List of levels for 24MG

ADOPTED LEVELS, GAMMAS for ²⁴Mg

Authors: M. Shamsuzzoha Basunia, Anagha Chakraborty | Citation: Nucl. Data Sheets 186, 2 (2022) | Cutoff date: 31-Mar-2022

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-13884.77 keV 23	S(n)= 16531.22 keV 3	S(p)= 11692.69 keV 1	Q(α)= -9316.56 keV 1
Reference: 2021WA16

References:
A	²⁴Na β^- decay (14.956 H)	B	²⁴Na β^- decay (20.18 MS)
C	²⁴Al ε decay (2.053 S)	D	²⁴Al ε decay (130.7 MS)
E	²⁵Si εp decay	F	²⁶P ε2p decay
G	²⁸P εα decay	H	¹²C(¹²C,γ)
I	¹²C(¹²C,p):Resonances	J	¹²C(¹⁴N,d)
K	¹²C(²⁴Mg,¹²CG)	L	¹²C(¹⁶O,α),(¹⁶O,αγ)
M	¹²C(²⁴Mg,²¹²C),(²⁰Ne,²¹²C)	N	²⁰Ne(α,γ):Resonances
O	²⁰Ne(α,α),(α,α’):Resonances	P	²⁰Ne(⁶Li,d),(⁷Li,t)
Q	²²Ne(³He,n)	R	²³Na(p,γ),(p,p’),(p,X),
S	²³Na(³He,d),(³He,dγ)	T	²⁴Mg(γ,γ’)
U	²⁴Mg(E,E’)	V	²⁴Mg(π⁺,π⁺’),(π^-,π^-’)
W	²⁴Mg(p,p’),(pol p,p’),	X	²⁴Mg(n,n’γ)
Y	²⁴Mg(³He,³He’)	Z	²⁴Mg(α,α’)
a	Coulomb Excitation	b	²⁴Mg(α,α’γ)
c	²⁴Mg(⁶Li,⁶Li’)	d	²⁴Mg(¹⁶O,¹⁶O’)
e	²⁵Mg(p,d)	f	²⁵Mg(³He,⁴He)
g	²⁷Al(μ^-,NU3NG)	h	²⁷Al(p,α)
i	²⁸Si(d,⁶Li)	j	²⁸Si(²⁸Si,xγ)

Other reactions:

2004Be18, 2004Be08: ¹²C(²⁴Mg, ¹²C), E=130 MeV; measured Eγ, (particle)γ-coin.

2011Fr14: ¹²C(¹³C,n) E=12, 13.5, 20 MeV; measured reaction products ²⁵Mg; deduced ²⁴Mg excited states and reported resonance energies at 13.25 MeV 20 and 14.25 MeV 20.

2001Di12: ¹¹B(¹³N,X), (¹³N,¹²C), E=29.5, 45 MeV. Measured particle spectra, fusion σ. Deduced ²⁴Mg 6-α decay features, isospin purity/mixing in ²⁴Mg at excitation energy |J47 MeV, GDR γ-emission features.

2006Va20: ²⁸Si(p,p’X)²⁴Mg, E=1 GeV; measured Eγ; deduced σ.

