List of levels for 62NI

ADOPTED LEVELS, GAMMAS for ⁶²Ni

Authors: Balraj Singh, Huang Xiaolong, and Wang Xianghan | Citation: Nucl. Data Sheets 204, 1 (2025) | Cutoff date: 30-Jun-2023

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-3958.9 keV 5	S(n)= 10595.7 keV 3	S(p)= 11137.2 keV 7	Q(α)= -7016.1 keV 4
Reference: 2021WA16

References:
A	⁶²Co β^- decay (1.54 M)	B	⁶²Co β^- decay (13.86 M)
C	⁶²Cu ε decay (9.672 M)	D	²⁶Mg(⁴⁸Ca,2A4NG)
E	⁴⁸Ca(¹⁸O,4nγ)	F	⁵⁸Fe(⁶Li,d)
G	⁵⁸Fe(¹⁶O,¹²C)	H	⁵⁹Co(α,pγ)
I	⁶⁰Ni(t,p),(pol t,p)	J	⁶⁰Ni(α,²He)
K	⁶⁰Ni(¹²C,¹⁰C),(¹⁴C,¹²C),	L	⁶⁰Ni(¹⁸O,¹⁶OG)
M	⁶¹Ni(n,γ) E=THERMAL	N	⁶¹Ni(n,γ):Resonances
O	⁶¹Ni(d,p),(pol d,p)	P	⁶²Ni(γ,γ’)
Q	⁶²Ni(E,E’)	R	⁶²Ni(n,n’γ)
S	⁶²Ni(p,p’),(pol p,p’)	T	⁶²Ni(p,p’γ)
U	⁶²Ni(d,d’),(pol d,d’)	V	⁶²Ni(³He,³He’),(³He,DP)
W	⁶²Ni(α,α’)	X	Coulomb Excitation
Y	⁶³Cu(n,d)	Z	⁶³Cu(n,NPG)
a	⁶³Cu(d,³He),(pol d,³He)	b	⁶³Cu(⁶Li,⁷Be),(⁹Be,¹⁰B)
c	⁶⁴Ni(p,t)	d	⁶⁴Zn(¹⁴C,¹⁶O)
e	⁶⁵Cu(p,α)	f	⁶⁶Zn(α,2α)

⁶²Ni isotope identified in mass spectroscopic data by 1934As04.

Other Reactions:

2016Mo15: ¹¹⁶Sn(⁶⁰Ni,⁶²Ni),E=245 MeV. Measured Ni-like fragments using PRISMA spectrometer, and γ rays using AGATA demonstrator array of highly segmented Ge detectors at Legnaro accelerator facility. α weak peak at 1173 keV seen, corresponding to transition from the first 2⁺ state, with deduced yield of <0.00145. No evidence was found for the population of the 2340, 4⁺ level.

⁶³Cu(γ,p): 1975We11, 1971We06, 1968Ab10; g.s. and first 2⁺ levels

⁶⁵Zn(n,α): 1984Em01: E=thermal, FWHM=50-60 keV, measured σ(θ) for g.s. and first 2⁺ level

⁶⁶Zn(d,⁶Li): 1973Ce02: E=27.25 MeV, Si telescopes, FWHM=400 keV, σ(θ) for g.s. and first 2⁺ state

Theoretical structure calculations:

2022Ba29: calculated rms charge radii, isotope shifts using Skyrme and D1MTd Gogny effective interactions.

2022Ga13: analyzed experimental investigations of multiple nuclear shape coexistence.

2022Ko04: calculated ground state energy, charge rms radius using coupled cluster (α) and ab-initio density functional theory.

2022Ku16: calculated potential energy surface, binding energy, S(2n), charge, neutron and proton rms radii, neutron skin thickness using Skyrme parameterizations.

2021Hu26: calculated energies of the lowest bands based on the νg_9/2² configuration, root mean square angular momentum components along the medium, short, and long axes of the rotor, valence neutrons, and total angular momentum, probability density profiles for the orientation of the angular momentum on the plane for the doublet bands using covariant density functional theory and quantum particle rotor model; suggested transverse wobbling in ⁶²Ni.

2020So01: calculated total binding energy, S(2n), rms charge radius using state-of-the-art no-core shell model and self-consistent Green’s function approaches with NN+3N interaction

2015Co17: calculated energies of three-phonon levels, B(E2), anharmonic vibrators using leading order (LO) and next-to-leading-order (NLO) effective field theory (EFT) for nuclear vibrations, with Bayesian statistics for quantification of theoretical uncertainties.

2015Fr06: calculated energy levels, Jπ, B(E2), signatures for triaxiality using triaxial projected shell Model.

Other 33 theoretical structure references from 2018-2022 are listed ’document’ records in this dataset. Retrieval of the NSR database shows other 230 primary theory references from 1970-2017 related to structure of ⁶²Ni.

Q-value: S(2n)=18415.8 3, S(2p)=19911 3 (2021Wa16)

