to be resolved in further experiments.

Q-value: Q(2ε)=1095.0 7, S(2n)=20978.6 8, S(2p)=13835.5 6 (2021Wa16)

E(level): From a least-squares fit to Eγ data for levels populated in γ-ray studies, assuming ΔEγ=3 keV for high-energy γ rays from proton capture and resonance states. Normalized χ²=0.92. Energies of levels populated only in particle-transfer reactions are primarily from (p,p’). Due to high level density and limited resolution, correspondence of levels, above ≈3.5 MeV excitation, from different reactions is somewhat ambiguous

J^π(level): In cases where L(p,p’) is used, parity is (-1)^L and spin is L for levels up to 3.2 MeV, with the possibility of L-1, L, L+1 for higher levels, although J=L is the most likely choice, which is listed first, followed by less likely J=L-1 and J=L-2. For levels above ≈5 MeV populated in in-beam high-spin studies, Jπ values are based on γ(θ), γγ(θ) (DCO), band associations, and assumption of ascending spins with excitation energy.

T_1/2(level): Mainly from ΔS(a) method in (α,nγ),(¹¹B,2npγ) (also (α,nγ) and (n,n’γ)). Values quoted from 1977Al14 are from recoil distance method (RDDS) in (¹¹B,2npγ). Above 3458 values are available from (¹¹B,2npγ) only. For some of the levels, values from different studies are in disagreement and are noted under comments.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
991.54	2+	1.94 ps 5	991.53 5	E2			B(E2)(W.u.)=20.0 5
1799.41	2+	2.0 ps 2	807.85 6	E2+M1	-3.9 7		B(E2)(W.u.)=39 4, B(M1)(W.u.)=0.00099 +47-27
1799.41	2+	2.0 ps 2	1799.34 11	E2			B(E2)(W.u.)=0.225 +25-22
1910.26	0+	0.95 ns 5	110.7 1	[E2]		0.447	B(E2)(W.u.)=76 24, α=0.447
1910.26	0+	0.95 ns 5	918.77 5	E2			B(E2)(W.u.)=0.057 3
2306.72	4+	0.776 ps 28	1315.15 5	E2			B(E2)(W.u.)=12.2 +5-4
2609.52	0+	0.20 ps 8	809	[E2]			B(E2)(W.u.)<4.5
2609.52	0+	0.20 ps 8	1617.93 19	E2			B(E2)(W.u.)=17 +11-5
2736.57	4+	1.5 ps 3	429.77 13	M1+E2	-0.25 9		B(E2)(W.u.)=8 +7-5, B(M1)(W.u.)=0.014 +4-3
	4+	1.5 ps 3	937.17 6	E2			B(E2)(W.u.)=30 +8-5
	4+	1.5 ps 3	1745.4 5	(E2)			B(E2)(W.u.)=0.064 +20-15
2793.5	2+	0.049 ps 14	1802.1 4	M1+E2	+0.7 5		B(E2)(W.u.)=13 +13-10, B(M1)(W.u.)=0.052 +26-23
2979.94	3+	0.30 ps +39-11	1180.58 15	M1+E2	-0.05 3		B(E2)(W.u.)=0.08 +16-7, B(M1)(W.u.)=0.028 +17-14
2979.94	3+	0.30 ps +39-11	1987.0 7	M1+E2	+0.26 3		B(E2)(W.u.)=0.10 +6-5, B(M1)(W.u.)=0.0033 +20-17
2998.54	3-	0.152 ps 4	1197 1	[E1]			B(E1)(W.u.)≈0.000062
	3-	0.152 ps 4	2007.03 18	(E1)			B(E1)(W.u.)=3.29E-4 11
	3-	0.152 ps 4	2997	[E3]			B(E3)(W.u.)=72 +44-35
3005.73	2+	0.057 ps 8	1092 1	[E2]			B(E2)(W.u.)≈12.6
	2+	0.057 ps 8	1206.2 2	M1+E2	+0.6 5		B(E2)(W.u.)=21 +24-16, B(M1)(W.u.)=0.050 +15-21
	2+	0.057 ps 8	2014.3 2	M1(+E2)	-0.06 10		B(E2)(W.u.)<0.25, B(M1)(W.u.)=0.019 +5-4
	2+	0.057 ps 8	3005.5 4	E2			B(E2)(W.u.)=0.69 +13-11
3077.77	4+	0.55 ps 6	341.2 3	M1(+E2)	0.5 LT	0.0036	B(E2)(W.u.)<230, B(M1)(W.u.)=0.055 +24-20, α=0.0036 9
	4+	0.55 ps 6	770.95 15	M1+E2	-0.19 8		B(E2)(W.u.)=4.6 +45-30, B(M1)(W.u.)=0.045 6
	4+	0.55 ps 6	2086.8 3	E2			B(E2)(W.u.)=0.71 +11-9
3094.64	(3)+	0.090 ps 11	1295.1 2	[M1+E2]			B(E2)(W.u.)=18 8, B(M1)(W.u.)=0.018 +8-7
3094.64	(3)+	0.090 ps 11	2103.1 1	M1+E2			B(E2)(W.u.)=8.4 +14-11, B(M1)(W.u.)=0.022 +4-3
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
3186.84	1+	0.042 ps 10	577.3 1	[M1]			B(M1)(W.u.)=0.0090 +35-24
	1+	0.042 ps 10	1276.52 16	(M1)			B(M1)(W.u.)=0.052 +16-10
	1+	0.042 ps 10	1387.34 10	[M1+E2]			B(E2)(W.u.)=75 +24-15, B(M1)(W.u.)=0.085 +26-16
	1+	0.042 ps 10	2195.34 10	[M1+E2]			B(E2)(W.u.)=6.1 +19-12, B(M1)(W.u.)=0.017 +5-3
	1+	0.042 ps 10	3186.8 2	[M1]			B(M1)(W.u.)=1.1×10^-4 +4-3
3205.98	(3)+	0.18 ps 5	898.8 5	[M1+E2]			B(E2)(W.u.)=36 +15-8, B(M1)(W.u.)=0.017 +7-4
	(3)+	0.18 ps 5	1406.57 8	M1+E2	-0.25 9		B(E2)(W.u.)=1.8 +16-10, B(M1)(W.u.)=0.033 +13-8
	(3)+	0.18 ps 5	2214.0 5	[M1+E2]			B(E2)(W.u.)=0.096 +36-21, B(M1)(W.u.)=0.00028 +11-6
3297.17	(2)+	0.27 ps 5	1498 1	[M1+E2]			B(E2)(W.u.)=3.1 +14-12, B(M1)(W.u.)=0.0041 +17-15
	(2)+	0.27 ps 5	2305.54 14	[M1+E2]			B(E2)(W.u.)=1.24 +35-25, B(M1)(W.u.)=0.0039 +11-8
	(2)+	0.27 ps 5	3299 1	[E2]			B(E2)(W.u.)=0.087 +37-34
3306.85	(4+)	0.26 ps 8	512	[E2]			B(E2)(W.u.)<59
3306.85	(4+)	0.26 ps 8	1000.15 15	M1(+E2)	+0.07 20		B(E2)(W.u.)<14, B(M1)(W.u.)=0.084 +39-24
3365.99	1+	0.023 ps 8	756.58 10	[M1]			B(M1)(W.u.)=0.11 +6-3
	1+	0.023 ps 8	1455.84 12	[M1]			B(M1)(W.u.)=0.023 +12-6
	1+	0.023 ps 8	1566.50 18	[M1+E2]			B(E2)(W.u.)=14 +8-4, B(M1)(W.u.)=0.021 +11-6
	1+	0.023 ps 8	2374.30 10	[M1+E2]			B(E2)(W.u.)=5.7 +30-15, B(M1)(W.u.)=0.019 +10-5