DICT$ ¹²C(²⁴Mg,²¹²C),(²⁰Ne,²¹²C)= ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C)

Q-value: S(2n)=29676.23 16, S(2p)=20486.805 22 (2021Wa16)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0	A B C D E F G H J K L N P Q R S T U V W X Y Z a b d e f g h i j	0+	STABLE
1368.667 5	A C D E F H J K L N P Q R S T U V W X Y Z a b c d e f g h i j	2+	1.36 ps 3	1368.625 5	100	E2	0	0+
4122.853 12	A C E H J K L N P R S U W X Y Z b d e f g h i j	4+	24.3 fs 21	2754.016 11	100	E2	1368.667	2+
4238.35 4	A C D E H J K L N P R S U V W X Y Z b d e f g h i j	2+	45.7 fs 35	2869.50 6 4237.96 6	27.8 8 100.0 6	M1+E2 [E2]	1368.667 0	2+ 0+
5235.16 5	A C H J K L N R S W Y b e f g h i j	3+	68 fs 5	996.83 10 3866.15 10 5235	2.63 14 100.0 5 10 3	D+Q E2(+M1) [M3]	4238.35 1368.667 0	2+ 2+ 0+
6010.34 5	C E H J K L N P R S U V W X Y Z b d e f h i j	4+	53 fs 4	775.4 2 1771.92 7 1887.52 20 4641.19 9	1.6 2 11.4 4 1.64 18 100.0 5	[E2] [E2]	5235.16 4238.35 4122.853 1368.667	3+ 2+ 4+ 2+
6432.2 10	J K L N P Q R U V W Y Z b d e f h i	0+	69 fs 12	2194 5063.2 6432	21.0 9 100.0 9	[E2] [E2] E0	4238.35 1368.667 0	2+ 2+ 0+
7.0E3	d
7348.60 10	C J K L N P R S U V W Y Z d e f h i j	2+	6.5 fs 22	5979.5 8 7347.2 9	61 3 100 3	[E2]	1368.667 0	2+ 0+
7555.3 10	E J K L N R S W Y Z d e f h	1-	270 fs 55	3316.7 6185.8 7554.0	49 4 64 4 100 6	[E1] [E1] [E1]	4238.35 1368.667 0	2+ 2+ 0+
7616.41 7	C E H K L N R S U V W Y Z e f h i	3-	1.01 ps 15	2381.0 3 3378.3 8 3493.3 6246.89 11 7615.2 9	7 2 8.0 13 7.2 14 100 3 38 3	[E1] [E1] [E1] [E1] [E3]	5235.16 4238.35 4122.853 1368.667 0	3+ 2+ 4+ 2+ 0+
7747.7 2	L N R S W Y f	1+	12.5 fs 28	3509.1 6378.1 7746.4	12.9 9 100 3 39 3		4238.35 1368.667 0	2+ 2+ 0+
7812.4 5	C J K L N R S W Y f h	(4-,5+)	21 fs 3	1800 2577.4 8 3690	12 3 100 5 51 7		6010.34 5235.16 4122.853	4+ 3+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8113.2 10	J K L P R S W Y d f h i j	6+	3.6 fs 12	3990.0	100	[E2]	4122.853	4+
8358.1 3	H J K L N R S U V W Y Z d f h i	3-	63 fs 8	2347.7 3122.7 6988.3 8356.5	22 4 33 4 100 7 8.6 10	[E1] [E1] [E1] [E3]	6010.34 5235.16 1368.667 0	4+ 3+ 2+ 0+
8438.4 10	J K N R S W Y Z b d h i	1-	9 fs 2	7068.6 8436.8	25 13 100 13	[E1] (E1)	1368.667 0	2+ 0+
8439.29 5	C H K L N R f h	4+	3.2 fs 14	822.0 6 1090.67 10 2428.97 15 3203.88 8 4200.54 13 4316.00 12 7069.50 12	0.05 2 0.32 2 1.79 4 7.21 16 9.5 5 33 3 100.0 17	[E1] [E2] [E2] [E2]	7616.41 7348.60 6010.34 5235.16 4238.35 4122.853 1368.667	3- 2+ 4+ 3+ 2+ 4+ 2+
8654.9 4	L N P R S W Y f i	2+	14 fs 3	2222.3 4416.1 7285.0	6.1 12 17 3 100.0 25	[E2]	6432.2 4238.35 1368.667	0+ 2+ 2+