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 O P Q R S T U V W X Y Z a b c d e f	0+	STABLE
1172.91 3	A B C D E F G H I J K L M O P Q R S T U V W X Y Z a b c d e f	2+	1.442 ps 21	1172.89 3	100	E2	0.0	0+
2048.55 8	C F H I K L M O P R S T U W a c e	0+	1.40 ps 51	875.63 7 2048.4	100	E2 E0	1172.91 0.0	2+ 0+
2301.85 7	A B C F H I K M O P Q R S T V W Z a c e f	2+	0.64 ps 14	1128.88 10 2301.78 11	76.8 22 100.0 33	M1+E2+E0 E2	1172.91 0.0	2+ 0+
2336.46 9	B D E F G H I J K M O R S T U V W X Y Z a c e f	4+	0.88 ps 21	1163.49 10	100	E2	1172.91	2+
2890.63 15	C F G H I L M O R S T U c e	0+	> 3.1 ps	1717.80 25	100	E2	1172.91	2+
3058.79 12	A H I M O R S T W Z a c e	(2)+	2.3 ps +14-7	722.21 23 756.90 20 1885.9 3 3060 2 ?	48 4 96 8 100 10	(E2) (M1+E2) (M1+E2)	2336.46 2301.85 1172.91 0.0	4+ 2+ 2+ 0+
3157.95 12	A C F H I M O P R S T U W Y c e	2+	0.62 ps +11-10	856.08 12 1984.98 28 3158.2 9	12.3 5 100 4 47 5	M1+E2 (M1+E2) E2	2301.85 1172.91 0.0	2+ 2+ 0+
3177.0 3	B D E H R S c e	4+	0.73 ps 17	843.4 4 ? 875.0 4 2003.9 4	6.9 11 100.0 32	[E2] E2	2336.46 2301.85 1172.91	4+ 2+ 2+
3257.66 18	A C G H J M R S T c e	2+	0.71 ps 17	369 955.65 28 2084.6 4 3257.4 10	3.75 21 100 3 3.3 4	M1+E2 E2	2890.63 2301.85 1172.91 0.0	0+ 2+ 2+ 0+
3260.2 13	F G I J S e	(2+)&(4+)
3270.18 19	A C G J M O P R e	1+,2+	0.125 ps 14	968.2 4 1221.0 26 2097.32 26 3271.2 10	>12.1 <97.6 100 13 23.3 28		2301.85 2048.55 1172.91 0.0	2+ 0+ 2+ 0+
3277.19 19	B D E G H I J R U W c	4+	0.31 ps 11	2104.20 25	100	E2	1172.91	2+
3369.97 14	A C H M O P R S e	1+	0.30 ps 8	479.36 6 1067.66 26 1321.22 33 3369.91 29	2.8 4 15.6 25 13.0 13 100 16	[M1] M1+E2 [M1] (M1)	2890.63 2301.85 2048.55 0.0	0+ 2+ 0+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3378 3	H e			2205 3	100		1172.91	2+
3462 3	H O S T c e	1+,2+,3+,4+		2289 3	100		1172.91	2+
3474.0 10	L	(0+)		2301			1172.91	2+
3486 3	H			1184 3	100		2301.85	2+
3518.70 12	A C H I M O P R S T U W a c e	2+	0.41 ps 21	360.5 4 459.54 25 1470.1 5 2345.71 20 3519.07 21	2.58 27 9.6 8 13.1 8 100 5 8.5 15	(M1+E2) E2 (M1+E2) E2	3157.95 3058.79 2048.55 1172.91 0.0	2+ (2)+ 0+ 2+ 0+
3522.65 14	H M R a e	(3)+	0.39 ps 22	264.94 25 464.47 32 1185.98 18 1220.88 26	1.9 4 18 10 49.4 8 100 11	E2+M1	3257.66 3058.79 2336.46 2301.85	2+ (2)+ 4+ 2+
3524.4 4	F G L R c e	0+	0.7 ps +5-2	2351.4 4	100	E2	1172.91	2+
3756.7 3	F G H I J M O Q R S T U V W c	3-	0.158 ps 31	1454.76 32 2583.9 5	90.7 8 100 8	[E1] (E1)	2301.85 1172.91	2+ 2+
3849.57 25	M P S	(0,1,2)		579.42 20 1548.0 5	100 11 91 36		3270.18 2301.85	1+,2+ 2+
3852.0 10 ?	L S	(0+)		2679?			1172.91	2+
3859.6 4	C H I M O P S T U Y c	(2)+	0.277 ps +17-9	968.2 4 3861.2 11	33 13 100 13	[E2] [E2]	2890.63 0.0	0+ 0+
3910?	O
3967 3	H S			1665 3	100		2301.85	2+
3973.0 4	H I M O P T c	2+	0.111 ps 35	450.4 7 703.1 6 2799.4 5 3972.0 15	2.2 11 11 4 100 39 67 11	[E2]	3522.65 3270.18 1172.91 0.0	(3)+ 1+,2+ 2+ 0+
4000.5 10	H S T W a c	4+	0.042 ps +28-21	1664	100		2336.46	4+
4010.9 15	H O a c		> 0.90 ps	2837.9 15	100		1172.91	2+
4016.52 24	D E H S a c	6+	0.62 ps 28	1681.5 8	100	E2	2336.46	4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4041.4 8	O S T a			885 1738			3157.95 2301.85	2+ 2+
4054.98 25	B H J S Y a c e	4+	0.042 ps 14	777.5 3 1718.8 5 1753.5 8 2882.3 5	26.1 29 100 8 8.7 29 16.0 15	[E2] [E2]	3277.19 2336.46 2301.85 1172.91	4+ 4+ 2+ 2+
4062.5 5	A H I M O P Y a e	1+,2+		1761.0 5 2015 4062.6 10	100 20 90 10		2301.85 2048.55 0.0	2+ 0+ 0+
4146.0 8	H J K S T Y a c	(4+)	0.34 ps +21-11	870? 1844.1 8	100	[E2]	3277.19 2301.85	4+ 2+
4151.36 25	H J M S T a	2+,3	0.034 ps 9	1092.42 25 1815.8 8 1850.0 7	100 22 44 22 67 22		3058.79 2336.46 2301.85	(2)+ 4+ 2+
4154.2 4	H I J a c	(4+)		1817.7 3	100		2336.46	4+
4158.20 21	D E H O W	(5)-	< 1.4 ps	881.1 2 1821.4 3	30.4 22 100 7	(E1+M2) (E1+M2)	3277.19 2336.46	4+ 4+
4178.7 4	D H S U	(6+)		1001.4 5	100		3177.0	4+
4201.1 2	M S	(1+,2,3)		678.5 3	100		3522.65	(3)+
4208.8 21	M O	0+,1+,2+
4230.0 10	M P S U c	0+
4300.0 10	S T			3127			1172.91	2+
4317.1 11	I M S V c	1,2+		4318 3	100		0.0	0+
4393 7	S
4407.0 10	S T c	2+		3234			1172.91	2+
4415.9 4	I M	1,2+		1045.9 4 4416 2	100 20 80 20		3369.97 0.0	1+ 0+
4424 3	H O	0+,1+,2+		2122 3	100		2301.85	2+
4436.9 10	S T W c	(3-)		2135			2301.85	2+
4455 4	I S c
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4502.9 10	I O S T c	(3)-		2201			2301.85	2+
4610.6 10	S T	(1,2+)		2562			2048.55	0+
4623 5	I S c	0+
4627.5 10	M	2+,3		310.4 5 2289.7 15 3456 3	26 11 80 43 100 29		4317.1 2336.46 1172.91	1,2+ 4+ 2+
4643 3	O	0+,1+,2+
4644.21 23	D E H J K	7-	509 ps 24	486.0 1 627.7 1	52 3 100 4	E2 (E1+M2)	4158.20 4016.52	(5)- 6+
4655.0 10	I S T W c	3-		3482			1172.91	2+
4707.0 10	S T e			1549			3157.95	2+
4712 5	I S a c e	2+
4719.9 7	M O a e	(3)-		1661.3 7 3546 2	100 50 88 25		3058.79 1172.91	(2)+ 2+
4773.3 7	S T Y a	(2+,3,4+)		2440 3597	100 100		2336.46 1172.91	4+ 2+
4781 5	I S T W Y a c	2+
4835 7	S Y a
4847 7	S T a	(1:5)(+)
4861 5	a c e	(2+)
4861.3 4	D E O S T e	(6)-	8.39 ps 14	682.4 4 702.7 7	11.2 24 100 8	[E1] (M1+E2)	4178.7 4158.20	(6+) (5)-
4870 10	I O e	0+,1+,2+
4882 5	S a c e	4+
4949 7	O S	3-,4-,5-,6-
4967 7	S
4981 7	I J S W	4+
4994 6	O W c	3-
4999.7 8	I M S T W	1,2+		2109 3828 2 4998 2	100 18 82 18		2890.63 1172.91 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
5016 5	I S W c	4+
5041 10	O S
5071 10	O S T
5121 10	S T
5148 5	S c	(2+)
5154 10	I S	(2+,4+)
5203 5	S c	2+
5222 10	S T
5233 10	O S	0+,1+,2+
5279.9 10	K S T			2978			2301.85	2+
5286 6	I K S W c	2+
5331 10	I K O S T	(3-)
5355 5	K S c	4+
5393 10	S
5420 5	I S T c	(4+)
5447 5	I S c	0+
5465 6	S c
5481 10	O S	(1)-
5511 10	S
5.53E3 10	Q	6+
5541 5	I S a c	2+
5545 10	S
5565 10	S
5574 5	I S c	2+
5587 10	O S	0-,1-,2-,3-,4-
5601 10	S
5628 6	I S W c	3-
5632 12	O	(1)+
5673 10	J K S	(5-)
5679 8	I S c
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5688.6 4	D	(8-)		827.4 2	100	(Q)	4861.3	(6)-
5709 10	S
5739 10	S
5746.64 24	D E	(8-)	0.55 ps 21	885.0 3 1102.5 1	9.3 12 100 4	(M1+E2)	4861.3 4644.21	(6)- 7-
5772 10	S
5808 6	E S c	(3-)
5834 10	S
5846 10	O S
5859 10	S
5870 10	S
5885 8	S c	(4+)
5901 10	S W	2+
5912 8	S c	4+
5961 10	S
5979 10	S
5994 7	O S a	(1,2)-
6023 10	S
6026 10	S
6047 8	S c	(3-)
6059 10	J K S
6073 8	S c
6098 7	O S	(1)-
6126 8	S c
6133 10	S
6143 10	S
6160 9	c
6179 4	O S	(1)-
6253 9	c	(4+)
6280 2	O	(1)-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6313 9	c
6320.2 7	T	(1,2)		3060 5147 6320			3260.2 1172.91 0.0	(2+)&(4+) 2+ 0+
6354 8	c	2+
6360 5	O	1-,2-,3-,4-
6398 8	c	4+
6417 12	O	0-,1-,2-,3-,4-
6454 8	c
6482 10	O	0-,1-,2-,3-,4-