	1+	0.023 ps 8	3365.80 10	[M1]			B(M1)(W.u.)=0.013 +7-4
3369.86	3+	0.35 ps +14-10	633.40 15	[M1+E2]			B(E2)(W.u.)=1.4E2 +7-5, B(M1)(W.u.)=0.034 +16-12
	3+	0.35 ps +14-10	1570.3 2	M1+E2	-0.40 6		B(E2)(W.u.)=0.84 +42-31, B(M1)(W.u.)=0.0077 +31-22
	3+	0.35 ps +14-10	2377.8 6	[M1+E2]			B(E2)(W.u.)=0.44 +18-13, B(M1)(W.u.)=0.0015 +6-4
3425.13	1+	0.031 ps 7	419.5 4	[M1+E2]			B(E2)(W.u.)<890, B(M1)(W.u.)<0.092
	1+	0.031 ps 7	1514.7 2	[M1]			B(M1)(W.u.)=0.0068 +23-16
	1+	0.031 ps 7	1625.87 20	[M1+E2]			B(E2)(W.u.)=18 +6-4, B(M1)(W.u.)=0.029 +9-6
	1+	0.031 ps 7	2433.6 2	[M1+E2]			B(E2)(W.u.)=1.3 +4-3, B(M1)(W.u.)=0.0045 +14-9
	1+	0.031 ps 7	3424.97 15	[M1]			B(M1)(W.u.)=0.0123 +37-23
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
3552.3	4+	> 1.0 ps	1246.7 4	M1+E2	-0.16 10		B(E2)(W.u.)<0.39, B(M1)(W.u.)<0.0057
3552.3	4+	> 1.0 ps	2559.7 4	[E2]			B(E2)(W.u.)<0.15
3628.4	(4)+	0.16 ps 5	2636.8 5	[E2]			B(E2)(W.u.)=1.8 +8-5
3701.4	1-	0.025 ps 4	3701.3 4	[E1]			B(E1)(W.u.)=3.3E-4 +6-5
3853.27	5+	> 2 ps	1116.7 2	M1+E2	-1.00 15		B(E2)(W.u.)<6.1, B(M1)(W.u.)<0.0046
3853.27	5+	> 2 ps	1547	[M1+E2]			B(E2)(W.u.)<0.021, B(M1)(W.u.)<3.0E-5
3924.69	5-	< 1.4 ps	617.9 5	[E1]			B(E1)(W.u.)>6.7E-5
	5-	< 1.4 ps	926.2 5	E2			B(E2)(W.u.)>4.1
	5-	< 1.4 ps	1187.4 10	[E1]			B(E1)(W.u.)>1.8E-5
	5-	< 1.4 ps	1618.4 5	E1+M2	+0.12 4		B(E1)(W.u.)>4.6E-5, B(M2)(W.u.)>0.53
3993.36	6+	0.12 ps 3	1686.60 6	E2			B(E2)(W.u.)=23 +8-5
4076.55	(5)+	0.49 ps +24-17	1340.2 4	M1+E2	-0.49 11		B(E2)(W.u.)=3.4 +22-16, B(M1)(W.u.)=0.015 +8-5
4156.53	5-	0.11 ps 3	1079.2 4	(E1)			B(E1)(W.u.)=0.00070 +30-20
	5-	0.11 ps 3	1159.0 4	[E2]			B(E2)(W.u.)=39 +16-11
	5-	0.11 ps 3	1850.4 8	[E1]			B(E1)(W.u.)=0.00032 +13-7
4236.71	6+	0.13 ps 4	1500.1 3	E2			B(E2)(W.u.)=26 +12-6
4236.71	6+	0.13 ps 4	1935.3 7	(E2)			B(E2)(W.u.)=3.3 +15-8
4454.68	1+	3.2 fs 6	2544.4 2	[M1]			B(M1)(W.u.)=0.052 +16-12
	1+	3.2 fs 6	2655.2 2	[M1+E2]			B(E2)(W.u.)=19 +5-4, B(M1)(W.u.)=0.078 +22-17
	1+	3.2 fs 6	3462.4 10	[M1+E2]			B(E2)(W.u.)=0.85 +27-21, B(M1)(W.u.)=0.0060 +19-15
	1+	3.2 fs 6	4454.3 10	[M1]			B(M1)(W.u.)=0.049 +12-8
4634.87	7-	94 ps 6	398.17 6	E1			B(E1)(W.u.)=1.23E-5 9
4634.87	7-	94 ps 6	641.48 5	E1			B(E1)(W.u.)=1.42E-5 9
4980.87	7-	1.3 ps 4	743.5 10	[E1]			B(E1)(W.u.)=4.3E-5 +21-11
	7-	1.3 ps 4	824.7 2	E2			B(E2)(W.u.)=12 +6-3
	7-	1.3 ps 4	1056.1 1	E2			B(E2)(W.u.)=17 +8-4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
6998.1	(11-)	0.97 ps 21	1046.45 10	E2			B(E2)(W.u.)=31 +9-6

Q(β-)=-7171.2 keV 15	S(n)= 11861.9 keV 15	S(p)= 7713.1 keV 6	Q(α)= -3955.7 keV 7
Reference: 2021WA16

References:
A	⁶⁴Cu β^- decay (12.7006 H)	B	⁶⁴Ga ε decay (2.627 M)
C	¹²C(⁵⁴Fe,2pγ)	D	⁴⁰Ca(²⁸Si,4PG) E=115 MeV
E	⁴⁰Ca(²⁸Si,4PG) E=120 MeV	F	⁴⁰Ca(²⁸Si,4PG) E=122 MeV
G	⁵¹V(¹⁶O,p2nγ),⁵⁹Co(⁷Li,2nγ)	H	⁶⁰Ni(⁶Li,d)
I	⁶⁰Ni(⁷Li,t)	J	⁶⁰Ni(¹⁶O,¹²C)
K	⁶¹Ni(α,nγ),⁵⁶Fe(¹¹B,2npγ)	L	⁶¹Ni(α,nγ),(HI,xnγ)
M	⁶²Ni(¹²C,¹⁰Be),(¹⁶O,¹⁴C)	N	⁶²Ni(³He,n)
O	⁶³Cu(p,γ) E=1.3-3.2 MeV	P	⁶³Cu(p,γ) E=2050 KEV
Q	⁶³Cu(p,γ) E=2.1-3.1 MeV	R	⁶³Cu(p,γ) E=2098 KEV
S	⁶³Cu(p,γ) E=3217,3251 KEV	T	⁶³Cu(p,γ) E=3.46 MeV
U	⁶³Cu(p,n):Resonances	V	⁶³Cu(d,n),(pol d,n)
W	⁶³Cu(³He,d)	X	⁶³Cu(α,t)
Y	⁶⁴Zn(γ,γ’)	Z	⁶⁴Zn(E,E’)
a	⁶⁴Zn(μ^-,X)	b	⁶⁴Zn(n,n’)
c	⁶⁴Zn(n,n’γ)	d	⁶⁴Zn(p,p’),(pol p,p’)
e	⁶⁴Zn(p,p’γ)	f	⁶⁴Zn(d,d’),(pol d,d)
g	⁶⁴Zn(³He,³He’)	h	⁶⁴Zn(α,α’)
i	⁶⁴Zn(¹⁶O,¹⁶O’),(¹²C,¹²C’)	j	Coulomb Excitation
k	⁶⁶Zn(p,t)

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+	STABLE
991.54 5	2+	1.94 ps 5	991.53 5	100	E2	0.0	0+
2306.72 5	4+	0.776 ps 28	1315.15 5	100	E2	991.54	2+
3993.36 8	6+	0.12 ps 3	1686.60 6	100	E2	2306.72	4+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - Band based on 2⁺
1799.41 4	2+	2.0 ps 2
2736.57 6	4+	1.5 ps 3	429.77 13 937.17 6 1745.4 5	9.3 6 100.0 19 4.8 8	M1+E2 E2 (E2)	2306.72 1799.41 991.54	4+ 2+ 2+
4236.71 10	6+	0.13 ps 4	1500.1 3 1935.3 7 ?	100.0 22 45 3	E2 (E2)	2736.57 2306.72	4+ 4+
6031.5 4	(8+)		1395.6 10 1794.5 17 2038.9 5	22 3 67 6 100 6	Q	4634.87 4236.71 3993.36	7- 6+ 6+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Band based on 3-
2998.54 17	3-	0.152 ps 4
3924.69 16	5-	< 1.4 ps	617.9 5 848 926.2 5 1187.4 10 1618.4 5	8.3 5 19 4 16 1 100 1	[E1] [E1] E2 [E1] E1+M2	3306.85 3077.77 2998.54 2736.57 2306.72	(4+) 4+ 3- 4+ 4+
4980.87 17	7-	1.3 ps 4	743.5 10 824.7 2 1056.1 1	7.0 9 21.0 11 100.0 17	[E1] E2 E2	4236.71 4156.53 3924.69	6+ 5- 5-
6124.7 4	(9-)		1143.8 4	100	Q	4980.87	7-
7579.1 4	(11-)		1454.3 2	100	Q	6124.7	(9-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Collective (strongly coupled) band,α=1.
