List of levels for 50CR

ADOPTED LEVELS, GAMMAS for ⁵⁰Cr

Authors: Jun Chen and Balraj Singh | Citation: Nucl. Data Sheets 157, 1 (2019) | Cutoff date: 15-Apr-2019

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-7634.48 keV 7	S(n)= 13000.3 keV 22	S(p)= 9589.1 keV 9	Q(α)= -8559.2 keV 5
Reference: 2017WA10

References:
A	⁵⁰V β^- decay (2.65×10¹⁷ Y):?	B	⁵⁰Mn ε decay (283.19 MS)
C	⁵⁰Mn ε decay (1.75 M)	D	²⁴Mg(³²S,α2pγ)
E	²⁸Si(²⁸Si,α2pγ)	F	⁴⁰Ca(¹⁶O,α2pγ),(¹²C,2pγ)
G	⁴⁸Ti(³He,n)	H	⁴⁸Ti(¹⁶O,¹⁴C)
I	⁵⁰V(p,nγ)	J	⁵⁰Cr(γ,γ’),(pol γ,γ’)
K	⁵⁰Cr(E,E’)	L	⁵⁰Cr(n,n’γ)
M	⁵⁰Cr(p,p’)	N	⁵⁰Cr(p,p’γ)
O	⁵⁰Cr(d,d’)	P	⁵⁰Cr(³He,³He’)
Q	⁵⁰Cr(α,α’)	R	⁵⁰Cr(α,α’γ)
S	⁵²Cr(p,t)	T	⁵⁴Fe(p,pα)
U	Coulomb Excitation

Other reactions:

1991Wi13: ⁵⁰Ti(π⁺,π^-), E=450 MeV, measured σ(θ=5^o) at LAMPF using Large Acceptance Spectrometer, deduced mass dependence for cross sections for the double-isobaric-analog state.

1973De29: ⁵⁰Cr(γ,n), E=20.43-22.22 MeV, measured σ by activation. Monochromatic γ rays from H(p,γ); FWHM=122 keV. Related results to the width of dipole state in ⁵⁰Cr.

Theory references: consult the NSR database (www.nndc.bnl.gov/nsr/) for 142 primary references dealing with various aspects of nuclear structure

Added in proofs: PRC accepted paper (April 9, 2019) by M.M. Giles et al used in the present evaluation, is now published as Phys. Rev. C 99, 044317 (2019).

Levels: Isospin (t) From ⁵²Cr(p,t).

Gammas: See (p,p’γ) and ^50mMn β⁺ decay for possible but unobserved transitions.

Q-value: S(2n)=23583 7, S(2p)=16347.3 4 (2017Wa10)

Q-value: See 1994Wi05, 1993Wi21, 1990Ha13 and 1984KoZH for Q(ε)(⁵⁰Mn) obtained for studies of super-allowed β decay. These values include atomic corrections