6520	S W	3-
6549 8	O a	(1,2)-
6606 5	O	(1)+
6642.6 3	D E	(9-)		896.03 27 1998.00 24	100 6 64 6	D+Q Q	5746.64 4644.21	(8-) 7-
6680	J S
6715 9	O a	(1)-
6942 7	O	(1)-
7030	S	3-
7042 8	O	(1)-
7132 5	O	(1)-
7138.2 5	D	(8+)		2493.9 4	100	D	4644.21	7-
7170.3 7	T	(1,2)		5997 7170	100 100		1172.91 0.0	2+ 0+
7190 50	J K	(8+)
7211 8	O	0-,1-,2-,3-,4-
7218.6 6	D	(10-)		1530.0 4	100	(Q)	5688.6	(8-)
7263 11	O S	(1)-
7313 10	O	1-,2-,3-,4-
7346.8 5	D	(10-)		1658.4 3	100		5688.6	(8-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7398 5	O	0-,1-,2-,3-,4-
7459 10	O	(1)+
7541 11	O	(1)-
7555.3 4	D E	(10-)	0.83 ps 42	912.7 3 1808.9 4	71 6 100 6	(M1+E2) (E2)	6642.6 5746.64	(9-) (8-)
7600	J K	(6+)
7600.5 10	S T	(1,2)		7600			0.0	0+
7645.7 3	O P	1-		3416 3585 3671 3783 3798 4129 4273 4375 4487 5597 6473 7646	1.9 3.3 4.9 3.3 0.6 2.4 3.3 3.4 2.7 25.8 6.5 100	E1	4230.0 4062.5 3973.0 3859.6 3849.57 3518.70 3369.97 3270.18 3157.95 2048.55 1172.91 0.0	0+ 1+,2+ 2+ (2)+ (0,1,2) 2+ 1+ 1+,2+ 2+ 0+ 2+ 0+
7700.5 10	O T	(1,2)-		7700			0.0	0+
7774 12	O	(1)-
7835 11	O	(1)-
7886 11	O	0-,1-,2-,3-,4-
7982 10	O	0-,1-,2-,3-,4-
8072 5	O	(1)-
8118 4	O	(1)-
8200.6 10	T	(1,2)		8200			0.0	0+
8217 5	O	(1)-
8295.5 6	D E	(10+)	< 1.4 ps	1157.3 4	100	E2	7138.2	(8+)
8340 8	O	(1)-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8375.3 4	D	(11-)		820.1 3 1732.5 3	67 11 100 11	(D+Q)	7555.3 6642.6	(10-) (9-)
8396 5	O	0-,1-,2-,3-,4-
8487 9	O	0-,1-,2-,3-,4-
8650 4	O	0-,1-,2-,3-,4-
8709.5 4	D	(10-)		1154.3 3	100	D+Q	7555.3	(10-)
8773 8	O	0-,1-,2-,3-,4-
8872 9	O	0-,1-,2-,3-,4-
8927 7	O	0-,1-,2-,3-,4-
8989.2 4	D	(12-)		613.8 2 1433.8 2	78 8 100 8	D+Q Q	8375.3 7555.3	(11-) (10-)
9070 5	O	0-,1-,2-,3-,4-
9139 10	O	0-,1-,2-,3-,4-
9186 10	O
9267 10	O
9309 16	O
9459 12	O
9526 9	O
9590 15	O
9694 15	O
9698.7 7	D	(12+)		1403.2 2	100	Q	8295.5	(10+)
9874 17	O
9924.4 4	D	(12-)		935.0 2 1215.0 3 2578.0 5	100 9 77 7 24 4	(D+Q) Q (Q)	8989.2 8709.5 7346.8	(12-) (10-) (10-)
10133 12	O	0-,1-,2-,3-,4-
10242 15	O
10321 15	O	0-,1-,2-,3-,4-
10491 17	O	0-,1-,2-,3-,4-
10596.1 3 S	M	1-,2-		5596 4 5877 2 5968 2 6179 2 6277 3 6364 2 6387 2 6395 2 6445 2 6532 2 6623 2 6738 3 6748 3 6840.0 15 7073 3 7078.0 15 7326.0 15 7338 2 7436 2 7537 2 7703.4 15 8296 3 8551.3 15 9422.3 5 10594.6 7	3.0 20 6 2 14 2 20 4 8 4 10 6 8 4 10 6 24 4 36 8 34 6 24 6 26 6 30 14 72 14 96 8 28 6 40 6 26 12 16 4 92 10 100 10 74 16		4999.7 4719.9 4627.5 4415.9 4317.1 4230.0 4208.8 4201.1 4151.36 4062.5 3973.0 3859.6 3849.57 3756.7 3522.65 3518.70 3270.18 3257.66 3157.95 3058.79 2890.63 2301.85 2048.55 1172.91 0.0	1,2+ (3)- 2+,3 1,2+ 1,2+ 0+ 0+,1+,2+ (1+,2,3) 2+,3 1+,2+ 2+ (2)+ (0,1,2) 3- (3)+ 2+ 1+,2+ 2+ 2+ (2)+ 0+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10597.0 3	N	(1-)
10598.8 3	N	[1]+
10599.0 3	N	2-
10602.0 3	N	[1]+
10602.1 3	N	[1]+
10602.7 3	N	1-
10603.1 3	N	2-
10604.3 3	N	2-
10605.5 3	N	(0:3)+
10605.7 3	N	[1]+
10606.4 3	N
10606.9 3	N
10607.3 3	N
10608.1 3	N	2-
10608.8 3	N	[1]+
10609.1 3	N	2-
10609.5 3	N	2+
10609.8 3	N	[1]+
10610.9 3	N	(0:3)+
10611.2 3	N	(0:3)+
10612.0 3	N	1-
10612.2 3	N	(0:3)+
10613.2 3	N	1-
10614.2 3	N	2-
10615.7 3	N	(0:3)+
10616.0 3	N	(0:3)+
10616.7 3	N	(0:3)+
10616.9 3	N	[1]+
10619 19	O	0-,1-,2-,3-,4-
10619.9 3	N	1-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10620.6 3	N	(0:3)+
10621.4 3	N	(0:3)+
10621.8 3	N	(0:3)+
10622.5 3	N	(0:3)+
10623.0 3	N	(0:3)+
10623.3 3	N	(0:3)+
10623.4 3	N	2-
10624.2 3	N	1-
10624.3 3	N	2-
10625.3 3	N	(0:3)+
10625.8 3	N	2-
10626.2 3	N	1-
10626.9 3	N	2-
10627.8 3	N	2-
10628.8 3	N	1-
10629.7 3	N	[1]+
10631.1 3	N	(0:3)+
10632.1 3	N	1-
10632.2 3	N	2-
10632.4 3	N	[1]+
10636.3 3	N	1-
10638.2 3	N
10638.5 3	N	2-
10640.3 3	N	1-
10640.4 3	N	(2)+
10641.0 3	N	1-
10641.5 3	N	[1]-
10645.3 3	N	2-
10645.5 3	N	2-
10646.2 3	N	[1]+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10646.3 3	N	[1]+
10647.3 3	N	[1]+
10648.0 3	N	2-
10649.5 3	N	1-
10651.2 3	N	2-
10652.7 3	N	2-
10652.9 3	N	2-
10654.0 3	N	[1]+
10655.4 3	N	2-
10655.5 3	N	2-
10657.9 3	N	[1]+
10658.3 3	N	[1]+
10658.6 3	N	2-
10660.3 3	N	2-
10662.9 3	N	2-
10664.1 3	N	2-
10664.2 3	N	1-
10665.3 3	N	[1]+
10667.4 3	N	2-
10671.7 3	N	2-
10671.8 3	N	1-
10673.3 3	N	[1]+
10673.5 3	N	2-
10674.8 3	N	2-
10677.2 3	N	1-
10677.5 3	N	1-
10678.4 3	N	2-
10681.0 3	N	[1]+
10682.7 3	N	1-
10688.2 3	N	2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10690.6 3	N	1-
10690.8 3	N	2+
10691.1 3	N	[1]+
10692.1 3	N	1-
10692.4 3	N	2-
10695.6 3	N	2-
10698.6 3	N	1-
10699.1 3	N	2-
10699.9 3	N	1-
10702.1 3	N	2-
10703.2 3	N	[1]+
10703.4 3	N	2-
10703.9 3	N	[1]+
10704.6 3	N	[1]+
10706.1 3	N	2-
10708.3 3	N	2-
10711.1 3	N	2-
10712.0 3	N	1-
10712.7 3	N	2-
10714.2 3	N	2-
10714.9 3	N	2-
10716.5 3	N	2-
10719.1 3	N	2-
10720.6 3	N	2-
10721.0 3	N	1-
10721.7 3	N	2-
10723.7 3	N	1-
10724.4 3	N	1-
10724.7 3	N	2-
10729.6 3	N	2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10730.7 3	N	2-
10731.6 3	N	2-
10734.2 3	N	2-
10735.3 3	N	1-
10736.0 3	N	2-
10736.7 3	N	2-
10738.5 3	N	2-
10740.6 3	N	1-
10741.1 3	N	2-
10742.6 3	N	2-
10746.2 3	N	2-
10747.0 3	N	1-
10747.9 3	N	2-
10748.4 3	N	2-
10749.6 3	N	1-
10752.2 3	N	1-
10753.0 3	N	2-
10754.8 3	N	2-
10757.7 3	N	1-
10759.6 3	N	1-
10760.5 3	N	2-
10763.7 3	N	2-
10766.0 3	N	2-
10766.9 3	N	1-
10769.7 3	N	1-
10772.3 3	N	2-
10774.6 3	N	2-
10776.4 3	N	2-
10778.2 3	N	1-
10781.5 3	N	2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10786.4 3	N	1-
10787.7 3	N	2-
10790.9 3	N	2-
10793.2 3	N	1-
10795.9 3	N	2-
10798.4 3	N	[1]+
10799.0 3	N	1-
10800.5 3	N	[1]+
10802.1 3	N	3+
10802.9 3	N	2-
10804.5 3	N	3+
10805.8 3	N	[1]+
10807.0 3	N	2-
10810.2 3	N	2-
10812.4 3	N	2-
10817.0 3	N	2-
10819.1 3	N	2-
10822.6 3	N	2-
10824.3 4	N	2-
10824.4 5	N	1-
10827.7 3	N	2-
10828.4 3	N	1-
10832.1 3	N	2-
10832.2 5	N	1-
10845.6 3	N	2-
10849.8 3	N	1-
10851.3 3	N	2-
10855.2 3	N	2-
10858.6 3	N	2-
10868.6 3	N	2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10876.0 3	N	2-
10878.8 3	N	2-
10882.4 3	N	2-
10884.3 3	N	2-
10885.6 3	N	2-
10888.1 3	N	2-
10891.1 3	N	2-
11335.2 7	D	(14+)		1636.5 3	100	(Q)	9698.7	(12+)
11478.0 5	D	(14-)		1553.6 2	100	Q	9924.4	(12-)
13288.4 8	D	(16+)		1953.2 3	100	Q	11335.2	(14+)
13441.8 5	D	(16-)		1963.8 3	100	Q	11478.0	(14-)
15554.5 9	D	(18+)		2266.0 4	100	Q	13288.4	(16+)
15875.0 8	D	(18-)		2433.1 5	100	Q	13441.8	(16-)
18187.9 10	D	(20+)		2633.4 5	100	(Q)	15554.5	(18+)
18669.7 10	D	(20-)		2794.7 6	100	(Q)	15875.0	(18-)
21315.5 11	D	(22+)		3127.5 3	100	(Q)	18187.9	(20+)
21851.8 22	D	(22-)		3182 2	100	(Q)	18669.7	(20-)
25453 5	D	(24-)		3601 4	100		21851.8	(22-)