8864.5 2	L N R S W Y f i	2-	5.5 fs 21	3629.0 4625.7 7494.6 8862.7	2.17 16 8.9 3 100.0 3 1.03 16	[E1] [E1] [E1] [M2]	5235.16 4238.35 1368.667 0	3+ 2+ 2+ 0+
9003.5 2	L N R S U W Y Z b f i	2+	8.4 fs 12	1654.4 2570.9 4880.1 9001.7	12 4 14 6 35 10 100 12	[E2] [E2] [E2]	7348.60 6432.2 4122.853 0	2+ 0+ 4+ 0+
9146.2 3	L R S W Y Z b f i	1-		4907.3 7776.2 9144.3	53 4 60 4 100 6		4238.35 1368.667 0	2+ 2+ 0+
9160 15	J	[5-]
9284.4 3	H K L N R S U W Y f	2+,4+	11 fs 3	5161 7914.3	27 4 100 3		4122.853 1368.667	4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9299.8 3	K N R			1683.3	100		7616.41	3-
9301.07 9	C H L N R V W	(4+)	7 fs 2	1952.38 20 5060.7 8 5177.51 20 7930.87 15	7.3 5 2.8 10 76 8 100 8		7348.60 4238.35 4122.853 1368.667	2+ 2+ 4+ 2+
9305.39 24	L R U Z	0+	173 fs 35	7935.3	100		1368.667	2+
9450 15	J i	[5-,6+]
9457.81 4	C L N R S W Y f	(3)+	4.3 fs 21	1710.0 2108.65 3447.21 4222.20 5218.81 5334.29 8087.66	2.1 9 1.5 5 2.1 3 12.0 8 5.6 6 28.4 9 100.0 17		7747.7 7348.60 6010.34 5235.16 4238.35 4122.853 1368.667	1+ 2+ 4+ 3+ 2+ 4+ 2+
9516.18 5	C L N R S W f	4+	12 fs 5	1076.86 4 1704.8 8 1899.70 6 3505.61 9 4280.62 13 5277.2 5392.68 9 8146.0	85.8 17 0.09 2 4.74 12 11.5 4 3.82 23 2.0 10 100 6 0.16 4	[E1] [E2]	8439.29 7812.4 7616.41 6010.34 5235.16 4238.35 4122.853 1368.667	4+ (4-,5+) 3- 4+ 3+ 2+ 4+ 2+
9527.6 7	K L W Y f i j	(6+)	8 fs 4	3517.0 5404.0	100 6 28 6	[E2] [E2]	6010.34 4122.853	4+ 4+
9532.7 2	R W f i	(2,3)+	14 fs 7	1916.0 4297.1 5293.7 8162.5	7.4 10 39 6 84 6 100 26		7616.41 5235.16 4238.35 1368.667	3- 3+ 2+ 2+
9828.0 20	D N R S T U W Y f	1+	0.30 fs 7	3395.2 8457.7 9825.9 20	2.1 5 30.3 20 100.0 19		6432.2 1368.667 0	0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9940 15	J	[5-]
9965.3 11	D N R S T U W f	1+	71 as 7	8595.1 15 9963.0 15	38 6 100 12		1368.667 0	2+ 0+
10027.97 9	E H K L N R S V W Y i	5-	62 fs 18	1670 2215.6 2411.2 4017.2 5904.2 8657.5	45.4 22 7.3 12 8.8 24 23 3 100 10 61 12	[E2] [E2] [E1] [E1] [E3]	8358.1 7812.4 7616.41 6010.34 4122.853 1368.667	3- (4-,5+) 3- 4+ 4+ 2+
10059.1 4	D L N R S W f	(1,2)+	< 3 fs	5820.0 8688.6 25	16 4 100 4		4238.35 1368.667	2+ 2+
10110.9 4	L N R W Y	(0+)	< 5 keV	8740.5	100		1368.667	2+
10161 3	L N S W f	(0+)
10250 15	J	[4+,5-]
10333.6 2	H L N R S W	3-	< 7 keV	6094.4 8963	61 11 100 11		4238.35 1368.667	2+ 2+
10360.7 3	K L N R S T U W Y Z f i	2+	1.0 fs 3	3927.9 5124.9 8990.2 10358.3	1.2 4 3.0 7 100 4 72 4	[E2] [E2]	6432.2 5235.16 1368.667 0	0+ 3+ 2+ 0+
10575.93 8	C J L N S W i	(4)+	9 fs 2	1059.78 8 1274.71 10 2136.58 15 5340.3 4	100 6 37.2 21 59 3 40 5		9516.18 9301.07 8439.29 5235.16	4+ (4+) 4+ 3+