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 U	0+	> 1.3×10⁺¹⁸ y % 2ε = ?
783.31 10	A B C D E F G H I J K L M N O P Q R S T U	2+	9.08 ps 28	783.3 1	100	E2	0.0	0+
1881.42 19	C D E F H I K L M N O P Q R S U	4+	2.20 ps 33	1098.1 2	100	E2	783.31	2+
2924.6 4	H I K L M N O P Q S	2+	9.4 fs 14	2141.5 4 2924 2	100 5 9.0 24	(M1(+E2)) E2	783.31 0.0	2+ 0+
3161.3 4	K M N O P Q S	2+	10.9 fs 16	2378.3 5	100	M1+E2	783.31	2+
3164.06 25	C D E F K N R	6+	0.80 ps 23	1282.5 2	100	E2	1881.42	4+
3324.56 22	C E F K M N O P Q S	4+	97 fs 25	161? 1443.3 2 2541.0 3	≤3 100 7 0.8	[E2] (M1(+E2)) [E2]	3164.06 1881.42 783.31	6+ 4+ 2+
3594.63 25	H M N O P Q	2+,3,4+	30 fs 5	1713.2 3 2811.2 3	70 10 100 10		1881.42 783.31	4+ 2+
3611.4 4	E H M N O P Q S	4+	6 fs 4	449 2 ? 449 2 ? 1729.9 3	≈8 ≈8 100 11	[E2] [E2]	3164.06 3161.3 1881.42	6+ 2+ 4+
3628.9 5	B J M N	1+	0.305 eV 13	2845.5 6 3628.7 7	49 1 100	[M1] M1	783.31 0.0	2+ 0+
3698.2 5	M N O P Q S	2+	12.8 fs 18	2914.8 5	100	M1+E2	783.31	2+
3792.1 4	E F M N O	(5+)	9.0 ps 14	467.8 5 1910.8 8	100 9 100 12	D+Q (M1+E2)	3324.56 1881.42	4+ 4+
3825.7 3	C E F M N O P Q R S	(6)+	< 0.7 ps	661.6 3 1944.4 3	100 4 15.2 20		3164.06 1881.42	6+ 4+
3844.4 4	M N O P Q S	2+,3,4+	0.22 ps 6	683.4 10 1962.9 4 3060.9 6	22 6 100 11 50 11		3161.3 1881.42 783.31	2+ 4+ 2+
3850 20	B G	0+
3875.4 3	E M N O P Q	(4+,5,6+)	0.62 ps 21	551.0 3 711.1 3 1993.8 37	≈33 67 17 100 33		3324.56 3164.06 1881.42	4+ 6+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3895.4 10	H M N O P Q S	0+	24 ps +14-10	732 2 ? 3112.0 10	≈5 100 40	[E2] [E2]	3161.3 783.31	2+ 2+
3937.3 4	M N O P Q S	2+,3,4+	2.2 fs 10	1014.3 9 2055.5 4 3153.7 20	≈17 100 17 ≈83		2924.6 1881.42 783.31	2+ 4+ 2+
4040	N	(0+)
4051.7 5	M N O P Q S	3-	0.56 ps 11	441 2 ? 458 2 ? 890.6 5 1126.9 5 3267.4 14	≈5 ≈2 41 7 100 9 45 16	[E1] [E1] [E1] [E1]	3611.4 3594.63 3161.3 2924.6 783.31	4+ 2+,3,4+ 2+ 2+ 2+
4068.2 22	M N S	0+	6.5 fs 17	441 2 ? 3284.8 22	≈7 100 25	[E2]	3628.9 783.31	1+ 2+
4129.9 5	H M N	(1,2+)	0.18 ps 6	500 2 1205.3 4 4130 3 ?	≈2 38 6 ≈100		3628.9 2924.6 0.0	1+ 2+ 0+
4193.0 8	M N O P Q S	2+		494 2 ? 1268.3 8 3410.1 20 4193 3 ?	≈10 35 5 40 10 ≈100		3698.2 2924.6 783.31 0.0	2+ 2+ 2+ 0+
4207 7	M S
4282 7	M
4367.2 4	E F M O P Q S	5-	1.39 ps 35	542 575.3 3 755 1042 1203 1 2485	61 100 34 37 32		3825.7 3792.1 3611.4 3324.56 3164.06 1881.42	(6)+ (5+) 4+ 4+ 6+ 4+
4523.8 15	M N	(4+)		732 2 ? 1363 2 ? 1363 2 ? 1599 2 3740.5 20	≈15 ≈38 ≈38 ≈15 100 23		3792.1 3164.06 3161.3 2924.6 783.31	(5+) 6+ 2+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4546.3 12	M N O P Q S	3-		494 2 ? 1384.8 15 1622 2 2665? 3763 3	≈33 ≈100 ≈67 ≤80 83 33		4051.7 3161.3 2924.6 1881.42 783.31	3- 2+ 2+ 4+ 2+
4653.3 15	M N			955 2 1493 2 ? 1730.0 3 ? 3870 2	≈33 ≈10 323 36 100 29		3698.2 3161.3 2924.6 783.31	2+ 2+ 2+ 2+
4676 7	M O P Q	2+
4700	M	(1+)
4731 5	G M S	0+
4744.9 4	D E F R	8+	0.28 ps 7	1580.8 3	100	E2	3164.06	6+
4755 7	M
4766 5	M O P Q S	2+
4807 5	M S
4906 7	M
4924 7	M O P Q	(4+)
4961 7	M O P Q	(4+)
4997.1 4	B J M	1(+)	0.140 eV 14	4213.8 5 4996.7 5	100 10 100	[M1] (M1)	783.31 0.0	2+ 0+
5015 10	M
5039 10	M S
5053 10	M S
5078 10	M
5093 10	M
5198 10	M
5207 10	M
5213.4 4	E	(6-)	0.42 ps 7	846.2 3 1388 1421.1 3	100 10 80 7		4367.2 3825.7 3792.1	5- (6)+ (5+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5233 10	M O P Q	4+
5250 10	M
5272 10	M
5297 10	M
5336 10	M
5376 10	M
5429 10	M
5445 10	M O P Q
5455 10	M O P Q
5548 10	M