E(level): From a least-squares fit for levels connected by γ rays; and from ⁶⁴Ni(p,t), ⁶²Ni(p,p’), and ⁶¹Ni(d,p) for levels not populated in γ-ray studies. Exceptions are noted

J^π(level): For high-spin levels (J>6 or so), assignments are generally based on ΔJ and multipolarities for γ transitions deduced from γ(θ) data in ²⁶Mg(⁴⁸Ca,2α4nγ) (2016Al18), combined with band associations. Further, ascending spins with increasing excitation energy are assumed due to the yrast nature of population of levels in heavy-ion in-beam γ-ray spectroscopy. Exceptions are noted.

T_1/2(level): For excited states, half-lives have been measured in ⁴⁸Ca(¹⁸O,4nγ) (1978Wa09) using recoil-distance method (RDM) and DSAM for 2336, 4018, 4160, 4648, 4862, 5750, 5805 and 7518 levels; and in ⁵⁹Co(α,pγ) (1978Ke11,1978Oh04) using DSAM and line-shape analysis for 1173, 2048, 2302, 2336, 2890, 3059, 3158, 3176, 3258, 3277, 3371, 3520, 3522, 3757, 3862, 3977, 4000, 4010, 4018, 4055, 4146 and 4151 levels; and in ⁶²Ni(n,n’γ) (2011Ch05) using DSAM for 1173, 2048, 2302, 2336, 3158, 3176, 3258, 3277, 3371, 3518, 3522 and 3757 levels. In addition, half-life of the 1173 level has been deduced from width measurement in (γ,γ’) (1981Ca10); and from DSAM (2001Ke08,1965Es01) and B(E2) measurements (2014Al20,1971ChZT,1970Le17,1969Ha31,1962St02,1960An07) in Coulomb excitation

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - Ground-state band
0.0	0+	STABLE
1172.91 3	2+	1.442 ps 21	1172.89 3	100	E2	0.0	0+
2336.46 9	4+	0.88 ps 21	1163.49 10	100	E2	1172.91	2+
4016.52 24	6+	0.62 ps 28	1681.5 8	100	E2	2336.46	4+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - γ-cascade based on 7-
4644.21 23	7-	509 ps 24
5746.64 24	(8-)	0.55 ps 21	885.0 3 1102.5 1	9.3 12 100 4	(M1+E2)	4861.3 4644.21	(6)- 7-
6642.6 3	(9-)		896.03 27 1998.00 24	100 6 64 6	D+Q Q	5746.64 4644.21	(8-) 7-
7555.3 4	(10-)	0.83 ps 42	912.7 3 1808.9 4	71 6 100 6	(M1+E2) (E2)	6642.6 5746.64	(9-) (8-)
8375.3 4	(11-)		820.1 3 1732.5 3	67 11 100 11	(D+Q)	7555.3 6642.6	(10-) (9-)
8989.2 4	(12-)		613.8 2 1433.8 2	78 8 100 8	D+Q Q	8375.3 7555.3	(11-) (10-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Rotational band based on (8⁺).
7138.2 5	(8+)
8295.5 6	(10+)	< 1.4 ps	1157.3 4	100	E2	7138.2	(8+)
9698.7 7	(12+)		1403.2 2	100	Q	8295.5	(10+)
11335.2 7	(14+)		1636.5 3	100	(Q)	9698.7	(12+)
13288.4 8	(16+)		1953.2 3	100	Q	11335.2	(14+)
15554.5 9	(18+)		2266.0 4	100	Q	13288.4	(16+)
18187.9 10	(20+)		2633.4 5	100	(Q)	15554.5	(18+)
21315.5 11	(22+)		3127.5 3	100	(Q)	18187.9	(20+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Rotational band based on (10-).
8709.5 4	(10-)
9924.4 4	(12-)		935.0 2 1215.0 3 2578.0 5	100 9 77 7 24 4	(D+Q) Q (Q)	8989.2 8709.5 7346.8	(12-) (10-) (10-)
11478.0 5	(14-)		1553.6 2	100	Q	9924.4	(12-)
13441.8 5	(16-)		1963.8 3	100	Q	11478.0	(14-)
15875.0 8	(18-)		2433.1 5	100	Q	13441.8	(16-)
18669.7 10	(20-)		2794.7 6	100	(Q)	15875.0	(18-)
21851.8 22	(22-)		3182 2	100	(Q)	18669.7	(20-)
25453 5	(24-)		3601 4	100		21851.8	(22-)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1172.91	2+	1.442 ps 21	1172.89 3	E2		1.72×10^-4	B(E2)(W.u.)=12.13 18, α=1.72E-4 2
2048.55	0+	1.40 ps 51	875.63 7	E2		3.35×10^-4	B(E2)(W.u.)=54 +31-15, α=3.35E-4 5
2301.85	2+	0.64 ps 14	1128.88 10	M1+E2+E0	+3.1 1	2.44×10^-4	B(E2)(W.u.)=13.0 +36-24, B(M1)(W.u.)=9.8E-4 +29-18, α=2.44E-4 14
2301.85	2+	0.64 ps 14	2301.78 11	E2		5.04×10^-4	B(E2)(W.u.)=0.53 +15-10, α=5.04E-4 7
2336.46	4+	0.88 ps 21	1163.49 10	E2		1.74×10^-4	B(E2)(W.u.)=21 +7-4, α=1.74E-4 2
2890.63	0+	> 3.1 ps	1717.80 25	E2		2.55×10^-4	α=2.55×10^-4 4
3058.79	(2)+	2.3 ps +14-7	722.21 23	(E2)		5.58×10^-4	B(E2)(W.u.)=17 +8-6, α=5.58E-4 8
3157.95	2+	0.62 ps +11-10	856.08 12	M1+E2		0.00031	α=0.00031 4
	2+	0.62 ps +11-10	1984.98 28	(M1+E2)	+0.13 8	3.05×10^-4	B(E2)(W.u.)=0.021 +35-18, B(M1)(W.u.)=0.0028 5, α=3.05E-4 5
	2+	0.62 ps +11-10	3158.2 9	E2		8.74×10^-4	B(E2)(W.u.)=0.059 +12-10, α=8.74E-4 12
3177.0	4+	0.73 ps 17	875.0 4	[E2]		3.36×10^-4	B(E2)(W.u.)=6.7 +23-16, α=3.36E-4 5
3177.0	4+	0.73 ps 17	2003.9 4	E2		3.70×10^-4	B(E2)(W.u.)=1.54 +46-30, α=3.70E-4 5
3257.66	2+	0.71 ps 17	2084.6 4	M1+E2	+1.03 +22-70	3.75×10^-4	B(E2)(W.u.)=0.67 +25-31, B(M1)(W.u.)=0.0016 +10-4, α=3.75E-4 27
3257.66	2+	0.71 ps 17	3257.4 10	E2		9.15×10^-4	B(E2)(W.u.)=0.0046 +16-10, α=9.15E-4 13
3277.19	4+	0.31 ps 11	2104.20 25	E2		4.15×10^-4	B(E2)(W.u.)=3.0 +17-8, α=4.15E-4 6
3369.97	1+	0.30 ps 8	479.36 6	[M1]		9.59×10^-4	B(M1)(W.u.)=0.014 +6-4, α=9.59×10^-4 13
	1+	0.30 ps 8	1067.66 26	M1+E2	+1.6 +41-11	1.98×10^-4	B(E2)(W.u.)=8.0 +39-61, B(M1)(W.u.)=0.0020 +40-16, α=1.98E-4 17
	1+	0.30 ps 8	1321.22 33	[M1]		1.40×10^-4	B(M1)(W.u.)=0.0032 +14-8, α=1.40×10^-4 2
	1+	0.30 ps 8	3369.91 29	(M1)		8.54×10^-4	B(M1)(W.u.)=0.0015 +6-3, α=8.54×10^-4 12
3518.70	2+	0.41 ps 21	459.54 25	(M1+E2)		0.00042	α=0.00042 7
	2+	0.41 ps 21	1470.1 5	E2		1.79×10^-4	B(E2)(W.u.)=1.4 +12-5, α=1.79E-4 3
	2+	0.41 ps 21	2345.71 20	(M1+E2)	+0.32 6	4.54×10^-4	B(E2)(W.u.)=0.09 +9-4, B(M1)(W.u.)=0.0028 +25-10, α=4.54E-4 7
	2+	0.41 ps 21	3519.07 21	E2		1.01×10^-3	B(E2)(W.u.)=0.011 +10-4, α=1.01E-3 1
3522.65	(3)+	0.39 ps 22	1185.98 18	E2+M1	-21 +8-43	1.70×10^-4	B(E2)(W.u.)=12 +12-5, α=1.70E-4 2
3524.4	0+	0.7 ps +5-2	2351.4 4	E2		5.26×10^-4	B(E2)(W.u.)=0.77 +31-30, α=5.26E-4 7
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
3756.7	3-	0.158 ps 31	1454.76 32	[E1]		2.76×10^-4	B(E1)(W.u.)=4.2E-4 +11-7, α=2.76E-4 4
3756.7	3-	0.158 ps 31	2583.9 5	(E1)		1.03×10^-3	B(E1)(W.u.)=8.3E-5 +20-14, α=1.03E-3 1
3859.6	(2)+	0.277 ps +17-9	968.2 4	[E2]		2.61×10^-4	B(E2)(W.u.)=41 +12-14, α=2.61E-4 4
3859.6	(2)+	0.277 ps +17-9	3861.2 11	[E2]		1.14×10^-3	B(E2)(W.u.)=0.123 +13-15, α=1.14E-3 2
3973.0	2+	0.111 ps 35	3972.0 15	[E2]		1.18×10^-3	B(E2)(W.u.)=0.13 +8-4, α=1.18E-3 2
4016.52	6+	0.62 ps 28	1681.5 8	E2		2.42×10^-4	B(E2)(W.u.)=4.7 +35-15, α=2.42E-4 3
4054.98	4+	0.042 ps 14	1753.5 8	[E2]		2.68×10^-4	B(E2)(W.u.)=3.2 +21-12, α=2.68E-4 4
4054.98	4+	0.042 ps 14	2882.3 5	[E2]		7.60×10^-4	B(E2)(W.u.)=0.49 +26-13, α=7.60E-4 11
4146.0	(4+)	0.34 ps +21-11	1844.1 8	[E2]		3.03×10^-4	B(E2)(W.u.)=5.4 +26-20, α=3.03E-4 4
4158.20	(5)-	< 1.4 ps	881.1 2	(E1+M2)	-0.24 6	1.61×10^-4	α=1.61×10^-4 14
4158.20	(5)-	< 1.4 ps	1821.4 3	(E1+M2)	-0.16 6	5.35×10^-4	α=5.35×10^-4 10
4644.21	7-	509 ps 24	486.0 1	E2		1.81×10^-3	B(E2)(W.u.)=0.96 +7-6, α=1.81E-3 3
4644.21	7-	509 ps 24	627.7 1	(E1+M2)	-0.19 4	3.23×10^-4	B(E1)(W.u.)=2.18E-6 12, B(M2)(W.u.)=0.91 +40-34, α=3.23E-4 19
4861.3	(6)-	8.39 ps 14	682.4 4	[E1]		2.32×10^-4	B(E1)(W.u.)=1.63E-5 +35-33, α=2.32E-4 3
4861.3	(6)-	8.39 ps 14	702.7 7	(M1+E2)		0.00051	α=0.00051 9
5746.64	(8-)	0.55 ps 21	1102.5 1	(M1+E2)		1.79×10^-4	α=1.79×10^-4 14
7555.3	(10-)	0.83 ps 42	912.7 3	(M1+E2)		2.71×10^-4	α=2.71×10^-4 31
7555.3	(10-)	0.83 ps 42	1808.9 4	(E2)		2.89×10^-4	B(E2)(W.u.)=1.4 +13-5, α=2.89E-4 4
7645.7	1-		7646	E1			B(E1)(W.u.)=6.5E-5
8295.5	(10+)	< 1.4 ps	1157.3 4	E2		1.76×10^-4	α=1.76×10^-4 3