10460.2 6	(13-)
11626.4 7	(15-)		603.0 3 1166 1	100.0 4 51.0 4	D Q	11023.4 10460.2	(14-) (13-)
13082.1 7	(17-)		746.4 3 1455.2 5	100.0 5 100 6	D	12335.7 11626.4	(16-) (15-)
14862.5 8	(19-)		914.5 5 1779.6 6	97.1 10 100.0 10	D Q	13948.1 13082.1	(18-) (17-)
17087.2 10	(21-)		1142.0 5 2225.1 10	19 4 100.0 18	Q	15945.0 14862.5	(20-) (19-)
19775.6 13	(23-)		1292 2688.5 10	100 5	Q	18483.3 17087.2	(22-) (21-)
22892.7 17	(25-)		3117 1	100		19775.6	(23-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - Collective (strongly coupled) band based,α=0.
9948.4 6	(12-)
11023.4 6	(14-)		563.3 3 1074.7 5 2720 1	100.0 5 24.3 6 1.68 15	D	10460.2 9948.4 8302.8	(13-) (12-) (12-)
12335.7 7	(16-)		709.5 3 1312.5 9	100 6 88 6		11626.4 11023.4	(15-) (14-)
13948.1 8	(18-)		865.8 5 1613.3 6	45.0 5 100.0 19	D Q	13082.1 12335.7	(17-) (16-)
15945.0 9	(20-)		1082.1 5 1997.4 6	45.8 10 100.0 13	Q	14862.5 13948.1	(19-) (18-)
18483.3 11	(22-)		1395.6 9 2538.6 10	28.4 14 100.0 20	Q	17087.2 15945.0	(21-) (20-)
21297.5 15	(24-)		1523 2814 1	100 4		19775.6 18483.3	(23-) (22-)
24868.6 18	(26-)		3571 1			21297.5	(24-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - Strongly coupled band,α=1
11464 4	(15)
13324 4	(17)		856 1860			12468 11464	(16) (15)
15423.6 25	(19)		561 1032 2099			14862.5 14391 13324	(19-) (18) (17)
17853 4	(21)		769 1167 2429			17087.2 16686.8 15423.6	(21-) (20) (19)
20657 5	(23)		2804			17853	(21)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - Strongly coupled band,α=0
12468 4	(16)
14391 3	(18)		1067 1924			13324 12468	(17) (16)
16686.8 25	(20)		742 1263 2296			15945.0 15423.6 14391	(20-) (19) (18)
19365 4	(22)		2678			16686.8	(20)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	Measured change in isotope shift δν(⁶⁸Zn,⁶⁴Zn)=-141.2 MHz 12(stat) 66(syst) (2019Xi07, collinear laser spectroscopy at ISOLDE, CERN), with laser wavelength of 480.7254 nm to match the Doppler shifted transition. E(level): Measured change in isotope shift δν(⁶⁸Zn,⁶⁴Zn)=-141.2 MHz 12(stat) 66(syst) (2019Xi07, collinear laser spectroscopy at ISOLDE, CERN), with laser wavelength of 480.7254 nm to match the Doppler shifted transition. g.s. band. T_1/2(level): Double β decay to ⁶⁴Ni is possible with Q value=1095.7 7. From measurements of double β decay, lower limits of half-life for decay to ⁶⁴Ni g.s. have been determined (generally at 90% confidence level): T_1/2(2ν2K): \|>1.1×10¹⁹ y (2011Be39, also 2010Be41, 2009Be27, 2008Be02); T_1/2(εβ⁺): \|>1.1×10¹⁸ y (2009Da16), \|>1.3×10²⁰ y (2007Ki13); T_1/2(2ε): \|>3.3×10¹⁷ y (2009Da16); T_1/2(2β⁺): >10×10¹⁷ y (1952Fr23); T_1/2(0ν2ε): \|>3.2×10²⁰ y (2011Be39), \|>1.19×10¹⁷ y (2007Bl15), \|>9.52×10¹⁶ y (2006Zu02,2006Wi12), \|>1.0×10¹⁸ y (2005Da47); T_1/2(0νεβ⁺): >1.2×10²² y (2020Az05), \|>8.5×10²⁰ y (2011Be39), \|>5.07×10¹⁸ y (2006Zu02,2006Wi12), \|>3.6×10¹⁸ y (2005Da47), >2.8×10¹⁶ y (2003Ki08), 1.1×10¹⁹ y 9 (1995Bi24, from observed 511 keV peak, but systematic effects were not estimated); T_1/2(2νεε): >6.0×10¹⁶ y (2003Ki08, also 2005Zu01,2001Zu03); T_1/2(2νεβ⁺): \|>9.4×10²⁰ y (2011Be39), \|>8.9×10¹⁸ y (2005Da47); T_1/2(0ν+2ν,β⁺ε)>2.3×10¹⁸ y (1985No03); T_1/2(0ν+2ν,2ε)>8×10¹⁵ y (1953Be33). Others T_1/2: 1999TsZZ, 2002Tr04 (evaluation).
991.54	2+	1.94 ps 5	β₂=0.260 18 (1987Ja04), μ=+0.89 14 (2005Le12,2010Mo14,2020StZV), Q=-0.143 21 (1976Ne06,1977Ne05,1981Ko06,2016St14,2021StZZ) XREF: J(960)n(1024)b(920). E(level): g.s. band.
1799.41	2+	2.0 ps 2	XREF: J(1750). E(level): Band based on 2⁺.
1910.26	0+	0.95 ns 5	XREF: f(1960)k(1940).
2306.72	4+	0.776 ps 28	μ=+2.0 6 (2005Le12,2010Mo14,2020StZV) XREF: M(2400)V(2230). E(level): g.s. band.
2736.57	4+	1.5 ps 3	XREF: h(2780). E(level): Band based on 2⁺.
2998.54	3-	0.152 ps 4	μ=+1.5 9 (2005Le12,2020StZV), B(E3)=0.040 7 (1976Ne06), β₃=0.235 16 (1987Ja04) XREF: X(3040)b(3300)k(3020). E(level): Band based on 3-.
3077.77	4+	0.55 ps 6	XREF: k(3110).
3094.64	(3)+	0.090 ps 11	XREF: V(3120).
3306.85	(4+)	0.26 ps 8	XREF: d(3305).
3321.8	(1)		XREF: B(?).
3365.99	1+	0.023 ps 8	XREF: L(?)c(?).
3369.86	3+	0.35 ps +14-10	XREF: k(3340).
3414	(1-:5-)		XREF: k(3410).
3425.13	1+	0.031 ps 7	XREF: L(?)c(?).
3452.0	(1,2+)		XREF: t(3454).
3586.9			XREF: d(3576).
3701.4	1-	0.025 ps 4	XREF: H(3680)Y(3704).
3710.0	(2+)		XREF: t(3707).
3924.69	5-	< 1.4 ps	E(level): Band based on 3-.
3932.0	(4,5)		XREF: k(3920).
3951.9	(4+,3+)		XREF: c(?)k(3920).
3993.36	6+	0.12 ps 3	E(level): g.s. band.
4020.4	(2)+		XREF: k(4010).
4110	(2)+		XREF: d(4107)k(4120).
E(level)	J^π(level)	T_1/2(level)	Comments
4140	(2,1)+		XREF: d(4132).
4156.53	5-	0.11 ps 3	XREF: d(4164)h(4190).
4159.5	1	7.7 fs 25	XREF: d(4159).