10581.26 13	R W f i	(2+,3+,4+)	< 2 fs	4570.4 5345.4 6342.0 6457.4 9210.6	20.6 8 53.4 15 100 3 37.6 13 46.1 15		6010.34 5235.16 4238.35 4122.853 1368.667	4+ 3+ 2+ 4+ 2+
10659.8 2	L R S	(1,2+)		9289.2 10657.3	43 11 100 11		1368.667 0	2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10660.17 17	N R S W	(3+,4+)	< 2 fs	5424.2 6536.3 9289.5	12 3 35 13 100 13		5235.16 4122.853 1368.667	3+ 4+ 2+
10679.7 3	D L N R S W Y Z f	0+	2.1 eV 8	3124 3331 6440 9309	0.6 4 2.4 4 14.7 12 100 3		7555.3 7348.60 4238.35 1368.667	1- 2+ 2+ 2+
10712.2 2	L R T U W	1+	23 as 2	10709.6	100		0	0+
10731.1 2	L N R S W f	2+	7 fs 3	5495.2 6491.8 9360.5	10 3 27 3 100 4	(M1)	5235.16 4238.35 1368.667	3+ 2+ 2+
10820.8 4	C L N R S W Y f	3+,4+	7.5 eV 11	9450.1 4	100		1368.667	2+
10917.2 3	D L N R S T U W Y f i	2+	0.8 fs 1	4485 4906.3 5681.3 6677.8 6793.3 9546.5 10914.5	0.85 21 1.70 21 2.77 21 1.06 21 34.0 21 100 4 72 4	[E2] [E2] [E2] [E2]	6432.2 6010.34 5235.16 4238.35 4122.853 1368.667 0	0+ 4+ 3+ 2+ 4+ 2+ 0+
11012 3	L N S	3,5+		2573 5001	100 11 47 9		8439.29 6010.34	4+ 4+
11018 3	D L N S V W Y f i	2+	< 3 keV	1048 3270 3462 5007 5782 6779 6894 9647 11015	2.5 6 0.62 12 0.37 12 0.86 12 1.5 3 2.4 4 1.0 3 100 3 14.2 12		9965.3 7747.7 7555.3 6010.34 5235.16 4238.35 4122.853 1368.667 0	1+ 1+ 1- 4+ 3+ 2+ 4+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11133 3	L N V W		26 fs 4	3518	100		7616.41	3-
11150 15	J	[6+,7-]
11165 2	L N W Y	3-	< 3 keV	2726 3609 5154 5929 7041 9794	5.8 3 6.2 3 13.1 3 11.3 3 1.81 14 100 3		8438.4 7555.3 6010.34 5235.16 4122.853 1368.667	1- 1- 4+ 3+ 4+ 2+
11181 3	L N W
11187.3 3	K N R W			9816.5	100		1368.667	2+
11207 3	L N R W		0.0022 eV 12	9836	100		1368.667	2+
11216.69 18	C L N R W Y f	3+,4+	0.78 eV 11	1700 2562 3868 5981 7093 9846	1.40 12 0.81 12 0.35 12 0.93 12 12.8 12 100.0 23		9516.18 8654.9 7348.60 5235.16 4122.853 1368.667	4+ 2+ 2+ 3+ 4+ 2+
11293 3	L N S W		20 fs 3
11314.4 15	C L N S W Y f	(3,4)+		9943.5 15	100		1368.667	2+
11330 3	L N R S W			9959	100		1368.667	2+
11390 20	Z	0+
11391 3	L N O R S U W Y f	1-	0.5 keV	1332 1426 2953 3643 4958 7152 10020 11388	1.9 3 1.01 14 1.01 14 1.45 14 1.16 14 2.2 3 100 3 36.2 14		10059.1 9965.3 8438.4 7747.7 6432.2 4238.35 1368.667 0	(1,2)+ 1+ 1- 1+ 0+ 2+ 2+ 0+
11394 4	L S f
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11452.8 4	L N R U W Y	2+	< 2 keV	721.7 1393.7 1487.5 3704.8 3836.0 4103.4 6216.7 7213.3 7328.7 10081.8 11449.8	3.4 5 1.14 23 12.7 7 3.2 5 0.9 5 1.36 23 4.1 5 47.7 23 1.82 23 100.0 23 50.0 23		10731.1 10059.1 9965.3 7747.7 7616.41 7348.60 5235.16 4238.35 4122.853 1368.667 0	2+ (1,2)+ 1+ 1+ 3- 2+ 3+ 2+ 4+ 2+ 0+