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	Measured δ<r²>(⁶²Ni,⁵⁸Ni)=+0.5000 fm² 48; δ<r²>(⁶²Ni,⁶⁰Ni)=+0.2266 fm² 48; δ<r²>(⁶⁴Ni,⁶²Ni)=+0.1365 fm² 48 (2021Ko18, collinear laser spectroscopy using BECOLA facility at NSCL-MSU). E(level): Measured δ<r²>(⁶²Ni,⁵⁸Ni)=+0.5000 fm² 48; δ<r²>(⁶²Ni,⁶⁰Ni)=+0.2266 fm² 48; δ<r²>(⁶⁴Ni,⁶²Ni)=+0.1365 fm² 48 (2021Ko18, collinear laser spectroscopy using BECOLA facility at NSCL-MSU). Ground-state band.
1172.91	2+	1.442 ps 21	μ=+0.33 5 (2001Ke02,2019StZV), Q=+0.05 12 (1974Le13,2021StZZ), B(E2)=0.0885 30 1. Deduced from BE2\|^ measurement in Coulomb excitation: 2.25 45 (1960An07, earlier value of 1.40 35 in 1959Al95), 2.23 22 (1962St02), 2.20 13 (1969Ha31), 2.05 6 (1970Le17), 2.09 7 (1971ChZF), 2.03 8 (2014Al20). E(level): 1. Deduced from BE2\|^ measurement in Coulomb excitation: 2.25 45 (1960An07, earlier value of 1.40 35 in 1959Al95), 2.23 22 (1962St02), 2.20 13 (1969Ha31), 2.05 6 (1970Le17), 2.09 7 (1971ChZF), 2.03 8 (2014Al20). Ground-state band.
2048.55	0+	1.40 ps 51	XREF: W(2020).
2336.46	4+	0.88 ps 21	XREF: t(2330). E(level): Ground-state band.
3058.79	(2)+	2.3 ps +14-7	XREF: I(3041?)t(3050)W(3030).
3277.19	4+	0.31 ps 11	XREF: W(3270)c(3271).
3462	1+,2+,3+,4+		XREF: e(3473).
3518.70	2+	0.41 ps 21	XREF: C(?)t(3510).
3524.4	0+	0.7 ps +5-2	XREF: F(3519)γ(3520).
3756.7	3-	0.158 ps 31	B(E3)=0.020 3 (1967Du07,2002Ki06) XREF: J(3730)t(3740).
3859.6	(2)+	0.277 ps +17-9	XREF: S(3853)t(3850)c(3853).
3973.0	2+	0.111 ps 35	XREF: t(3960)c(3969).
4000.5	4+	0.042 ps +28-21	XREF: t(3980)W(4010)c(3997).
4010.9		> 0.90 ps	XREF: O(?).
4016.52	6+	0.62 ps 28	E(level): Ground-state band.
4041.4			XREF: O(?)t(4040).
4054.98	4+	0.042 ps 14	XREF: c(4049).
4062.5	1+,2+		XREF: O(4058).
4146.0	(4+)	0.34 ps +21-11	XREF: K(4200)t(4130).
4151.36	2+,3	0.034 ps 9	XREF: t(4140).
4158.20	(5)-	< 1.4 ps	α 1001γ was placed from the 4158 level in ⁵⁹Co(α,pγ) by 1978Oh04, but such a placement was not confirmed in any of the other in-beam γ-ray studies. E(level): α 1001γ was placed from the 4158 level in ⁵⁹Co(α,pγ) by 1978Oh04, but such a placement was not confirmed in any of the other in-beam γ-ray studies.
4208.8	0+,1+,2+		XREF: O(4206).
4407.0	2+		XREF: t(4400)c(4409).
4436.9	(3-)		XREF: W(4430).
4502.9	(3)-		XREF: O(4516).
E(level)	J^π(level)	T_1/2(level)	Comments
4644.21	7-	509 ps 24	XREF: J(4630).
4655.0	3-		XREF: t(4640)W(4650).
4719.9	(3)-		XREF: O(4721).
4781	2+		XREF: W(4790).
4861.3	(6)-	8.39 ps 14	XREF: t(4870).
4949	3-,4-,5-,6-		XREF: O(4952).
4994	3-		XREF: O(5004).
5233	0+,1+,2+		XREF: O(5240).
5286	2+		XREF: W(5310).
5481	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
5541	2+		XREF: a(5540).
5587	0-,1-,2-,3-,4-		XREF: O(5581).
5628	3-		XREF: W(5640).
5632	(1)+		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
5673	(5-)		XREF: J(5660).
5846			XREF: O(5843).
5901	2+		XREF: W(5930).
6098	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
6179	(1)-		XREF: S(6170). J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
6280	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
6520	3-		XREF: W(6530).
6549	(1,2)-		XREF: a(6540).
6606	(1)+		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
6680			XREF: J(6620).
6715	(1)-		XREF: a(6750). J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
E(level)	J^π(level)	T_1/2(level)	Comments
6942	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7042	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7132	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7138.2	(8+)		E(level): Rotational band based on (8⁺).
7263	(1)-		XREF: S(7260). J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7459	(1)+		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7541	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7600.5	(1,2)		XREF: S(7620).
7645.7	1-		XREF: O(7644).
7700.5	(1,2)-		XREF: O(7703).
7774	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
7835	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
8072	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
8118	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
8217	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
8295.5	(10+)	< 1.4 ps	E(level): Rotational band based on (8⁺).
8340	(1)-		J^π(level): J=1 or (1) assigned by 2023Sp03 from ⁶²Ni(γ,γ’) in a paper to be published (ref. 53 in 2023Sp03); partial data from (γ,γ’) are presented in Fig. 8d of 2023Sp03. As details of (γ,γ’) data are not available, evaluators consider J=1 assignments as tentative, thus placed in parentheses.
8709.5	(10-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
9698.7	(12+)		E(level): Rotational band based on (8⁺).
9924.4	(12-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
10597.0	(1-)		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10598.8	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10599.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10602.0	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10602.1	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10602.7	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10603.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10604.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10605.5	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10605.7	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10608.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10608.8	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10609.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10609.5	2+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10609.8	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10610.9	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10611.2	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10612.0	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10612.2	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10613.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10614.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10615.7	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10616.0	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10616.7	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10616.9	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10619.9	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10620.6	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10621.4	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10621.8	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10622.5	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10623.0	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10623.3	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10623.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10624.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10624.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10625.3	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10625.8	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10626.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10626.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10627.8	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10628.8	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10629.7	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10631.1	(0:3)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10632.1	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10632.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10632.4	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10636.3	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10638.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10640.3	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10640.4	(2)+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10641.0	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10641.5	[1]-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10645.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10645.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10646.2	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10646.3	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10647.3	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10648.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10649.5	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10651.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10652.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10652.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10654.0	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10655.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10655.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10657.9	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10658.3	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10658.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10660.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10662.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10664.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10664.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10665.3	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10667.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10671.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10671.8	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10673.3	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10673.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10674.8	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10677.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10677.5	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10678.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10681.0	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10682.7	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10688.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10690.6	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10690.8	2+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10691.1	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10692.1	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10692.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10695.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10698.6	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10699.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10699.9	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10702.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10703.2	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10703.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10703.9	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10704.6	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10706.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10708.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10711.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10712.0	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10712.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10714.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10714.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10716.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10719.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10720.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10721.0	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10721.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10723.7	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10724.4	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10724.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10729.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10730.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10731.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10734.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10735.3	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10736.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10736.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10738.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10740.6	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10741.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10742.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10746.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10747.0	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10747.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10748.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10749.6	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10752.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10753.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10754.8	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10757.7	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10759.6	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10760.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10763.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10766.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10766.9	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10769.7	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10772.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10774.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10776.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10778.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10781.5	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10786.4	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10787.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10790.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10793.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10795.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10798.4	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10799.0	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10800.5	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10802.1	3+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10802.9	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10804.5	3+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10805.8	[1]+		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10807.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10810.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10812.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10817.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10819.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10822.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10824.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10824.4	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10827.7	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10828.4	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10832.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10832.2	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10845.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10849.8	1-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10851.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10855.2	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10858.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10868.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10876.0	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10878.8	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10882.4	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10884.3	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10885.6	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
E(level)	J^π(level)	T_1/2(level)	Comments
10888.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
10891.1	2-		E(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28). J^π(level): Neutron resonance, Jπ from R-matrix analysis (2006Ko28).
11335.2	(14+)		E(level): Rotational band based on (8⁺).
11478.0	(14-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
13288.4	(16+)		E(level): Rotational band based on (8⁺).
13441.8	(16-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
15554.5	(18+)		E(level): Rotational band based on (8⁺).
15875.0	(18-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
18187.9	(20+)		E(level): Rotational band based on (8⁺).
18669.7	(20-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
21315.5	(22+)		E(level): Rotational band based on (8⁺).
21851.8	(22-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).
25453	(24-)		E(level): From ²⁶Mg(⁴⁸Ca,2α4nγ). Rotational band based on (10-).