4181.7			XREF: c(?).
4205.2	(4,3)+		XREF: c(?).
4236.71	6+	0.13 ps 4	E(level): Band based on 2⁺.
4319.1	(4,3)+		XREF: c(?)k(4340).
4362.1	(2,1,3)+		XREF: d(4351).
4370	3-		XREF: d(4385)h(4370)k(4410).
4470	(0+)		XREF: k(4480).
4560			XREF: c(?).
4608.75	(1)		XREF: d(4593).
4634.87	7-	94 ps 6	μ=1.6 3 (1983Ba69,2020StZV) XREF: M(4650)d(4648).
4664	(1)	41 fs 12	XREF: Y(?).
4684	(1-:5-)		XREF: d(4702).
4823.5	(5,6,7)		XREF: d(4831).
4980.87	7-	1.3 ps 4	XREF: d(4970). E(level): Band based on 3-.
5005	2+		XREF: k(4980).
5066.8			XREF: c(?).
5307			XREF: M(5300).
5495	(4+)		XREF: Z(5500).
5699.38	(8-)		XREF: M(5700).
6031.5	(8+)		E(level): Band based on 2⁺.
6124.7	(9-)		E(level): Band based on 3-.
6377.0	(7,8,9-)		XREF: J(6390).
E(level)	J^π(level)	T_1/2(level)	Comments
7380			XREF: M(7400).
7579.1	(11-)		E(level): Band based on 3-.
9948.4	(12-)		E(level): Collective (strongly coupled) band based,α=0.
10460.2	(13-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
11023.4	(14-)		E(level): Collective (strongly coupled) band based,α=0.
11464	(15)		E(level): Strongly coupled band,α=1.
11626.4	(15-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
12335.7	(16-)		E(level): Collective (strongly coupled) band based,α=0.
12468	(16)		E(level): Strongly coupled band,α=0.
13082.1	(17-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
13324	(17)		E(level): Strongly coupled band,α=1.
13948.1	(18-)		E(level): Collective (strongly coupled) band based,α=0.
14391	(18)		E(level): Strongly coupled band,α=0.
14862.5	(19-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
15.42E3	1-	4.6 MeV +16-15	%EWSR=19 for E1 isoscalar giant dipole resonance (ISGDR) strength.
15423.6	(19)		E(level): Strongly coupled band,α=1.
15.7E3	2+	6.43 MeV 65	%EWSR=113 for E2 isoscalar giant quadrupole resonance (ISGQR) strength.
15945.0	(20-)		E(level): Collective (strongly coupled) band based,α=0.
16686.8	(20)		E(level): Strongly coupled band,α=0.
17087.2	(21-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
17853	(21)		E(level): Strongly coupled band,α=1.
18.34E3	0+	9.21 MeV 114	%EWSR=64 for E0 isoscalar giant monopole resonance (ISGMR) strength.
18483.3	(22-)		E(level): Collective (strongly coupled) band based,α=0.
19365	(22)		E(level): Strongly coupled band,α=0.
19775.6	(23-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
E(level)	J^π(level)	T_1/2(level)	Comments
20657	(23)		E(level): Strongly coupled band,α=1.
21297.5	(24-)		E(level): Collective (strongly coupled) band based,α=0.
22892.7	(25-)		E(level): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02). Collective (strongly coupled) band,α=1.
24868.6	(26-)		E(level): Collective (strongly coupled) band based,α=0.
25.6E3	1-	12.6 MeV 32	%EWSR=68 for E1 isoscalar giant dipole resonance (ISGDR) strength.

E(level)	E(gamma)	Comments
991.54	991.53	E(γ): NRM weighted average of 10 values from different datasets where uncertainties are given. This procedure increases the uncertainty in one of the discrepant values (991.16 4 in (²⁸Si,4pγ) E=115 MeV) from 0.04 keV to 0.15 keV. Regular weighted average is 991.37 7, but with reduced χ²=6.9, while unweighted average is 991.41 8. Removal of the 991.16 4 value gives weighted average of 991.56 5
1799.41	807.85	E(γ): NRM weighted average of ten values.
1799.41	1799.34	E(γ): weighted average of ten values I(γ): NRM weighted average of ten values. Weighted average is 30.3 16, but with reduced χ²=15
1910.26	918.77	E(γ): weighted average of five values I(γ): from ⁶⁴Ga ε decay M(γ): from ce data in (p,p’γ)
1910.26	1910	M(γ): transition seen only in ce data from (p,p’γ)
2306.72	1315.15	E(γ): weighted average of seven values
2609.52	1617.93	E(γ): NRM weighted average of five values M(γ): from ce data in (p,p’γ)
2609.52	2610	M(γ): transition seen only in ce data from (p,p’γ)
2736.57	429.77	E(γ): NRM weighted average of eight values I(γ): weighted average of eight values.
	937.17	E(γ): weighted average of nine values
	1745.4	E(γ): weighted average of three values with consistent Iγ values I(γ): NRM weighted average of three values. Others: 23 6 (n,n’γ); 33 (p,p’γ); 42 4 in (p,γ) E=2050 keV; 154 13 in (p,γ) E=2098 keV are too high and in severe disagreement
2979.94	1180.58	E(γ): weighted average of three values
2998.54	2007.03	E(γ): NRM weighted average of eight values
3005.73	2014.3	E(γ): weighted average of three values
3005.73	3005.5	E(γ): weighted average of three values I(γ): weighted average of two values
3077.77	341.2	E(γ): weighted average of three values I(γ): from ⁵⁴Fe,2pγ). Others: 120 13 (α,nγ),(¹¹B,2npγ); 38 10 (α,nγ),(HI,xnγ); 24 6 (p,γ) E=2050 keV
	770.95	E(γ): weighted average of seven values
	2086.8	E(γ): weighted average of seven values. Level-energy difference=2086.2 I(γ): weighted average of four values. Others: 190 8 in (²⁸Si,4pγ) E=122 MeV; 113 9 in (α,nγ),(¹¹B,2npγ); 141 9 (p,γ) E=2025 keV are in disagreement
3094.64	1295.1	E(γ): weighted average of two values I(γ): unweighted average of three values
3094.64	2103.1	E(γ): weighted average of two values
3186.84	1276.52	E(γ): weighted average of five values I(γ): from ⁶⁴Ga ε decay. Other three available values are either imprecise or in disagreement
	1387.34	E(γ): weighted average of four values I(γ): in (α,nγ),(¹¹B,2npγ) value is low by a factor of ≈9
	2195.34	E(γ): weighted average of five values I(γ): from ⁶⁴Ga ε decay. Other three available values are either imprecise or in disagreement
3261.94	1352	I(γ): from ⁶⁴Ga ε decay
3261.94	2270.40	E(γ): weighted average of four values
E(level)	E(gamma)	Comments
3306.85	1000.15	E(γ): from (p,γ) E=2050 keV. In several in-beam studies (1998Ga11,1994Cr05, 1978Ne02), a 1000γ deexcited a level at 4078, but in (α,nγ),(¹¹B,2npγ), 1980Si02 reported the placement from 4078 level as incorrect and placed it from 3307 level, as also proposed in (p,γ). In (²⁸Si,4pγ) study of 2004Ka18, a 999.9γ is placed from both the 3307 and 4078 levels.