5597 10	M
5611 10	M
5623 10	M
5684 10	M
5731 10	G M
5741 10	G M O P Q
5780 10	M O P Q
5813 10	M
5835 10	M
5859 10	M
5903 10	M
5931.2 5	J M	1+	0.073 eV 6	5930.8 5	100	M1	0.0	0+
5944 10	M
5957 10	M
5983 10	M O P Q	3-
5998.0 5	E	(7-)	< 0.35 ps	784.6 3 1630.9 3	68 18 100 18		5213.4 4367.2	(6-) 5-
6003 10	M
6027 10	M
6032 10	M
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6071 10	M
6083 10	M
6116 10	M
6123 10	M
6138 10	M O P Q
6175 10	M
6202 10	M
6226 10	M
6230 10	M
6243 10	M
6272 10	M
6305 10	M
6330 10	M
6340.6 5	D E F R	10+	0.76 ps 14	1595.7 2	100	E2	4744.9	8+
6342 10	M
6376 10	M
6450 20	M O P Q	3-
6650 20	M O P Q	3-
6754.5 5	D E	10+	0.111 ps 21	414.1 5 2009.6 3	15.3 14 100 10	E2	6340.6 4744.9	10+ 8+
6790 20	M O P Q	3-
6950.6 5	D E F	11+	0.49 ps 4	196.0 4 610.2 3	3.0 3 100.0 15	(M1) M1	6754.5 6340.6	10+ 10+
7340	M	(1+)
7360 20	M O P Q	3-
7600.8 5	J M	1+	0.334 eV 37	7600.2 5	100	M1	0.0	0+
7613.1 5	D E F	12+	0.111 ps 10	662.2 3 1272.2 3	100.0 15 2.9 3	M1 [E2]	6950.6 6340.6	11+ 10+
7645.7 5	J	1+	0.118 eV 14	7645.1 5	100	M1	0.0	0+
7.78E+3	M	(1+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7860 20	M O P Q	3-
7948.2 4	J	1+	1.76 eV 10	7164.5 5 7947.4 5	27 2 100	[M1] M1	783.31 0.0	2+ 0+
7.98E+3	M	(1+)
8045.8 5	J	1+	0.238 eV 26	8045.1 5	100	M1	0.0	0+
8121.5 5	J	1+	0.094 eV 11	8120.8 5	100	M1	0.0	0+
8.27E+3	M	(1+)
8360 50	G
8425 7	S	6+
8527.6 4	J	1+	0.85 eV 11	7743.1 5 8527.4 5	39 6 100	[M1] M1	783.31 0.0	2+ 0+
8638?	M S	(1+)
8680 20	G M O P Q	3-
8748 6	S	4+
8813 6	S	2+
8885.6 5	J	1+	0.53 eV 5	8884.8 5	100	M1	0.0	0+
9007.9 5	J M	1+	0.286 eV 34	9007.0 5	100	M1	0.0	0+
9208.3 5	J M	1+	0.37 eV 9	9207.4 5	100	M1	0.0	0+
9327.1 5	D E	(12+)		1713.8 3 2572.6 3 2987 1	85 25 100 35 <50	(Q)	7613.1 6754.5 6340.6	12+ 10+ 10+
9409.5 5	J M	1+	0.81 eV 13	9408.5 5	100	M1	0.0	0+
9579.1 5	J M	1+	0.30 eV 6	9578.1 5	100	M1	0.0	0+
9642.2 6	D E	13+	0.05 ps 2	2028.9 8 2692.0 3	100 10 4.8 10	D E2	7613.1 6950.6	12+ 11+
9719.1 5	J M	1+	1.42 eV 17	9718.1 5	100	M1	0.0	0+
9900 50	G M	2+
9914.8 6	D E	14+	0.22 ps 4	273.1 3 2302.0 12	15 2 100 10	D E2	9642.2 7613.1	13+ 12+
10.11E+3	M	(1+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10.24E+3	M	(1+)
10.38E+3	M	(1+)
10500 50	G M	(1+)
10750 30	G	2+
10797.5 6	D E	13(+)	< 0.62 ps	3183.9 3	100	D	7613.1	12+
10.82E+3	M	(1+)
11013.9 6	D E	13+	0.06 ps 1	3400.5 3	100	D	7613.1	12+
11060 50	G M	(1+)
11.18E+3	M	(1+)
11.4E+3 1	G
11530 50	G	0+
11660	M	(1+)
11680 20	G	0+
11.82E+3	M	(1+)
11870 20	G	0+
12.30E+3	M	(1+)
12391.5 6	D E	15(+)		1593.6 3 2476.9 3	100 14 40 9	D	10797.5 9914.8	13(+) 14+
12542.0 7	D E	(14+)		4927.9 10	100		7613.1	12+
12680 50	G
12790 50	G
12950 50	G
13218.4 6	D E	15+	0.021 ps +7-4	2204.2 3 3304.8 15 3578.7 16	100 10 54 5 54 9	E2 D E2	11013.9 9914.8 9642.2	13+ 14+ 13+
13222 6	G S	0+
13495.3 21	E			3853 2			9642.2	13+
13641.0 6	D	14(+)		2627.1 3	100	D	11013.9	13+
13900 20	G	0+
13920.8 12	D E	15(+)	< 0.076 ps	4005.8 10	100	D	9914.8	14+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
14500 30	G
14570 30	G
14900 20	G	0+
15034.2 7	D E	16+	< 0.021 ps	1815.8 4 2492.1 3 5121 2	30 5 9 5 100 22	E2	13218.4 12542.0 9914.8	15+ (14+) 14+
15809.0 6	D E	16+	< 0.05 ps	2168.1 3 2590.5 3	38 11 100 22	E2	13641.0 13218.4	14(+) 15+
16049.4 7	D	17(+)		2830.9 3	100	Q	13218.4	15+
17669.2 16	D	(16,17)		3748.2 10	100		13920.8	15(+)
17790.0 12	D	(16,17)		5398.2 10	100		12391.5	15(+)
17956.6 10	D E	18+	< 0.07 ps	2922.3 7	100	E2	15034.2	16+