E(level)	E(gamma)	Comments
1172.91	1172.89	E(γ): weighted average of 1172.9 2 from ⁶²Co β^- decay (1.54 min) and ⁶²Co β^- decay (13.86 min), 1172.97 10 from ⁶²Cu ε decay (9.672 min), 1172.72 18 from ⁴⁸Ca(¹⁸O,4nγ), 1173.2 3 from ⁵⁹Co(α,pγ), 1172.80 10 and 1172.88 3 from ⁶¹Ni(n,γ), 1172.95 11 from ⁶²Ni(n,n’γ), and 1172.91 9 from (γ,γ’). Other: 1172.1 1 from ²⁶Mg(⁴⁸Ca,2α4nγ) seems discrepant. M(γ): ΔJ=2, quadrupole in ⁴⁸Ca(¹⁸O,4nγ) and ⁶²Ni(n,n’γ); and RUL
2048.55	875.63	E(γ): weighted average of 875.66 11 from ⁶²Cu ε decay (9.672 min), 875.6 4 from ⁵⁹Co(α,pγ), 875.64 8 and 875.37 12 from ⁶¹Ni(n,γ), 875.69 7 from ⁶²Ni(n,n’γ). M(γ): ΔJ=2, quadrupole in ⁶¹Ni(n,γ); and RUL
2048.55	2048.4	E(γ): a 2048.4-keV E0 transition observed in (p,p’γ) (1981Pa10) with B(E0 to g.s.)/B(E2 to 1173)=0.028 5 from measured Ice(K)(2048γ)/Ice(K)(876γ)=0.084 11 (1981Pa10)
2301.85	1128.88	E(γ): weighted average of 1128.9 2 from ⁶²Co β^- decay (1.54 min), 1129.0 3 from ⁶²Co β^- decay (13.86 min), 1128.98 10 from ⁶²Cu ε decay (9.672 min), 1129.3 3 from ⁵⁹Co(α,pγ), 1128.73 10 from ⁶¹Ni(n,γ), 1128.82 14 from ⁶²Ni(n,n’γ). I(γ): weighted average of 70.5 34 from ⁶²Co β^- decay (1.54 min), 72 11 from ⁶²Co β^- decay (13.86 min), 75 4 from ⁶²Cu ε decay (9.672 min), 72 7 from ⁵⁹Co(α,pγ), 65 8 from ⁶¹Ni(n,γ) and 80.8 20 from ⁶²Ni(n,n’γ). M(γ): γ(θ) in ⁶²Ni(n,n’γ) and RUL.
2301.85	2301.78	E(γ): weighted average of 2301.8 4 from ⁶²Co β^- decay (1.54 min), 2301.9 5 from ⁶²Co β^- decay (13.86 min), 2301.95 8 from ⁶²Cu ε decay (9.672 min), 2301.3 4 from ⁵⁹Co(α,pγ), 2301.41 12 from ⁶¹Ni(n,γ), 2301.83 30 from ⁶²Ni(n,n’γ). I(γ): weighted average of 100.0 34 from ⁶²Co β^- decay (1.54 min), 100 11 from ⁶²Co β^- decay (13.86 min), 100 5 from ⁶²Cu ε decay (9.672 min), 100 7 from ⁵⁹Co(α,pγ), 100 14 from ⁶¹Ni(n,γ) and 100.0 33 from ⁶²Ni(n,n’γ). M(γ): γ(θ) in ⁶²Ni(n,n’γ) and RUL.
2336.46	1163.49	E(γ): 1163.5 2 in ⁶²Co β^- decay (13.86 min), 1163.7 1 in ²⁶Mg(⁴⁸Ca,2α4nγ), 1163.30 18 in ⁴⁸Ca(¹⁸O,4nγ), 1162.93 25 in ⁵⁹Co(α,pγ), 1163.30 15 in ⁶¹Ni(n,γ), 1163.50 12 in ⁶²Ni(n,n’γ)
2890.63	1717.80	E(γ): weighted average of 1717.6 4 from ⁶²Cu ε decay (9.672 min), 1717.2 4 from ⁵⁹Co(α,pγ), 1718.26 25 from ⁶¹Ni(n,γ) and 1717.53 33 from ⁶²Ni(n,n’γ) M(γ): δ=-4.1 +13-30 from (n,γ) (1970Fa06). Known Jπ requires pure E2
3058.79	722.21	E(γ): weighted average of 722.6 3 from ⁵⁹Co(α,pγ), 722.0 5 from ⁶¹Ni(n,γ) and 722.02 23 from ⁶²Ni(n,n’γ) I(γ): weighted average of 52.5 75 from ⁵⁹Co(α,pγ), 38 12 from ⁶¹Ni(n,γ) and 47.3 36 from ⁶²Ni(n,n’γ)
	756.90	E(γ): weighted average of 756.8 3 from ⁶¹Ni(n,γ), 757.1 3 from ⁵⁹Co(α,pγ) and 756.85 20 from ⁶²Ni(n,n’γ) Others: 748 in ⁶²Ni(p,p’γ), 756.3 in ⁶³Cu(n,npγ) I(γ): weighted average of 91 15 from ⁶¹Ni(n,γ) and 97.5 75 from ⁵⁹Co(α,pγ). Others: 100 6 in ⁶²Ni(n,n’γ), 100 in ⁶²Ni(p,p’γ), 100 in ⁶³Cu(n,npγ)
	1885.9	E(γ): weighted average of 1886.3 12 from ⁶²Co β^- decay (1.54 min), 1885.84 34 from ⁶²Ni(n,n’γ), 1885.7 3 from ⁵⁹Co(α,pγ) and 1886.2 4 from ⁶¹Ni(n,γ). Other: 1877 in ⁶²Ni(p,p’γ) I(γ): weighted average of 100 24 from ⁶¹Ni(n,γ), 100 10 from ⁵⁹Co(α,pγ) and 100 60 from ⁶²Co β^- decay (1.54 min). Others: 91.4 76 in ⁶²Ni(n,n’γ), 42.86 in ⁶²Ni(p,p’γ)
	3060	E(γ): placement in (n,γ) with Iγ branching of 29 6 (1970Fa06) is considered as uncertain by the evaluators, as this γ was neither seen in (n,n’γ) with Iγ branching of <2% (2011Ch05), nor in (α,pγ) (1978Oh04)
3157.95	856.08	E(γ): weighted average of 856.09 12 from ⁶²Ni(n,n’γ) and 855.6 5 from ⁶¹Ni(n,γ). Other: 853 in ⁶²Ni(p,p’γ) I(γ): weighted average of 12.3 40 from ⁶²Cu ε decay (9.672 min), 12.29 51 from ⁶²Ni(n,n’γ) and 13.4 49 from ⁶¹Ni(n,γ). Other: 100 in ⁶²Ni(p,p’γ)
	1984.98	E(γ): weighted average of 1985.1 3 from ⁶¹Ni(n,γ), 1984.93 28 from ⁶²Ni(n,n’γ), 1985.0 6 from ⁶²Co β^- decay (1.54 min), 1985.0 10 from ⁶²Cu ε decay (9.672 min) and 1984.7 6 from ⁵⁹Co(α,pγ). Others: 1982 in ⁶²Ni(p,p’γ), 1987 in ⁶²Ni(γ,γ’)
	3158.2	E(γ): weighted average of 3158.0 15 from ⁶²Ni(n,n’γ), 3158.2 10 from ⁶²Co β^- decay (1.54 min), 3158.2 10 from ⁶²Cu ε decay (9.672 min), 3158.4 9 from ⁵⁹Co(α,pγ) and 3158.0 15 from ⁶¹Ni(n,γ). Other: 3155 in ⁶²Ni(p,p’γ) I(γ): weighted average of 58.0 68 from ⁶²Ni(n,n’γ), 47.6 95 from ⁶²Co β^- decay (1.54 min), 60 13 from ⁶²Cu ε decay (9.672 min), 38.9 97 from ⁵⁹Co(α,pγ) and 41.5 49 from ⁶¹Ni(n,γ). Other: 100 in ⁶²Ni(p,p’γ)
3177.0	843.4	E(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ) only, with Iγ=100 22. With such large intensity, this γ should have been detected in other studies. In (α,pγ), Iγ<9 for an uncertain 841γ. In (n,n’γ), 2011Ch05 mention that there was an indication of a 840-keV peak in the excitation function spectra, but sufficient spectroscopic information could not be extracted. This transition is considered uncertain by evaluators, and no intensity is assigned. M(γ): ΔJ=0, D+Q from γ(θ) in ²⁶Mg(⁴⁸Ca,2α4nγ); RUL suggests (M1⁺E2)
	875.0	E(γ): weighted average of 875.0 4 from ⁶²Co β^- decay (13.86 min) and 875.0 4 from ⁶²Ni(n,n’γ). Other: 875 in ⁵⁹Co(α,pγ) I(γ): weighted average of 6.8 11 from ⁶²Co β^- decay (13.86 min) and 7.0 11 from ⁶²Co β^- decay (13.86 min). Other: 14.4 in ⁵⁹Co(α,pγ)
	2003.9	E(γ): unweighted average of 2003.7 3 from ⁶²Co β^- decay (13.86 min), 2005.1 5 from ²⁶Mg(⁴⁸Ca,2α4nγ), 2003.25 25 from ⁴⁸Ca(¹⁸O,4nγ) and 2003.62 42 from ⁶²Ni(n,n’γ). I(γ): weighted average of 100.0 32 from ⁶²Co β^- decay (13.86 min), 100 7 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 100.0 42 from ⁶²Ni(n,n’γ). Other: 100 in ⁴⁸Ca(¹⁸O,4nγ) M(γ): γ(θ) in ²⁶Mg(⁴⁸Ca,2α4nγ) and ⁶²Ni(n,n’γ), and RUL
3257.66	369	E(γ): from ⁶²Ni(p,p’γ)
	2084.6	E(γ): weighted average of 2083.0 20 from ⁶²Co β^- decay (1.54 min), 2084.2 3 from ⁶¹Ni(n,γ), 2084.8 4 from ⁶²Cu ε decay (9.672 min), 2084.25 41 from ⁶²Ni(n,n’γ) and 2085.3 4 from ⁵⁹Co(α,pγ). Other: 2087 in ⁶²Ni(p,p’γ)
	3257.4	E(γ): weighted average of 3257.6 12 from ⁶²Ni(n,n’γ) and 3257.3 10 from ⁶²Cu ε decay (9.672 min) I(γ): weighted average of 3.32 43 from ⁶²Ni(n,n’γ) and 3.0 14 from ⁶²Cu ε decay (9.672 min)