3369.86	2377.8	I(γ): weighted average of values from (α,nγ),(¹¹B,2npγ); (p,γ) E=2050 keV; and (n,n’γ)
3458.66	2467.1	I(γ): from (α,nγ),(¹¹B,2npγ). Other: 144 11 in (p,γ) E=2.05 MeV
3710.0	1406	E(γ): fits poorly. Eγ=1403 from level-energy difference
4076.55	999.7	I(γ): <39 from 2004Ka18 in (²⁸Si,4pγ). Others: 33 5 (1994Cr05), 77 19 (1998Ga11), 127 21 (1978Ne02) in (α,nγ),(HI,xnγ) where a 999.7 3 γ was assigned from only the 4077 level. But 1980Si02 in (α,nγ),(¹¹B,2npγ) do not support the placement of this γ from 4077 level, based on the absence of (1000γ)(771γ) coincidences
	1340.2	E(γ): unweighted average of all available values
	1771.5	I(γ): 26 4 (1994Cr05,2004Ka18), 100 19 (1998Ga11). But this γ was not detected by 1980Si02 in (α,nγ) and (¹¹B,2npγ), the authors gave an upper limit of 0.1 for branching ratio. Placement or existence of 1773.2 10 γ in 2004Ka18 is considered uncertain
4156.53	1079.2	I(γ): unweighted average of two available intensities
	1159.0	E(γ): reported in (α,nγ),(¹¹B,2np) (1980Si02) only, considered as uncertain (evaluators)
	1850.4	E(γ): unweighted average of available values
4236.71	1935.3	E(γ): γ from (²⁸Si,4pγ) study of 2004Ka18 only. It is treated as uncertain due to poor fit in level scheme (level-energy difference gives 1930.0) and non-observation in other γ-ray studies
4319.1	3327	E(γ): from (n,n’γ)
4668.93	512.2	I(γ): from (²⁸Si,4pγ) E=115 MeV. Other: 102 15 in (⁵⁴Fe,2pγ)
	592.4	I(γ): unweighted average of two values.
	744.8	E(γ): unweighted average of available values
4980.87	824.7	I(γ): other: 100 10 in (⁵⁴Fe,2pγ)
5151.71	516.8	I(γ): from (⁵⁴Fe,2pγ)
5699.38	547.8	I(γ): from (⁵⁴Fe,2pγ). Other: 46 2 in (²⁸Si,4pγ) E=122 MeV
5699.38	1030.4	I(γ): unweighted average of two values
5951.7	1313.50	E(γ): from 1996GaZZ. Other: 1315 (2004Ka18).. Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02)
6031.5	1395.6	I(γ): from (²⁸Si,4pγ) E=115 MeV. Other: 74 3 in (²⁸Si,4pγ) E=122 MeV
6031.5	1794.5	I(γ): from (⁵⁴Fe,2pγ). Other: 112 6 in (²⁸Si,4pγ) E=115 MeV
6124.0	1887.0	I(γ): from (⁵⁴Fe,2pγ). Other: 51 3 in (²⁸Si,4pγ) E=115 MeV
6124.7	1143.8	M(γ): ΔJ=2 γ from γ(θ) in (α,nγ),(HI,xnγ) (1978Ne02) and DCO ratio (1994Cr05) in (⁵⁴Fe,2pγ). 2004Ka18, in (p,γ) E=122 MeV, propose ΔJ=1 from γγ(θ)(DCO) and γ(anisotropy) ratio, but their results seem consistent with ΔJ=2 also.
6963.0	1263.4	M(γ): from DCO ratio
E(level)	E(gamma)	Comments
6998.1	1046.45	E(γ): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02)
7118.9	993.0	E(γ): Multiply placed with intensity suitably divided I(γ): from (²⁸Si,4pγ) E=115 MeV. Iγ<25 for 997.6γ in (⁵⁴Fe,2pγ). Multiply placed with intensity suitably divided
	993.0	E(γ): Multiply placed with intensity suitably divided I(γ): from (²⁸Si,4pγ) E=115 MeV. Iγ<25 for 997.6γ in (⁵⁴Fe,2pγ). Multiply placed with intensity suitably divided
	1088.0	E(γ): unweighted average of two values
	1181.8	E(γ): unweighted average of two values I(γ): from (⁵⁴Fe,2pγ). Other: 55 3 in (²⁸Si,4pγ) E=115 MeV
8426.1	1429.1	E(γ): γ not reported in (²⁸Si,4pγ) E=122 MeV
8580.4	1462.5	E(γ): unweighted average of available values
8580.4	1583.3	E(γ): Ordering of 1314-1046-1583 cascade above the 4636, 7- level is from (²⁸Si,4pγ) (2004Ka18 and 1997Fu08). Others: 1046-1314-1583 cascade in 1998Ga11, 1047-1582 cascade in 1994Cr05 with no 1314γ reported, only the 1046γ (placed above 4636, 7- level) reported in (α,nγ),(¹¹B,2npγ) (1980Si02,1978Ne02)
10872	7513	E(γ): 7506 from level-energy difference
11120	7420	E(γ): 7410 from level-energy difference
13948.1	865.8	I(γ): other: 122 10 in (²⁸Si,4pγ) E=115 MeV
17087.2	1142.0	I(γ): other: 68 16 in (²⁸Si,4pγ) E=115 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 K L M N O P Q R S T V W X Y Z b c d e f g h i j k	0+	STABLE
991.54 5	B C D E F G H I J K L M N O P Q R S T V W X Y Z b c d e f g h i j k	2+	1.94 ps 5	991.53 5	100	E2	0.0	0+
1799.41 4	B C D E F G H J K L M O P Q R S T V W Z c d e f h j k	2+	2.0 ps 2	807.85 6 1799.34 11	100.0 16 29.6 7	E2+M1 E2	991.54 0.0	2+ 0+
1910.26 4	B H K L O P Q R T W c d e f h k	0+	0.95 ns 5	110.7 1 918.77 5 1910	3.4 11 100.0 34	[E2] E2 E0	1799.41 991.54 0.0	2+ 2+ 0+
2306.72 5	C D E F G H J K L M O P Q R S T V W Z c d e f h j k	4+	0.776 ps 28	1315.15 5	100	E2	991.54	2+
2609.52 7	B H K L O P Q R T W c d e k	0+	0.20 ps 8	809? 1617.93 19 2610	<0.5 100	[E2] E2 E0	1799.41 991.54 0.0	2+ 2+ 0+
2736.57 6	C D E F G H K L O P Q R S T W c d e h j k	4+	1.5 ps 3	429.77 13 937.17 6 1745.4 5	9.3 6 100.0 19 4.8 8	M1+E2 E2 (E2)	2306.72 1799.41 991.54	4+ 2+ 2+
2793.5 4	H K L O P Q R S T W c d e k	2+	0.049 ps 14	1802.1 4 2793.0 15 ?	100	M1+E2	991.54 0.0	2+ 0+
2979.94 15	J K L N O P Q R S T c d e	3+	0.30 ps +39-11	1180.58 15 1987.0 7	100 4 61 14	M1+E2 M1+E2	1799.41 991.54	2+ 2+
2998.54 17	C D E F J K N O P R S T W X Z b c d e f g h j k	3-	0.152 ps 4	1197 1 2007.03 18 2997	≈4 100 3 0.5 3	[E1] (E1) [E3]	1799.41 991.54 0.0	2+ 2+ 0+