11457 3	D N O S f	(0+)
11522 2	D L N R S U W Y f	2+	0.5 keV	791 1463 1557 3164 3774 3905 5089 7282 7398 10151 11519	1.59 16 2.1 3 1.11 16 0.32 16 1.11 16 1.43 16 12.2 5 8.1 3 7.0 3 23.8 16 100 3		10731.1 10059.1 9965.3 8358.1 7747.7 7616.41 6432.2 4238.35 4122.853 1368.667 0	2+ (1,2)+ 1+ 3- 1+ 3- 0+ 2+ 4+ 2+ 0+
11527 4	J L O S f	(2+)
11568	Y	(2+)
11600 2	L N W f i	3-	15 fs 4	2084 2299 2300 2315 3242 3983 7476	21.8 14 75 5 5.9 14 12.5 11 8.2 7 100 5 3.9 5	[E1] [E1] [E1] [E1]	9516.18 9301.07 9299.8 9284.4 8358.1 7616.41 4122.853	4+ (4+) 2+,4+ 3- 3- 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11618 3	L N W
11698.2 13	C L N S W f i	4+	1.6 eV 6	686 2397 2398 3043 3259 3885 4349 5687 6462 7459 7574 10327	1.82 23 100 5 1.1 5 2.5 5 3.6 5 1.4 5 5.9 5 5.0 5 6.8 5 19.8 9 15.7 9 64 5		11012 9301.07 9299.8 8654.9 8439.29 7812.4 7348.60 6010.34 5235.16 4238.35 4122.853 1368.667	3,5+ (4+) 2+ 4+ (4-,5+) 2+ 4+ 3+ 2+ 4+ 2+
11730 2	L N O S W Z	0+	10 keV 2	1765 4174 7490 10359	3.48 22 1.63 11 3.59 22 100.0 22		9965.3 7555.3 4238.35 1368.667	1+ 1- 2+ 2+
11830 2	J L N S W
11860 2	K L N i	(8+)	63 fs 24	3747.0	100		8113.2	6+
11862.8 13	N O R S W Z	1-	7.0 keV 3	4306 4513 7622 10491 11859	4.4 4 1.75 18 4.4 4 65 4 100 4		7555.3 7348.60 4238.35 1368.667 0	1- 2+ 2+ 2+ 0+
11909 2	N R		5.5 keV 22
11932.9 2	L N R S W f	(3)+	< 0.02 keV	2631.9 3068.4 4120.5 4583.6 5922.0 6696.9 7693.4 7808.9 10561.9	0.19 7 0.34 7 1.41 16 1.62 19 4.3 5 1.27 21 0.51 19 24.4 24 100 10		9301.07 8864.5 7812.4 7348.60 6010.34 5235.16 4238.35 4122.853 1368.667	(4+) 2- (4-,5+) 2+ 4+ 3+ 2+ 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11966.6 5	L N O R S W	2+	2.0 keV 4	760 1236 1908 2001 5534 6731 7727 7842 10596 11964	0.9 3 3.7 6 12.0 6 4.9 6 9.4 6 60 3 46 3 3.4 3 100 6 46 3		11207 10731.1 10059.1 9965.3 6432.2 5235.16 4238.35 4122.853 1368.667 0	2+ (1,2)+ 1+ 0+ 3+ 2+ 4+ 2+ 0+
11988.5 1	L R S W i	2+	< 0.02 keV	1257.4 1929.3 2703.9 2984.8 3122.8 3549.8 4240.4 4432.8 6752.3 7748.8 10617.3 11985.3	0.9 4 1.5 9 2.0 11 1.3 7 11 5 6.3 4 11 5 3.3 17 17 9 100 5 61 2 1.7 9		10731.1 10059.1 9284.4 9003.5 8864.5 8438.4 7747.7 7555.3 5235.16 4238.35 1368.667 0	2+ (1,2)+ 2+,4+ 2+ 2- 1- 1+ 1- 3+ 2+ 2+ 0+
12003 3	N W		< 1 keV	991 3563 5992 7879	19 3 9.5 16 30 3 100 3		11012 8439.29 6010.34 4122.853	3,5+ 4+ 4+ 4+
12017.2 6	N R S U W	3-	0.7 keV 2
12051.3 5	C N R S V W f	4+	< 0.02 keV	6040 6815 7927 10680	6.9 7 30.6 14 100 3 1.4 3		6010.34 5235.16 4122.853 1368.667	4+ 3+ 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12119.0 10	C L N R W	4+	1.9 keV 3	2603 6108 7879 7995 10748	100 8 27 5 92 5 38 5 14 3		9516.18 6010.34 4238.35 4122.853 1368.667	4+ 4+ 2+ 4+ 2+