E(level): From a least-squares fit to γ-ray energies for levels connected by γ transitions, unless otherwise noted.

J^π(level): From ²⁴Mg(³²S,α2pγ), except as noted, based on γ(θ) and γγ(θ) measurements together with band associations from γγ coincidence data.

T_1/2(level): T_1/2 from DSAM, as given in ²⁸Si(²⁸Si,α2pγ) dataset, width from (γ,γ’), except as noted.

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+	> 1.3×10⁺¹⁸ y % 2ε = ?
783.31 10	2+	9.08 ps 28	783.3 1	100	E2	0.0	0+
1881.42 19	4+	2.20 ps 33	1098.1 2	100	E2	783.31	2+
3164.06 25	6+	0.80 ps 23	1282.5 2	100	E2	1881.42	4+
4744.9 4	8+	0.28 ps 7	1580.8 3	100	E2	3164.06	6+
6340.6 5	10+	0.76 ps 14	1595.7 2	100	E2	4744.9	8+
9327.1 5	(12+)		1713.8 3 2572.6 3 2987 1	85 25 100 35 <50	(Q)	7613.1 6754.5 6340.6	12+ 10+ 10+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - γ cascade based on 5-.
4367.2 4	5-	1.39 ps 35
5213.4 4	(6-)	0.42 ps 7	846.2 3 1388 1421.1 3	100 10 80 7		4367.2 3825.7 3792.1	5- (6)+ (5+)
5998.0 5	(7-)	< 0.35 ps	784.6 3 1630.9 3	68 18 100 18		5213.4 4367.2	(6-) 5-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - γ cascade based on 11⁺.
6950.6 5	11+	0.49 ps 4
7613.1 5	12+	0.111 ps 10	662.2 3 1272.2 3	100.0 15 2.9 3	M1 [E2]	6950.6 6340.6	11+ 10+
9642.2 6	13+	0.05 ps 2	2028.9 8 2692.0 3	100 10 4.8 10	D E2	7613.1 6950.6	12+ 11+
9914.8 6	14+	0.22 ps 4	273.1 3 2302.0 12	15 2 100 10	D E2	9642.2 7613.1	13+ 12+
13218.4 6	15+	0.021 ps +7-4	2204.2 3 3304.8 15 3578.7 16	100 10 54 5 54 9	E2 D E2	11013.9 9914.8 9642.2	13+ 14+ 13+
15034.2 7	16+	< 0.021 ps	1815.8 4 2492.1 3 5121 2	30 5 9 5 100 22	E2	13218.4 12542.0 9914.8	15+ (14+) 14+
17956.6 10	18+	< 0.07 ps	2922.3 7	100	E2	15034.2	16+