3005.73 14	K L O P R T W c d e	2+	0.057 ps 8	1092 1 ? 1206.2 2 2014.3 2 3005.5 4	7.5 77 5 100 7 65 7	[E2] M1+E2 M1(+E2) E2	1910.26 1799.41 991.54 0.0	0+ 2+ 2+ 0+
3071.4 7	O e	(1,2+)		1272 1 3071 1	100 39		1799.41 0.0	2+ 0+
3077.77 13	C D E F G K L M O P Q S T W c d h j k	4+	0.55 ps 6	341.2 3 770.95 15 2086.8 3	11 1 100 10 78 9	M1(+E2) M1+E2 E2	2736.57 2306.72 991.54	4+ 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3094.64 9	K L O P Q R T V W c d e	(3)+	0.090 ps 11	1295.1 2 2103.1 1	19 9 100 7	[M1+E2] M1+E2	1799.41 991.54	2+ 2+
3186.84 6	B K L P R T c d e	1+	0.042 ps 10	577.3 1 1276.52 16 1387.34 10 2195.34 10 3186.8 2	0.76 15 47.6 11 100.0 26 80.4 18 1.5 3	[M1] (M1) [M1+E2] [M1+E2] [M1]	2609.52 1910.26 1799.41 991.54 0.0	0+ 0+ 2+ 2+ 0+
3196.9 4	K P S T d e	(2,3)		1397.4 4 2205.3 8 3200 3 ?	52 5 100 5 18		1799.41 991.54 0.0	2+ 2+ 0+
3205.98 9	K L P R T c d	(3)+	0.18 ps 5	898.8 5 1295.1 7 ? 1406.57 8 2214.0 5 3205 3 ?	13 2 10 5 100.0 10 3.1 10	[M1+E2] M1+E2 [M1+E2]	2306.72 1910.26 1799.41 991.54 0.0	4+ 0+ 2+ 2+ 0+
3240 20	k	(0+)
3261.94 9	B H K L P R T W c d e	1	0.4 ps +7-2	1352 1 ? 1461.3 1 ? 2270.40 10 3261.7 2	<6 <4.5 100 5 6.2 4		1910.26 1799.41 991.54 0.0	0+ 2+ 2+ 0+
3285 3	S	(1-:5-)
3297.17 14	K L P R T c d k	(2)+	0.27 ps 5	1498 1 2305.54 14 3299 1	29 11 100 14 42 19	[M1+E2] [M1+E2] [E2]	1799.41 991.54 0.0	2+ 2+ 0+
3306.85 15	F K P d k	(4+)	0.26 ps 8	512? 1000.15 15	0.5 5 100	[E2] M1(+E2)	2793.5 2306.72	2+ 4+
3321.8 12 ?	B	(1)		1411.3 15 3322 2	100 29 58 16		1910.26 0.0	0+ 0+
3365.99 6	B K L P R S T V W Y c d e	1+	0.023 ps 8	756.58 10 1455.84 12 1566.50 18 2374.30 10 3365.80 10	9.0 5 13.9 7 15.7 9 50.5 13 100 3	[M1] [M1] [M1+E2] [M1+E2] [M1]	2609.52 1910.26 1799.41 991.54 0.0	0+ 0+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3369.86 13	K P T V W c d k	3+	0.35 ps +14-10	633.40 15 1570.3 2 2377.8 6	25 6 100 5 57 5	[M1+E2] M1+E2 [M1+E2]	2736.57 1799.41 991.54	4+ 2+ 2+
3414 3	S V k	(1-:5-)
3425.13 10	B K L P Q R T V Y c d e	1+	0.031 ps 7	419.5 4 ? 1514.7 2 1625.87 20 2433.6 2 3424.97 15	0.5 5 4.8 8 24.9 17 13.2 12 100 5	[M1+E2] [M1] [M1+E2] [M1+E2] [M1]	3005.73 1910.26 1799.41 991.54 0.0	2+ 0+ 2+ 2+ 0+
3452.0 10	T e	(1,2+)		1542 1	100		1910.26	0+
3458.66 17	K P R T c	(2,3)	0.24 ps 6	1659.2 2 2467.1 3 3455 1 ?	100 7 82 9		1799.41 991.54 0.0	2+ 2+ 0+
3465 5	d	(5,4,6)-
3500 10	W k
3538.7 10 ?	e	(2+:6+)		1232 1	100		2306.72	4+
3545.9 9 ?	P T d e	(0:3+)		284 1 359 2 1747.65 15 ?	52 100		3261.94 3186.84 1799.41	1 1+ 2+
3552.3 3	K R T d	4+	> 1.0 ps	1246.7 4 2559.7 4 3551 1 ?	100 6 85 6 42 15	M1+E2 [E2]	2306.72 991.54 0.0	4+ 2+ 0+
3586.9 21	d e			390 2	100		3196.9	(2,3)
3597.24 20	K P Q T c d e k	(2+,3,4+)		860.5 3 1290.5 3 2606.0 5	57 14 100 9 82 9		2736.57 2306.72 991.54	4+ 4+ 2+
3601.9 10	R k	(1,2+)		3602 1	100		0.0	0+
3606.5 5	J K	(0+:4+)		2614.9 5	100		991.54	2+
3620.7 10	J K	(2+:6+)		1314.0 10	100		2306.72	4+
3628.4 5	J K T d	(4)+	0.16 ps 5	2636.8 5	100	[E2]	991.54	2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3630 3 ?	J P Q	(0+,6-)
3680 3	N S W	(1-:5-)
3698.9 7	N W d e h			502.0 5	100		3196.9	(2,3)
3701.4 4	H N P W Y c	1-	0.025 ps 4	3701.3 4	100	[E1]	0.0	0+
3710.0 7	N T W d e	(2+)		1099 1 1406 1 ≈3710	7 100		2609.52 2306.72 0.0	0+ 4+ 0+
3718.4 3	K N P T W d e h	(0+:4+)	0.031 ps 10	2726.8 3	100		991.54	2+
3759 3	N S d	(1-:5-)
3780 10	N k	2+
3795.03 10	B P Q R T d e	1+		1185.4 1 1995.9 2 2803.3 3 3795.1 3	4.4 24 100 6 39 4 74 5		2609.52 1799.41 991.54 0.0	0+ 2+ 2+ 0+
3815.4 5	H K W d	(0+:4+)		2016.0 5	100		1799.41	2+
3819.65 21	H P Q T W d	(0+:4+)		2020.2 2	100		1799.41	2+
3850.5 4	K L S T V W c d	(LE 3)(+)	< 0.7 ps	1116? 2051.0 4 2859.2 6	22.0 25 100 4		2736.57 1799.41 991.54	4+ 2+ 2+
3853.27 21	K L P S T W d	5+	> 2 ps	1116.7 2 1547?	100.0 5 0.5 5	M1+E2 [M1+E2]	2736.57 2306.72	4+ 4+
3863.7 10	K W d	(2+:6+)		1557.0 10	100		2306.72	4+
3880 3	H R	(0+:4+)
3898.5 3	H K P Q R T c d	(2+,3,4+)	0.038 ps 10	1162.5 5 2906.5 4	20 7 100 13		2736.57 991.54	4+ 2+
3924.69 16	C D E F G K L P Q d	5-	< 1.4 ps	617.9 5 848 926.2 5 1187.4 10 1618.4 5	8.3 5 19 4 16 1 100 1	[E1] [E1] E2 [E1] E1+M2	3306.85 3077.77 2998.54 2736.57 2306.72	(4+) 4+ 3- 4+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3932.0 4	K d k	(4,5)		935? 1625.3 4	100		2998.54 2306.72	3- 4+
3951.9 6	K T c d h k	(4+,3+)		2960.4 6	100		991.54	2+
3993.36 8	C D E F G K L d	6+	0.12 ps 3	1686.60 6	100	E2	2306.72	4+
4020.4 4	K P T d k	(2)+		1283.4 7 3029.0 5	100 20 100 20		2736.57 991.54	4+ 2+
4039.7 4	K P T d	(0+:4+)		3048.1 4	100		991.54	2+
4076.55 20	C D E F K L T d	(5)+	0.49 ps +24-17	999.7 6 ? 1340.2 4 1771.5 2 ?	100.0 16	M1+E2	3077.77 2736.57 2306.72	4+ 4+ 4+
4110 3	T d k	(2)+
4140 3	N T d e	(2,1)+		≈4140			0.0	0+
4153.1 22 ?	N P d
4156.53 19	C D E F K L M N S T W d h	5-	0.11 ps 3	851 1079.2 4 1159.0 4 ? 1850.4 8	43 11 46 10 100 10	(E1) [E2] [E1]	3306.85 3077.77 2998.54 2306.72	(4+) 4+ 3- 4+
4159.5 18	N P W Y d	1	7.7 fs 25	3168 4159	85 100		991.54 0.0	2+ 0+
4181.7 5	J K N W c d			1875.0 5 2381 2 ?			2306.72 1799.41	4+ 2+