3270.18	968.2	E(γ): weighted average of 968.2 5 from ⁶²Cu ε decay (9.672 min), 968.20 45 from ⁶²Ni(n,n’γ) and 968.2 4 from ⁶¹Ni(n,γ) I(γ): from ⁶²Cu ε decay (9.672 min). Others: >11.6 in ⁶²Ni(n,n’γ); <7.2 in ⁶¹Ni(n,γ)
	1221.0	E(γ): weighted average of 1221.0 3 from ⁶²Cu ε decay (9.672 min), 1221.04 26 from ⁶²Ni(n,n’γ) and 1220.8 4 from ⁶¹Ni(n,γ) I(γ): from ⁶²Cu ε decay (9.672 min). Others: <97.7 in ⁶²Ni(n,n’γ); <72.2 in ⁶¹Ni(n,γ)
	2097.32	E(γ): weighted average of 2097.0 10 from ⁶²Co β^- decay (1.54 min), 2097.6 3 from ⁶²Cu ε decay (9.672 min), 2097.3 3 from ⁶¹Ni(n,γ) and 2097.15 26 from ⁶²Ni(n,n’γ). Other: 2098 in ⁶²Ni(γ,γ’)
	3271.2	E(γ): weighted average of 3271.1 10 from ⁶²Co β^- decay (1.54 min), 3271.4 4 from ⁶²Cu ε decay (9.672 min), 3270 1 from ⁶¹Ni(n,γ) and 3270.0 22 from ⁶²Ni(n,n’γ). I(γ): weighted average of 27.3 91 from ⁶²Co β^- decay (1.54 min), 25.3 36 from ⁶²Cu ε decay (9.672 min) and 22.2 28 from ⁶¹Ni(n,γ). Other: >23.3 in ⁶²Ni(n,n’γ).
3277.19	2104.20	E(γ): weighted average of 2104.7 3 from ⁶²Co β^- decay (13.86 min), 2103.7 3 from ²⁶Mg(⁴⁸Ca,2α4nγ), 2103.78 25 from ⁴⁸Ca(¹⁸O,4nγ), 2104.5 3 from ⁵⁹Co(α,pγ) and 2104.52 32 from ⁶²Ni(n,n’γ)
E(level)	E(gamma)	Comments
3369.97	479.36	E(γ): weighted average of 479.36 6 from ⁶²Cu ε decay (9.672 min), 479.6 10 from ⁶¹Ni(n,γ) and 479.25 64 from ⁶²Ni(n,n’γ) I(γ): weighted average of 2.82 73 from ⁶²Cu ε decay (9.672 min) and 2.76 53 from ⁶²Ni(n,n’γ). Other: 25 19 in ⁶¹Ni(n,γ);
	1067.66	E(γ): weighted average of 1067.0 10 from ⁶²Cu ε decay (9.672 min), 1067.6 8 from ⁶¹Ni(n,γ) and 1067.71 26 from ⁶²Ni(n,n’γ) I(γ): weighted average of 7.7 40 from ⁶²Cu ε decay (9.672 min), 21.9 63 from ⁶¹Ni(n,γ) and 16.6 17 from ⁶²Ni(n,n’γ)
	1321.22	E(γ): weighted average of 1321.1 3 from ⁶²Cu ε decay (9.672 min), 1322.1 6 from ⁶¹Ni(n,γ) and 1321.11 33 from ⁶²Ni(n,n’γ) I(γ): weighted average of 12.9 28 from ⁶²Cu ε decay (9.672 min), 18.8 63 from ⁶¹Ni(n,γ) and 12.8 13 from ⁶²Ni(n,n’γ)
	3369.91	E(γ): weighted average of 3369.5 20 from ⁶²Co β^- decay (1.54 min), 3369.9 3 from ⁶²Cu ε decay (9.672 min), 3370 2 from ⁶¹Ni(n,γ), 3371.0 19 from ⁵⁹Co(α,pγ) and 3369.7 17 from ⁶²Ni(n,n’γ) M(γ): from γ(θ) in (n,n’γ) and RUL
3474.0	2301	E(γ): preliminary data from (¹⁸O,¹⁶Oγ)
3518.70	459.54	E(γ): weighted average of 459.74 25 from ⁶¹Ni(n,γ) and 459.30 28 from ⁶²Ni(n,n’γ) I(γ): weighted average of 7.8 11 from ⁶¹Ni(n,γ) and 10.04 54 from ⁶²Ni(n,n’γ)
	1470.1	E(γ): weighted average of 1470.4 5 from ⁶¹Ni(n,γ) and 1469.88 50 from ⁶²Ni(n,n’γ) I(γ): weighted average of 10.0 22 from ⁶¹Ni(n,γ) and 13.30 54 from ⁶²Ni(n,n’γ)
	2345.71	E(γ): weighted average of 2345.9 10 from ⁶²Co β^- decay (1.54 min), 2345 2 from ⁶²Cu ε decay (9.672 min), 2346.7 5 from ⁵⁹Co(α,pγ), 2345.64 20 from ⁶¹Ni(n,γ) and 2345.33 42 from ⁶²Ni(n,n’γ)
	3519.07	E(γ): weighted average of 3519.0 30 from ⁶²Co β^- decay (1.54 min), 3518 3 from ⁶¹Ni(n,γ) and 3519.08 21 from ⁶²Ni(n,n’γ). I(γ): weighted average of 6.3 31 from ⁶²Co β^- decay (1.54 min), 6.7 22 from ⁶¹Ni(n,γ) and 9.9 15 from ⁶²Ni(n,n’γ).
3522.65	264.94	E(γ): weighted average of 264.94 25 from ⁶¹Ni(n,γ) and 264.94 25 from ⁶²Ni(n,n’γ). I(γ): from (n,γ).
	464.47	E(γ): weighted average of 463.0 8 from ⁵⁹Co(α,pγ), 464.63 15 from ⁶¹Ni(n,γ) and 463.33 48 from ⁶²Ni(n,n’γ). I(γ): Uweighted average of 7.9 48 from ⁵⁹Co(α,pγ) and 28.9 39 from ⁶¹Ni(n,γ). Other: >5.6 in ⁶²Ni(n,n’γ).
	1185.98	E(γ): weighted average of 1186.4 5 from ⁵⁹Co(α,pγ), 1185.9 4 from ⁶¹Ni(n,γ) and 1185.94 18 from ⁶²Ni(n,n’γ). I(γ): weighted average of 50.8 80 from ⁵⁹Co(α,pγ) and 48.1 77 from ⁶¹Ni(n,γ). Other: >33.3 in ⁶²Ni(n,n’γ).
	1220.88	E(γ): weighted average of 1220.6 4 from ⁵⁹Co(α,pγ), 1220.8 4 from ⁶¹Ni(n,γ) and 1221.04 26 from ⁶²Ni(n,n’γ).
3524.4	2351.4	E(γ): from (n,n’γ)
3756.7	1454.76	E(γ): weighted average of 1454.9 5 from ⁵⁹Co(α,pγ), 1455.2 5 from ⁶¹Ni(n,γ) and 1454.53 32 from ⁶²Ni(n,n’γ). Other: 1438 in ⁶²Ni(p,p’γ) I(γ): weighted average of 80 20 from ⁶¹Ni(n,γ) and 92.3 77 from ⁶²Ni(n,n’γ). Others: 100 12 in ⁵⁹Co(α,pγ); 100 in ⁶²Ni(p,p’γ)
3756.7	2583.9	E(γ): weighted average of 2583.7 5 from ⁵⁹Co(α,pγ), 2583.6 12 from ⁶¹Ni(n,γ) and 2584.11 52 from ⁶²Ni(n,n’γ). Other: 2567 in ⁶²Ni(p,p’γ)
3852.0	2679	E(γ): preliminary data from (¹⁸O,¹⁶Oγ)
3859.6	3861.2	E(γ): weighted average of 3861.7 11 from ⁶²Cu ε decay (9.672 min), 3861.6 17 from ⁵⁹Co(α,pγ) and 3860.0 15 from ⁶¹Ni(n,γ).
3967	1665	E(γ): seen in (α,pγ), coincident with 2302γ
3973.0	2799.4	E(γ): from (n,γ). Others: 2805.2 18 in (α,pγ); 2802 in (γ,γ’) I(γ): from (n,γ). Other: 79 25 in (α,pγ)
3973.0	3972.0	E(γ): from (n,γ). Others: 3974.2 23 in (α,pγ); 3968 in (γ,γ’) I(γ): from (n,γ). Other: 100 25 in (α,pγ)
4016.52	1681.5	E(γ): Uweighted average of 1679.8 3 from ²⁶Mg(⁴⁸Ca,2α4nγ), 1682.34 21 from ⁴⁸Ca(¹⁸O,4nγ) and 1682.3 3 from ⁵⁹Co(α,pγ). M(γ): ΔJ=2, E2 in ⁴⁸Ca(¹⁸O,4nγ); ΔJ=2, Q in ²⁶Mg(⁴⁸Ca,2α4nγ)
4041.4	885	E(γ): from ⁶²Ni(p,p’γ)
4041.4	1738	E(γ): from ⁶²Ni(p,p’γ)
4054.98	1718.8	E(γ): weighted average of 1718.7 5 from ⁶²Co β^- decay (13.86 min) and 1719.1 7 from ⁵⁹Co(α,pγ). I(γ): weighted average of 100.0 73 from ⁶²Co β^- decay (13.86 min) and 100 11 from ⁵⁹Co(α,pγ).
4054.98	2882.3	E(γ): weighted average of 2882.3 5 from ⁶²Co β^- decay (13.86 min) and 2882.7 18 from ⁵⁹Co(α,pγ). I(γ): weighted average of 15.9 15 from ⁶²Co β^- decay (13.86 min) and 24 11 from ⁵⁹Co(α,pγ).
E(level)	E(gamma)	Comments
4062.5	4062.6	I(γ): weighted average of 4063.0 10 from ⁶²Co β^- decay (1.54 min) and 4061 2 from ⁶¹Ni(n,γ).. from ⁶¹Ni(n,γ)
4151.36	1092.42	I(γ): weighted average of 1092.3 3 from ⁵⁹Co(α,pγ) and 1092.50 25 from ⁶¹Ni(n,γ).
4154.2	1817.7	E(γ): evaluators assume that 1815.8γ in (n,γ) and 1817.7γ in (α,pγ) are not the same.
4158.20	881.1	M(γ): from ⁴⁸Ca(¹⁸O,4nγ); ΔJ=1, dipole in ²⁶Mg(⁴⁸Ca,2α4nγ)
4158.20	1821.4	M(γ): from ⁴⁸Ca(¹⁸O,4nγ); ΔJ=1, dipole in ²⁶Mg(⁴⁸Ca,2α4nγ)
4178.7	1001.4	E(γ): other: 1002 3 in ⁵⁹Co(α,pγ). From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
4300.0	3127	E(γ): from ⁶²Ni(p,p’γ)
4407.0	3234	E(γ): from ⁶²Ni(p,p’γ)
4436.9	2135	E(γ): from ⁶²Ni(p,p’γ)
4502.9	2201	E(γ): from ⁶²Ni(p,p’γ)
4610.6	2562	E(γ): from ⁶²Ni(p,p’γ)
4644.21	486.0	M(γ): from ⁴⁸Ca(¹⁸O,4nγ)
4644.21	627.7	M(γ): ΔJ=1, D+Q in ⁴⁸Ca(¹⁸O,4nγ) and ΔJπ; ΔJ=1, dipole in ²⁶Mg(⁴⁸Ca,2α4nγ).