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
783.31	2+	9.08 ps 28	783.3 1	E2			B(E2)(W.u.)=19.3 6
1881.42	4+	2.20 ps 33	1098.1 2	E2			B(E2)(W.u.)=14.7 +26-19
2924.6	2+	9.4 fs 14	2141.5 4	(M1(+E2))	-0.03 6		B(M1)(W.u.)=0.22 +5-4
2924.6	2+	9.4 fs 14	2924 2	E2			B(E2)(W.u.)=2.1 +11-8
3161.3	2+	10.9 fs 16	2378.3 5	M1+E2	+0.24 9		B(E2)(W.u.)=3.4 +38-22, B(M1)(W.u.)=0.142 +30-24
3164.06	6+	0.80 ps 23	1282.5 2	E2			B(E2)(W.u.)=19 +8-4
3324.56	4+	97 fs 25	161	[E2]		0.0674	α=0.0674, α(K)=0.0596, α(L)=0.00583
	4+	97 fs 25	1443.3 2	(M1(+E2))	-0.02 +16-52		B(M1)(W.u.)=0.073 28
	4+	97 fs 25	2541.0 3	[E2]			B(E2)(W.u.)=0.039 +30-16
3698.2	2+	12.8 fs 18	2914.8 5	M1+E2	+0.71 23		B(E2)(W.u.)=6.4 +41-33, B(M1)(W.u.)=0.046 +20-14
3792.1	(5+)	9.0 ps 14	1910.8 8	(M1+E2)	-0.47 16
3895.4	0+	24 ps +14-10	732 2	[E2]			B(E2)(W.u.)=0.5 +15-4
3895.4	0+	24 ps +14-10	3112.0 10	[E2]			B(E2)(W.u.)=0.007 +6-3
4051.7	3-	0.56 ps 11	441 2	[E1]			B(E1)(W.u.)=2.7E-4 +34-17
	3-	0.56 ps 11	890.6 5	[E1]			B(E1)(W.u.)=0.00027 +17-10
	3-	0.56 ps 11	1126.9 5	[E1]			B(E1)(W.u.)=0.00032 +12-10
	3-	0.56 ps 11	3267.4 14	[E1]			B(E1)(W.u.)=5.9E-6 +43-28
4744.9	8+	0.28 ps 7	1580.8 3	E2			B(E2)(W.u.)=19 +6-4
6340.6	10+	0.76 ps 14	1595.7 2	E2			B(E2)(W.u.)=6.6 +15-10
6950.6	11+	0.49 ps 4	196.0 4	(M1)			B(M1)(W.u.)=0.174 22
6950.6	11+	0.49 ps 4	610.2 3	M1			B(M1)(W.u.)=0.192 16
7613.1	12+	0.111 ps 10	662.2 3	M1			B(M1)(W.u.)=0.66 6
7613.1	12+	0.111 ps 10	1272.2 3	[E2]			B(E2)(W.u.)=4.0 8
9642.2	13+	0.05 ps 2	2692.0 3	E2			B(E2)(W.u.)=0.34 +40-16

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	> 1.3×10⁺¹⁸ y % 2ε = ?	T=1 XREF: α(?). E(level): g.s. band.
783.31	2+	9.08 ps 28	μ=+1.24 6 (2000Er06,2014StZZ), Q=-0.36 7 (1975To06,2016St14) XREF: α(?). E(level): g.s. band.
1881.42	4+	2.20 ps 33	μ=+3.1 5 (2000Er06,2014StZZ) B(E4) from (e,e’). E(level): g.s. band.
3161.3	2+	10.9 fs 16	XREF: M(3156).
3164.06	6+	0.80 ps 23	μ=+3.2 10 (1994Pa34,2014StZZ) E(level): g.s. band.
3324.56	4+	97 fs 25	B(E4)=0.000192 (1983Li02) in (e,e’).
3594.63	2+,3,4+	30 fs 5	XREF: M(3587).
3611.4	4+	6 fs 4	XREF: M(3602).
3792.1	(5+)	9.0 ps 14	XREF: M(3786).
3850	0+		XREF: B(3827).
3875.4	(4+,5,6+)	0.62 ps 21	XREF: M(3867).
4051.7	3-	0.56 ps 11	B(E3)(from g.s.)=0.0033 13 (2002Ki06 evaluation) deduced from β₃ in (α,α’) (1990Ba23).
4129.9	(1,2+)	0.18 ps 6	XREF: H(4150).
4546.3	3-		XREF: O(4570)p(4570)Q(4570)S(4540).
4676	2+		XREF: O(4680)p(4680)Q(4680).
4731	0+		XREF: γ(4740).
4744.9	8+	0.28 ps 7	μ=+4.3 7 (1994Pa34,2014StZZ) E(level): g.s. band.
5931.2	1+	0.073 eV 6	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
5983	3-		XREF: O(5990)p(5990)Q(5990).
6027			E(level): Unresolved doublet; spacing <5 keV.
6116			E(level): Unresolved doublet; spacing <5 keV.
6226			E(level): Unresolved doublet; spacing <5 keV.
6340.6	10+	0.76 ps 14	E(level): g.s. band.
7340	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
7600.8	1+	0.334 eV 37	XREF: M(7610). J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04). 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
E(level)	J^π(level)	T_1/2(level)	Comments
7645.7	1+	0.118 eV 14	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
7.78E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
7948.2	1+	1.76 eV 10	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
7.98E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
8045.8	1+	0.238 eV 26	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
8121.5	1+	0.094 eV 11	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
8.27E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
8527.6	1+	0.85 eV 11	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
8638	(1+)		XREF: M(8650). J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
8885.6	1+	0.53 eV 5	J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04).
9007.9	1+	0.286 eV 34	XREF: M(9010). J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04). 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
9208.3	1+	0.37 eV 9	XREF: M(9190). J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04). 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
9327.1	(12+)		E(level): g.s. band.
9409.5	1+	0.81 eV 13	XREF: M(9400). J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04). 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
9579.1	1+	0.30 eV 6	XREF: M(9570). J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04). 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
9719.1	1+	1.42 eV 17	XREF: M(9710). J^π(level): From γ(θ,pol) in (γ,γ’) (2016Pa04). 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
10.11E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
10.24E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
10.38E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
10500	(1+)		XREF: M(10520). J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
10.82E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
11060	(1+)		XREF: M(11020). J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
11.18E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
11660	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
11.82E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
E(level)	J^π(level)	T_1/2(level)	Comments
12.30E+3	(1+)		J^π(level): 1⁺ from (p,p’) E=201 MeV (1989Wi13), interpreted as spin-flip transition from forward angle cross sections.
13222	0+		T=3 XREF: S(13220).