4205.2 4	N P Q T W c d k	(4,3)+		3213.6 4	100		991.54	2+
4219 10	N d k	(4)+
4236.71 10	C D E F G K L N d	6+	0.13 ps 4	1500.1 3 1935.3 7 ?	100.0 22 45 3	E2 (E2)	2736.57 2306.72	4+ 4+
4260 3	T
4288.6 4	K Z d k	(4)+		1552.0 4	100		2736.57	4+
4304.1 22	S k	(1-:5-)
4310 3	T
4319.1 22	T W c d k	(4,3)+		3327 3			991.54	2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4362.1 22	S T W d k	(2,1,3)+
4370 3	T W d h k	3-
4380 3	T
4420 3	T V W d	(4,3)+
4454.68 15	B V W Y c d	1+	3.2 fs 6	2544.4 2 2655.2 2 3462.4 10 4454.3 10	20 4 34 6 5.8 12 100 6	[M1] [M1+E2] [M1+E2] [M1]	1910.26 1799.41 991.54 0.0	0+ 2+ 2+ 0+
4470 3	T V W d k	(0+)
4488 10	W d	(4,3,5)+
4504 10	d
4522 10	d
4538 10	d	(4,3,5)+
4560 3	T c d			3564 3 ?			991.54	2+
4573 10	J d k	(1-,0-,2-)
4608.75 20	B d	(1)		3617.1 2 4609 2	100 18 ≈32		991.54 0.0	2+ 0+
4615 10	d	(4,3,5)+
4626 10	d
4634.87 9	C D E F G K L M d h	7-	94 ps 6	398.17 6 641.48 5	20.7 9 100.0 6	E1 E1	4236.71 3993.36	6+ 6+
4638.2 5	d
4664 3	Y d k	(1)	41 fs 12	4664			0.0	0+
4668.93 19	C D E F L d k	(6-)		512.2 2 592.4 1 744.8 6	19 4 67 11 100 8	D D(+Q) D(+Q)	4156.53 4076.55 3924.69	5- (5)+ 5-
4684 3	S d k	(1-:5-)
4713.15 21	B d	(1)		2103.6 2 2913 2 ? 4712 2	100 23 6 ≈11		2609.52 1799.41 0.0	0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4729 10	d
4751 10	W d k	(4+,3+,5+)
4761 10	W d h k
4786 10	W d k	(4+,3+,5+)
4797 10	W d
4816 10	W d k	(2+,1+,3+)
4823.5 6	L d k	(5,6,7)		746.9 5			4076.55	(5)+
4851 10	d k	(4+,3+,5+)
4902 10	d k	(4+,3+,5+)
4935 10	d k	(3-,2-,4-)
4947 10	d k	(2+)
4980.87 17	C D E F G K L d	7-	1.3 ps 4	743.5 10 824.7 2 1056.1 1	7.0 9 21.0 11 100.0 17	[E1] E2 E2	4236.71 4156.53 3924.69	6+ 5- 5-
5005 10	W d k	2+
5038 10	W d k
5050 10	V W d h k	(0:3)(+)
5066.8 20	V W c d k			2760 2 ?			2306.72	4+
5081 10	W d k
5110 10	N W d k
5121 10	N W d	(2,1,3)+
5138 10	N W d
5151.71 12	C F L N W d k	(7-)		516.8 1 1227.3 2	57 7 100 14	Q	4634.87 3924.69	7- 5-
5160 10	N W d k
5171 10	W d k
5191 10	N W d k	(3,2,4)-
5197 10	N d
5211 10	N d k
5224 10	N d k
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5234 10	N d k
5256 10	N d
5267 10	N d
5292 10	N W d
5307 10	M W d
5319 10	W d
5329 10	W d
5337 10	d
5351 10	d
5361 10	d
5375 10	d h	(3-)
5384 10	d
5398 10	d
5413 10	d
5425 10	d
5443 10	d
5457 10	d
5474 10	d
5485 10	V d	(0:3)(+)
5495 10	Z d	(4+)
5517 10	d
5530 10	d
5545 10	d
5553 10	d
5564 10	d
5576 10	d
5588 10	d
5601 10	d
5613 10	d
5623.75 21	C D E F L d	(8-)		954.8 1 990 1	100 3	Q	4668.93 4634.87	(6-) 7-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5642 10	d
5652 10	d
5665 10	d
5676 10	d
5689 10	d
5699.38 18	C F L M d	(8-)		547.8 2 1030.4 2 1064.0 4	7 2 88 11 100 5	D Q	5151.71 4668.93 4634.87	(7-) (6-) 7-
5719 10	d
5729 10	d
5737 10	d
5760 10	d
5770 10	d
5780 10	d
5792 10	d
5812 10	d h
5822 10	d
5833 10	d
5844 10	d
5860 10	d
5872 10	d
5882 10	d
5893 10	d
5909 10	d
5920 10	d
5933 10	d
5936.0 7	C D E F	(8+)		1698.5 10 1942.8 10	33 7 100 6	(Q)	4236.71 3993.36	6+ 6+
5951.7 5	E F L d	(9-)		328 971.1 5 1313.50 16	≈12 100	Q	5623.75 4980.87 4638.2	(8-) 7-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6031.5 4	C D E F	(8+)		1395.6 10 1794.5 17 2038.9 5	22 3 67 6 100 6	Q	4634.87 4236.71 3993.36	7- 6+ 6+
6124.0 4	C D E F	(8+)		502 1488.5 10 1887.0 4 2130.6 6	47 3 19 4 100 4	Q Q	5623.75 4634.87 4236.71 3993.36	(8-) 7- 6+ 6+
6124.7 4	C D E L	(9-)		1143.8 4	100	Q	4980.87	7-
6262.1 6	C	(7,8,9-)		1627.2 6	100		4634.87	7-
6300 50	M
6377.0 22	F J	(7,8,9-)		1741			4634.87	7-
6700 50	M
6830	J
6963.0 4	C	(9)		838.3 3 1263.4 5	100 11 36 7	D	6124.7 5699.38	(9-) (8-)
6998.1 5	C D E F G K L	(11-)	0.97 ps 21	1046.45 10	100	E2	5951.7	(9-)
7000	Z	(4+)
7062.4 4	F	(10-)		1363.0 4	100	Q	5699.38	(8-)
7118.9 4	C D E F	(10+)		993.0 10 993.0 10 1088.0 5 1166 1181.8 13	134 6 101 5 100 5 29 1	Q Q	6124.0 6124.7 6031.5 5951.7 5936.0	(8+) (9-) (8+) (9-) (8+)
7212.4 7	F	(11-)		1260.3 7	100	Q	5951.7	(9-)
7334.7 5	C	(10+)		1210.7 3	100	Q	6124.0	(8+)
7380	M Y
7556.2 22	F	(10-)		1605			5951.7	(9-)
7579.1 4	C	(11-)		1454.3 2	100	Q	6124.7	(9-)
7806.0 10	C	(10+)		1869.9 7	100	Q	5936.0	(8+)
7900 50	M
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7902 3	C	(9,10,11-)		1776.9			6124.7	(9-)
7946.5 21	C	(10+)		1915 2	100	Q	6031.5	(8+)
8157.1 21	C	(10+)		2221 2	100	(Q)	5936.0	(8+)
8181.1 11	F	(10-)		2229.8			5951.7	(9-)
8302.8 6	F	(12-)		1304.9 5	100		6998.1	(11-)
8322.1 22	F	(11)		1204			7118.9	(10+)
8426.1 4	D E F	(11-)		1307.15 9 1429.1 10 2048	100 3 16.7 18		7118.9 6998.1 6377.0	(10+) (11-) (7,8,9-)
8580.4 5	C D E F	(12+)		154.30 5 259 1462.5 10 1583.3 10	2.5 3 100 4 87 3	Q	8426.1 8322.1 7118.9 6998.1	(11-) (11) (10+) (11-)
8995.4 10	C	(12+)		1189.4 3	100	Q	7806.0	(10+)
9363.7 8	F	(11-)		1808 3414			7556.2 5951.7	(10-) (9-)
9440.3 6	F	(11-)		2321.9 9	100		7118.9	(10+)
9666 3	E F	(14)		1086			8580.4	(12+)