12128 3	R W			4315	100		7812.4	(4-,5+)
12162 3	C N W	4+	0.9 keV 3	2646 3158 6926 7922 8038 10791	17.6 20 3.9 10 5.9 20 11.8 20 100 6 57 6		9516.18 9003.5 5235.16 4238.35 4122.853 1368.667	4+ 2+ 3+ 2+ 4+ 2+
12183.3 1	R W		< 0.046 keV	966.6 1452.2 1822.5 2217.9 3528.1 4435.2 5750.4 7943.5 10812.0 12180.0	2.1 11 2.0 10 5.0 25 1.4 7 4.8 24 3.7 18 1.8 10 12.8 7 100 6 7 4		11216.69 10731.1 10360.7 9965.3 8654.9 7747.7 6432.2 4238.35 1368.667 0	3+,4+ 2+ 2+ 1+ 2+ 1+ 0+ 2+ 2+ 0+
12244 3	W
12259.3 5	R W	2-	< 0.06 keV	1042.6 2293.9 2431.0 3255.6 3394.5 3819.7 4910.2 7023.0 8019.5 8135.0 10888.0 12255.9	3.3 18 1.1 7 2.2 11 4.4 22 9 4 5.6 28 9 4 24.4 22 100 5 1.1 7 60 2 2.2 11		11216.69 9965.3 9828.0 9003.5 8864.5 8439.29 7348.60 5235.16 4238.35 4122.853 1368.667 0	3+,4+ 1+ 1+ 2+ 2- 4+ 2+ 3+ 2+ 4+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12259.8 4	N R W	3-	1.8 keV 3
12273 5	O	(3-)
12340 15	J	[7+]
12340.2 4	R W	3+	< 0.07 keV	1680.3 3336.5 3685.0 4723.3 4991.0 7103.9 8100.4 8215.8 10968.8	1.1 7 5.1 27 2.4 13 9 4 29 2 47 2 100 5 4.9 24 24 1		10659.8 9003.5 8654.9 7616.41 7348.60 5235.16 4238.35 4122.853 1368.667	(1,2+) 2+ 2+ 3- 2+ 3+ 2+ 4+ 2+
12342 3	L W		3.5 fs 14	4529	100		7812.4	(4-,5+)
12385	R	0-	7 keV 2
12400.3 5	R	3+	< 0.09 keV	2341.1 2883.9 2942.3 3396.5 4783.4 5051.1 7164.0 8160.5 8275.9 11028.9	3.9 18 2.8 4.9 10 31 44 100 6 36		10059.1 9516.18 9457.81 9003.5 7616.41 7348.60 5235.16 4238.35 4122.853 1368.667	(1,2)+ 4+ (3)+ 2+ 3- 2+ 3+ 2+ 4+ 2+
12404.9 5	D N R W	2+	< 0.1 keV	3103.6 3401.1 3540.1 3749.7 3966.1 4046.4 4788.0 5055.7 7168.6 8165.1 8280.5 11033.5 12401.5	2.4 12 4.4 22 2.5 13 19 1 4.1 21 1.6 8 12 6 3.0 15 1.9 10 100 5 1.4 8 3.3 17 3.0 15		9299.8 9003.5 8864.5 8654.9 8438.4 8358.1 7616.41 7348.60 5235.16 4238.35 4122.853 1368.667 0	2+ 2- 2+ 1- 3- 3- 2+ 3+ 2+ 4+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12443 3	L N W	6+,7-	11 fs 3	2415	100		10027.97	5-
12450 3	N R W	1-	5.7 keV 4
12467 3	D N O W	2+	5.1 keV 1
12478 3	N O R W	2+	3.8 keV 3
12507 3	N O R W	4+	2.3 keV 3	5158 7271 8267 8382 11136	5.8 10 15.4 19 46 4 25 4 100 6		7348.60 5235.16 4238.35 4122.853 1368.667	2+ 3+ 2+ 4+ 2+
12527.6 6	E L R U W	1+	7.5 keV 10	1796.4 2468.4 2699.2 3662.8 3872.4 4088.8 4779.4 6094.6 8287.7 11156.2 12524.1	1.9 10 6 3 2.6 13 7 3 13 6 7 4 16 8 33 2 36 2 15 8 100 5		10731.1 10059.1 9828.0 8864.5 8654.9 8438.4 7747.7 6432.2 4238.35 1368.667 0	2+ (1,2)+ 1+ 2- 2+ 1- 1+ 0+ 2+ 2+ 0+