E(level)	E(gamma)	Comments
783.31	783.3	E(γ): weighted average of 783.3 1 from ⁵⁰Mn ε decay (1.75 min), 783.6 3 from (³²S,α2pγ), 783.3 3 from (²⁸Si,α2pγ), 783.3 5 from (γ,γ’), 783.4 2 from (p,p’γ), and 783.3 2 from (α,α’γ). Others: 778 2 from (p,nγ) and 783 1 from (n,n’γ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) in (³²S,α2pγ), and RUL
1881.42	1098.1	E(γ): weighted average of 1098.0 2 from ⁵⁰Mn ε decay (1.75 min), 1097.9 3 from (³²S,α2pγ), 1098.2 3 from (²⁸Si,α2pγ), 1097.9 5 from (¹⁶O,α2pγ), 1098.2 3 from (p,p’γ), and 1098.1 2 from (α,α’γ). Other: 1107 3 from (p,nγ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) in (³²S,α2pγ), and RUL
2924.6	2141.5	E(γ): others: 2138 1 from (n,n’γ), 2140 5 from (p,nγ) M(γ): d(+Q) from γ(θ) in (p,p’γ); Δπ=no from level scheme
2924.6	2924	M(γ): Q from γ(θ) in (p,p’γ) and M2 ruled out by RUL
3164.06	1282.5	E(γ): weighted average of 1282.4 3 from ⁵⁰Mn ε decay (1.75 min), 1282.3 3 from (³²S,α2pγ), 1282.1 3 from (²⁸Si,α2pγ), 1282.6 5 from (¹⁶O,α2pγ), 1282.7 7 from (p,p’γ), and 1282.7 2 from (α,α’γ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) in (³²S,α2pγ), and RUL
3324.56	1443.3	E(γ): weighted average of 1443.3 2 from ⁵⁰Mn ε decay (1.75 min), 1443.3 3 from (²⁸Si,α2pγ), 1443.1 5 from (¹⁶O,α2pγ), and 1442.7 7 from (p,p’γ) M(γ): d(+Q) from γ(θ) in (p,p’γ); Δπ=no from level scheme
3611.4	449	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	449	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1729.9	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
3628.9	2845.5	E(γ): weighted average of 2845.0 5 from (γ,γ’) and 2846.1 6 from (p,p’γ). From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): from (γ,γ’). Others: 50 5 from ⁵⁰Mn ε decay, 50 22 from (p,p’γ). From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
3628.9	3628.7	E(γ): weighted average of 3628.0 5 from (γ,γ’) and 3629.3 5 from (p,p’γ) M(γ): from γ(θ) and polarization asymmetry in (γ,γ’)
3792.1	467.8	E(γ): weighted average of 467.9 5 from (¹⁶O,α2pγ) and 467.7 8 from (p,p’γ) I(γ): from (p,p’γ) (1968Mo07). Others: 100 16 from (¹⁶O,α2pγ), 100 11 from 1972Ra14 in (p,p’γ) M(γ): from γ(θ) in (p,p’γ)
3792.1	1910.8	E(γ): weighted average of 1910.9 9 from (¹⁶O,α2pγ) and 1910.7 8 from (p,p’γ) I(γ): weighted average of 79 9 from (p,p’γ) (1968Mo07) and 79 16 from (¹⁶O,α2pγ). Other: 133 23 from 1972Ra14 in (p,p’γ) is in disagreement
3825.7	661.6	E(γ): weighted average of 661.5 3 from ⁵⁰Mn ε decay (1.75 min), 661.5 3 from (²⁸Si,α2pγ), 661.7 5 from (¹⁶O,α2pγ), and 661.9 6 from (α,α’γ). Other: 662 2 from (p,p’γ) I(γ): from ⁵⁰Mn β⁺ decay (1.75 min).
3825.7	1944.4	E(γ): weighted average of 1944.5 5 from ⁵⁰Mn ε decay (1.75 min) and 1944.4 3 from (²⁸Si,α2pγ) I(γ): from ⁵⁰Mn β⁺ decay (1.75 min).
3875.4	551.0	E(γ): from (²⁸Si,α2pγ). Other: 550 2 from (p,p’γ)
	711.1	E(γ): from (²⁸Si,α2pγ). Other: 711.1 6 from (p,p’γ)
	1993.8	E(γ): from (²⁸Si,α2pγ). Other: 1993.8 6 from (p,p’γ)
3895.4	732	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4051.7	441	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4068.2	441	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4193.0	494	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4367.2	542	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
	575.3	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
	755	E(γ): From ²⁸Si(²⁸Si,α2pγ).
	1042	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