9772 2	R	(2+)		5873 5892 5975 6172 6224 6313 6344 6407 6469 6514 6569 6585 6681 6768 6795 6977 7040 7162 7464 7861 7972 8782 9772	7.4 16 10 4 11 3 11 4 17.4 23 11 4 12.3 23 11 3 16 4 8.0 28 19.6 22 12.4 13 21 6 20.7 14 20.9 26 17.1 14 9.7 26 7.9 29 16 6 10.0 7 93 29 100 9 36 7		3898.5 3880 3795.03 3601.9 3545.9 3458.66 3425.13 3365.99 3306.85 3261.94 3205.98 3186.84 3094.64 3005.73 2979.94 2793.5 2736.57 2609.52 2306.72 1910.26 1799.41 991.54 0.0	(2+,3,4+) (0+:4+) 1+ (1,2+) (0:3+) (2,3) 1+ 1+ (4+) 1 (3)+ 1+ (3)+ 2+ 3+ 2+ 4+ 0+ 4+ 0+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9803.5 7	F	(11-)		1622.5 8 2743	100 62		8181.1 7062.4	(10-) (10-)
9948.4 6	F	(12-)		508.1 5 584.8 5 2886 1 2950 1	86 5 25 2 100 5	D Q D	9440.3 9363.7 7062.4 6998.1	(11-) (11-) (10-) (11-)
10.31E3 50	Q			6110 6390 6410 6490 6510 6680 6710 6890 7220 7230 7330 7520 7570 7700 8000 8400 8510 9320 10310	6.9 12 3.4 11 8.6 14 12.2 16 9.5 19 2.3 9 11.2 17 12.4 19 22 4 14 4 25 4 25 3 20 3 6.9 12 26 3 11.0 17 60 7 100 12 45 6		4205.2 3924.69 3898.5 3819.65 3795.03 3630 3597.24 3425.13 3094.64 3077.77 2979.94 2793.5 2736.57 2609.52 2306.72 1910.26 1799.41 991.54 0.0	(4,3)+ 5- (2+,3,4+) (0+:4+) 1+ (0+,6-) (2+,3,4+) 1+ (3)+ 4+ 3+ 2+ 4+ 0+ 4+ 0+ 2+ 2+ 0+
10460.2 6	D F	(13-)		512.0 5 656.7 5 1020.0 5 2158.3 9 3247 1 3461 1	50.0 17 100 3 72 3 48.3 17 92 3	Q Q Q	9948.4 9803.5 9440.3 8302.8 7212.4 6998.1	(12-) (11-) (11-) (12-) (11-) (11-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10872	S	(3-)		6568 6719 7113 7192 7458 7513 7588? 7674 7799 7871 7891 8080 8134 8568 9073 9881 10872?	26 16 11 16 21 11 26 32 74 26 47 42 26 47 100 5.3		4304.1 4153.1 3759 3680 3414 3365.99 3285 3196.9 3071.4 2998.54 2979.94 2793.5 2736.57 2306.72 1799.41 991.54 0.0	(1-:5-) (1-:5-) (1-:5-) (1-:5-) 1+ (1-:5-) (2,3) (1,2+) 3- 3+ 2+ 4+ 4+ 2+ 2+ 0+
10906	S	(3-)		6222 6541 6601 6752 7051 7061 7621 7707 7832 7904 7924 8113 8167 8601 9106 9914 10906?	7.7 12 15 19 12 12 12 15 19 58 12 19 12 15 38 100 3.9		4684 4362.1 4304.1 4153.1 3853.27 3850.5 3285 3196.9 3071.4 2998.54 2979.94 2793.5 2736.57 2306.72 1799.41 991.54 0.0	(1-:5-) (2,1,3)+ (1-:5-) 5+ (LE 3)(+) (1-:5-) (2,3) (1,2+) 3- 3+ 2+ 4+ 4+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11023.4 6	D F	(14-)		563.3 3 1074.7 5 2720 1	100.0 5 24.3 6 1.68 15	D	10460.2 9948.4 8302.8	(13-) (12-) (12-)
11120	T	(2+)		6560 6650 6700 6740 6750 6760 6800 6810 6860 6910 6960 6980 7010 7040 7080 7100 7170 7220 7268 7270 7300 7320 7400 7420 7490 7520 7570 7575 7660 7670 7690 7750 7755 7820 7860 7910 7920 7930 8020 8040 8110 8120 8140 8330 8380 8510 8810 9210 9320 10130 11120	≥6.1 ≥5.3 ≥3.4 ≥2.6 ≥5.3 ≥2.5 3.4 2 ≥1.9 ≥6.7 9.9 3 6 4 ≥2.3 ≥1.1 1.5 3 11.5 24 4 4 1.29 14 10.6 10 ≥2.5 9 8 11.0 24 6.2 24 ≥6.7 9.5 4 3.2 13 7 5 7 5 8 6 13 4 ≥1.8 8.6 24 29 11 16 3 37 3 15.3 24 32 7 3.5 3 13.4 19 25 11 20 8 25 3 35 16 36.4 24 37.0 6 19.6 15 6.5 13 36.8 15 27 4 57 9 100 4 48 3		4560 4470 4420 4380 4370 4362.1 4319.1 4310 4260 4205.2 4159.5 4140 4110 4076.55 4039.7 4020.4 3951.9 3898.5 3853.27 3850.5 3819.65 3795.03 3718.4 3710.0 3628.4 3597.24 3552.3 3545.9 3458.66 3452.0 3425.13 3369.86 3365.99 3297.17 3261.94 3205.98 3196.9 3186.84 3094.64 3077.77 3005.73 2998.54 2979.94 2793.5 2736.57 2609.52 2306.72 1910.26 1799.41 991.54 0.0	(0+) (4,3)+ 3- (2,1,3)+ (4,3)+ (4,3)+ 1 (2,1)+ (2)+ (5)+ (0+:4+) (2)+ (4+,3+) (2+,3,4+) 5+ (LE 3)(+) (0+:4+) 1+ (0+:4+) (2+) (4)+ (2+,3,4+) 4+ (0:3+) (2,3) (1,2+) 1+ 3+ 1+ (2)+ 1 (3)+ (2,3) 1+ (3)+ 4+ 2+ 3- 3+ 2+ 4+ 0+ 4+ 0+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11464 4	F	(15)		1792?			9666	(14)
11626.4 7	D F	(15-)		603.0 3 1166 1	100.0 4 51.0 4	D Q	11023.4 10460.2	(14-) (13-)
12335.7 7	D F	(16-)		709.5 3 1312.5 9	100 6 88 6		11626.4 11023.4	(15-) (14-)
12468 4	F	(16)		1003			11464	(15)
13082.1 7	D F	(17-)		746.4 3 1455.2 5	100.0 5 100 6	D	12335.7 11626.4	(16-) (15-)
13324 4	F	(17)		856 1860			12468 11464	(16) (15)
13948.1 8	D F	(18-)		865.8 5 1613.3 6	45.0 5 100.0 19	D Q	13082.1 12335.7	(17-) (16-)
14391 3	F	(18)		1067 1924			13324 12468	(17) (16)
14857 6	F
14862.5 8	D F	(19-)		914.5 5 1779.6 6	97.1 10 100.0 10	D Q	13948.1 13082.1	(18-) (17-)
15.42E3 94	h	1-	4.6 MeV +16-15
15423.6 25	F	(19)		561 1032 2099			14862.5 14391 13324	(19-) (18) (17)
15.7E3 5	h	2+	6.43 MeV 65
15939 7	F
15945.0 9	D F	(20-)		1082.1 5 1997.4 6	45.8 10 100.0 13	Q	14862.5 13948.1	(19-) (18-)
16686.8 25	F	(20)		742 1263 2296			15945.0 15423.6 14391	(20-) (19) (18)
17084 5	F
17087.2 10	D F	(21-)		1142.0 5 2225.1 10	19 4 100.0 18	Q	15945.0 14862.5	(20-) (19-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
17853 4	F	(21)		769 1167 2429			17087.2 16686.8 15423.6	(21-) (20) (19)
18.34E3 70	h	0+	9.21 MeV 114
18483.3 11	D F	(22-)		1395.6 9 2538.6 10	28.4 14 100.0 20	Q	17087.2 15945.0	(21-) (20-)
19365 4	F	(22)		2678			16686.8	(20)
19775.6 13	D F	(23-)		1292 2688.5 10	100 5	Q	18483.3 17087.2	(22-) (21-)
20657 5	F	(23)		2804			17853	(21)
21297.5 15	F	(24-)		1523 2814 1	100 4		19775.6 18483.3	(23-) (22-)
22892.7 17	F	(25-)		3117 1	100		19775.6	(23-)
24868.6 18	F	(26-)		3571 1			21297.5	(24-)
25.6E3 12	h	1-	12.6 MeV 32