4655.0	3482	E(γ): from ⁶²Ni(p,p’γ)
4707.0	1549	E(γ): from ⁶²Ni(p,p’γ)
4861.3	682.4	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
4861.3	702.7	E(γ): unweighted average of 703.4 2 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 702.02 14 from ⁴⁸Ca(¹⁸O,4nγ) I(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): from γ(θ) in ²⁶Mg(⁴⁸Ca,2α4nγ) and RUL
4999.7	2109	E(γ): from ⁶²Ni(p,p’γ)
5279.9	2978	E(γ): from ⁶²Ni(p,p’γ)
5688.6	827.4	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
5746.64	885.0	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
5746.64	1102.5	E(γ): weighted average of 1102.5 1 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 1102.41 17 from ⁴⁸Ca(¹⁸O,4nγ) I(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ). M(γ): from γ(θ) in ²⁶Mg(⁴⁸Ca,2α4nγ) and RUL. Other: (E2) in ⁴⁸Ca(¹⁸O,4nγ)
6320.2	3060	E(γ): from ⁶²Ni(p,p’γ)
	5147	E(γ): from ⁶²Ni(p,p’γ)
	6320	E(γ): from ⁶²Ni(p,p’γ)
E(level)	E(gamma)	Comments
6642.6	896.03	E(γ): unweighted average of 896.3 2 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 895.75 16 from ⁴⁸Ca(¹⁸O,4nγ) I(γ): 100 6 in ²⁶Mg(⁴⁸Ca,2α4nγ); 100 in ⁴⁸Ca(¹⁸O,4nγ) M(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ)
6642.6	1998.00	E(γ): weighted average of 1998.1 3 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 1997.94 24 from ⁴⁸Ca(¹⁸O,4nγ) I(γ): 64 6 in ²⁶Mg(⁴⁸Ca,2α4nγ); 80 in ⁴⁸Ca(¹⁸O,4nγ) M(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ)
7138.2	2493.9	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
7218.6	1530.0	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
7346.8	1658.4	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
7555.3	912.7	E(γ): unweighted average of 913.0 2 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 912.33 16 from ⁴⁸Ca(¹⁸O,4nγ) I(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ). Other: 50 in ⁴⁸Ca(¹⁸O,4nγ) M(γ): ΔJ=1, D+Q γ from γ(θ) in ²⁶Mg(⁴⁸Ca,2α4nγ). Other: ΔJ=(2), (E2) in ⁴⁸Ca(¹⁸O,4nγ).
7555.3	1808.9	E(γ): unweighted average of 1809.3 3 from ²⁶Mg(⁴⁸Ca,2α4nγ) and 1808.43 22 from ⁴⁸Ca(¹⁸O,4nγ) I(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ). Other: 100 in ⁴⁸Ca(¹⁸O,4nγ) M(γ): ΔJ=(2), (Q) γ from γ(θ) in ²⁶Mg(⁴⁸Ca,2α4nγ) and ⁴⁸Ca(¹⁸O,4nγ); RUL
7600.5	7600	E(γ): from ⁶²Ni(p,p’γ)
7645.7	3416	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	3585	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	3671	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	3783	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	3798	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	4129	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	4273	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	4375	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	4487	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	5597	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	6473	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’)
	7646	E(γ): From ⁶²Ni(γ,γ’) I(γ): From ⁶²Ni(γ,γ’) M(γ): from polarization measurement, ⁶²Ni(γ,γ’)
7700.5	7700	E(γ): from ⁶²Ni(p,p’γ)
8200.6	8200	E(γ): from ⁶²Ni(p,p’γ)
8295.5	1157.3	M(γ): from ²⁶Mg(⁴⁸Ca,2α4nγ) and RUL
8375.3	820.1	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
8375.3	1732.5	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
E(level)	E(gamma)	Comments
8709.5	1154.3	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): ΔJ=0 transition. From ²⁶Mg(⁴⁸Ca,2α4nγ)
8989.2	613.8	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
8989.2	1433.8	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
9698.7	1403.2	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
9924.4	935.0	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): ΔJ=(0) transition. From ²⁶Mg(⁴⁸Ca,2α4nγ)
	1215.0	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
	2578.0	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
10596.1	5596	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	5877	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	5968	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6179	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6277	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6364	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6387	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6395	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6445	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6532	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6623	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6738	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6748	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	6840.0	E(γ): from (n,γ)
	7073	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	7078.0	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	7326.0	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	7338	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	7436	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	7537	E(γ): from (n,γ)
	7703.4	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	8296	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	8551.3	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	9422.3	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
	10594.6	E(γ): From ⁶¹Ni(n,γ) I(γ): From ⁶¹Ni(n,γ)
E(level)	E(gamma)	Comments
11335.2	1636.5	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
11478.0	1553.6	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
13288.4	1953.2	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
13441.8	1963.8	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
15554.5	2266.0	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
15875.0	2433.1	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
18187.9	2633.4	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
18669.7	2794.7	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
21315.5	3127.5	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
21851.8	3182	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) M(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)
25453	3601	E(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ) I(γ): From ²⁶Mg(⁴⁸Ca,2α4nγ)