	1203	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
	2485	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
E(level)	E(gamma)	Comments
4523.8	732	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1363	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1363	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4546.3	494	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4653.3	1730.0	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4744.9	1580.8	E(γ): weighted average of 1580.5 3 from (³²S,α2pγ), 1580.9 3 from (²⁸Si,α2pγ), 1581.1 5 from (¹⁶O,α2pγ), and 1581.2 5 from (α,α’γ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) and γγ(ADO) in (³²S,α2pγ)
4997.1	4213.8	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
4997.1	4996.7	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): from γ(θ) and polarization asymmetry in (γ,γ’). From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
5213.4	846.2	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
	1388	E(γ): From ²⁸Si(²⁸Si,α2pγ).
	1421.1	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
5931.2	5930.8	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): from γ(θ) and polarization asymmetry in (γ,γ’). From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
5998.0	784.6	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
5998.0	1630.9	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ).
6340.6	1595.7	E(γ): weighted average of 1595.2 3 from (³²S,α2pγ), 1595.9 3 from (²⁸Si,α2pγ), 1595.7 5 from (¹⁶O,α2pγ), and 1596.5 5 from (α,α’γ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) and γγ(ADO) in (³²S,α2pγ)
6754.5	414.1	E(γ): unweighted average of 414.5 3 from (³²S,α2pγ) and 413.6 3 from (²⁸Si,α2pγ) I(γ): weighted average of 18 6 from (³²S,α2pγ) and 15.2 14 from (²⁸Si,α2pγ)
6754.5	2009.6	E(γ): weighted average of 2009.3 3 from (³²S,α2pγ) and 2009.8 3 from (²⁸Si,α2pγ) I(γ): from (²⁸Si,α2pγ). Other: 100 12 from (³²S,α2pγ) M(γ): Q from γγ(DCO) and γγ(ADO) in (³²S,α2pγ), γγ(ADO) in (²⁸Si,α2pγ); M2 ruled out by RUL
6950.6	196.0	E(γ): weighted average of 196.3 3 from (³²S,α2pγ) and 195.6 3 from (²⁸Si,α2pγ) I(γ): weighted average of 3.4 11 from (³²S,α2pγ) and 3.0 3 from (²⁸Si,α2pγ) M(γ): d from γγ(DCO) and γγ(ADO) in (³²S,α2pγ); Δπ=no from level scheme
6950.6	610.2	E(γ): weighted average of 610.3 3 from (³²S,α2pγ), 610.1 3 from (²⁸Si,α2pγ), and 609.9 5 from (¹⁶O,α2pγ) I(γ): from (²⁸Si,α2pγ). Others: 100 11 from (¹⁶O,α2pγ), 100 10 from (³²S,α2pγ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) and γγ(ADO) in (³²S,α2pγ)
7600.8	7600.2	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
7613.1	662.2	E(γ): weighted average of 662.4 3 from (³²S,α2pγ), 662.2 3 from (²⁸Si,α2pγ), and 661.8 5 from (¹⁶O,α2pγ) I(γ): other: 100 10 from (³²S,α2pγ) and (¹⁶O,α2pγ) M(γ): from γ(θ,pol) in (¹⁶O,α2pγ), γγ(DCO) and γγ(ADO) from (³²S,α2pγ)
7613.1	1272.2	E(γ): weighted average of 1272 1 from (³²S,α2pγ) and 1272.2 3 from (²⁸Si,α2pγ) I(γ): weighted average of 4.3 15 from (³²S,α2pγ) and 2.8 3 from (²⁸Si,α2pγ). Other: <4.9 from (¹⁶O,α2pγ)
7645.7	7645.1	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
7948.2	7164.5	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
7948.2	7947.4	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
E(level)	E(gamma)	Comments
8045.8	8045.1	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
8121.5	8120.8	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
8527.6	7743.1	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
8527.6	8527.4	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) I(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
8885.6	8884.8	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
9007.9	9007.0	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
9208.3	9207.4	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
9327.1	1713.8	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ).
	2572.6	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ).
	2987	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ).
9409.5	9408.5	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
9579.1	9578.1	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
9642.2	2028.9	E(γ): unweighted average of 2028.1 3 from (³²S,α2pγ) and 2029.7 3 from (²⁸Si,α2pγ) I(γ): From ²⁸Si(²⁸Si,α2pγ). M(γ): from γγ(DCO) and γγ(ADO) in (³²S,α2pγ) and (²⁸Si,α2pγ)
9642.2	2692.0	E(γ): From ²⁸Si(²⁸Si,α2pγ). I(γ): From ²⁸Si(²⁸Si,α2pγ). M(γ): Q from γ(ADO) in (²⁸Si,α2pγ); M2 ruled out by RUL
9719.1	9718.1	E(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04) M(γ): From (γ,γ’),(pol γ,γ’). Mult. are based on γ(θ,pol) data (2016Pa04)
9914.8	273.1	E(γ): weighted average of 273.3 3 from (³²S,α2pγ) and 272.9 3 from (²⁸Si,α2pγ) I(γ): other: 44 4 from ²⁴Mg(³²S,α2pγ) is in disagreement. From ²⁸Si(²⁸Si,α2pγ).
9914.8	2302.0	E(γ): unweighted average of 2300.9 3 from (³²S,α2pγ) and 2303.2 3 from (²⁸Si,α2pγ) I(γ): also from (³²S,α2pγ). From ²⁸Si(²⁸Si,α2pγ).
10797.5	3183.9	E(γ): From ²⁴Mg(³²S,α2pγ). M(γ): from γγ(DCO) and γγ(ADO) in (³²S,α2pγ) and (²⁸Si,α2pγ)
11013.9	3400.5	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ). M(γ): from γγ(DCO) and γγ(ADO) in (³²S,α2pγ), and γγ(ADO) in (²⁸Si,α2pγ)
12391.5	1593.6	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ).
12391.5	2476.9	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ). M(γ): from γγ(DCO) and γγ(ADO) in (³²S,α2pγ)
12542.0	4927.9	E(γ): From ²⁴Mg(³²S,α2pγ).
13218.4	2204.2	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ). M(γ): Q from γγ(ADO) in (³²S,α2pγ) and γγ(DCO) in (²⁸Si,α2pγ); M2 ruled out by RUL
	3304.8	E(γ): unweighted average of 3303.3 3 from (³²S,α2pγ) and 3306.3 3 from (²⁸Si,α2pγ) I(γ): from (³²S,α2pγ) M(γ): from γ(DCO) in (³²S,α2pγ)
	3578.7	E(γ): unweighted average of 3577.1 10 from (³²S,α2pγ) and 3580.3 10 from (²⁸Si,α2pγ) M(γ): Q from γγ(ADO) in (²⁸Si,α2pγ); M2 ruled out by RUL
E(level)	E(gamma)	Comments
13495.3	3853	E(γ): From ²⁸Si(²⁸Si,α2pγ).
13641.0	2627.1	E(γ): From ²⁴Mg(³²S,α2pγ). M(γ): from γγ(ADO) in (³²S,α2pγ)
13920.8	4005.8	E(γ): From ²⁴Mg(³²S,α2pγ). M(γ): from γγ(DCO) and γγ(ADO) in (³²S,α2pγ) and (²⁸Si,α2pγ)
15034.2	1815.8	E(γ): weighted average of 1815.5 3 from (³²S,α2pγ) and 1816.2 3 from (²⁸Si,α2pγ) I(γ): weighted average of 29 5 from (³²S,α2pγ) and 33 7 from (²⁸Si,α2pγ)
	2492.1	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ).
	5121	E(γ): unweighted average of 5119.1 10 from (³²S,α2pγ) and 5123.4 10 from (²⁸Si,α2pγ) I(γ): From ²⁸Si(²⁸Si,α2pγ). M(γ): Q from γγ(ADO) in (³²S,α2pγ) and M2 ruled out by RUL
15809.0	2168.1	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ). M(γ): Q from γγ(ADO) in (³²S,α2pγ) and M2 ruled out by RUL
15809.0	2590.5	E(γ): From ²⁴Mg(³²S,α2pγ). I(γ): From ²⁴Mg(³²S,α2pγ).
16049.4	2830.9	E(γ): From ²⁴Mg(³²S,α2pγ). M(γ): Q from γγ(ADO) in (³²S,α2pγ)
17956.6	2922.3	E(γ): unweighted average of 2921.6 3 from (³²S,α2pγ) and 2923.0 3 from (²⁸Si,α2pγ)