12581 3	N O R W	2+	5.5 keV 6
12638.7 1	L N R W	4+	0.03 keV 2	3180.7 4825.8 6627.4 7402.3 8398.8 8514.2 11267.2	0.9 5 3.6 18 15.8 8 8.7 43 0.7 4 100 5 2.0 11		9457.81 7812.4 6010.34 5235.16 4238.35 4122.853 1368.667	(3)+ (4-,5+) 4+ 3+ 2+ 4+ 2+
12659.1 1	R W		0.08 keV 8
12660.8 5	N O R W	3-	0.9 keV 3	1930 2602 3144 3796 4913 5312 7424 8421 8536 11289	5 3 16 3 22 3 27 5 5 3 19 3 8 3 100 11 16 3 51 5		10731.1 10059.1 9516.18 8864.5 7747.7 7348.60 5235.16 4238.35 4122.853 1368.667	2+ (1,2)+ 4+ 2- 1+ 2+ 3+ 2+ 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12670.0 5	R U W	2-	4.0 keV 5	682.5 1217.1 1462.9 1482.6 1752.7 1849.1 1938.8 1957.7 2010.1 2309.1 2336.4 2610.7 2704.5 2841.6 3137.1 3385.3 3523.5 3666.2 3805.2 4014.7 4231.1 4311.5 4921.8 5053.0 5114.1 5320.8 7433.6 8430.1 11298.5 12666.4	0.36 2 0.17 2 0.20 3 0.19 2 0.11 1 0.07 1 0.81 3 0.42 2 0.17 2 0.04 2 0.28 2 0.25 3 0.29 2 1.02 5 2.03 8 1.12 5 0.45 3 0.67 5 24.0 8 0.47 3 5.0 5 2.35 8 6.88 22 0.05 2 2.53 10 0.07 2 0.10 3 100.0 13 17.3 7 0.42 5	D D	11988.5 11452.8 11207 11187.3 10917.2 10820.8 10731.1 10712.2 10659.8 10360.7 10333.6 10059.1 9965.3 9828.0 9532.7 9284.4 9146.2 9003.5 8864.5 8654.9 8438.4 8358.1 7747.7 7616.41 7555.3 7348.60 5235.16 4238.35 1368.667 0	2+ 2+ 2+ 3+,4+ 2+ 1+ (1,2+) 2+ 3- (1,2)+ 1+ 1+ (2,3)+ 2+,4+ 1- 2+ 2- 2+ 1- 3- 1+ 3- 1- 2+ 3+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12733.3 6	O R U		< 0.6 keV
12739.0 7	N O R W	2+	8.0 keV 7
12744 1	O	(2+)	11 keV 2
12747 2	O	(4+)	2 keV 2
12778 1	O R W	2+	30 keV 5
12784 2	O	(1-)	28 keV 4
12807.8 5	N R W	2+	1.8 keV 6	6374.7 7571.4 8567.8 11436.2 12802.1	1.5 8 3.0 15 7.6 38 39 2 100 5		6432.2 5235.16 4238.35 1368.667 0	0+ 3+ 2+ 2+ 0+
12818.1 2	O R	1+	2.3 keV 4	2457.3 2989.7 3953.3 4162.8 4379.3 5069.8 6385.0 7581.6 8578.1 11446.5 12814.4	2.6 13 3.9 19 6 3 17 8 9 5 18 9 18 9 2.6 13 54 3 26 13 100 5		10360.7 9828.0 8864.5 8654.9 8438.4 7747.7 6432.2 5235.16 4238.35 1368.667 0	2+ 1+ 2- 2+ 1- 1+ 0+ 3+ 2+ 2+ 0+
12846.9 5	L R W	(3-,4+)	0.2 keV 1	6835.5 7610.4 8606.9 8722.3 11475.3	6.1 31 4.1 20 100 5 73 4 20 10		6010.34 5235.16 4238.35 4122.853 1368.667	4+ 3+ 2+ 4+ 2+
12852.3 5	N R		0.3 keV 1
12854 1	R	(1+,2+,3+)	0.4 keV 1	7618 8614 11482 12850	52 3 100 5 18 9 9 5		5235.16 4238.35 1368.667 0	3+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12861 3	N W	2+,3-	< 1 keV	3560 4422 6850 8736	52 4 40 4 100 4 19 4		9301.07 8438.4 6010.34 4122.853	(4+) 1- 4+ 4+
12895.1 5	R W	1+	0.3 keV 2	4239.8 5146.8? 7658.6 8655.1 11523.4	4.2 21 6.9 35 16.7 8 11 6 100 6		8654.9 7747.7 5235.16 4238.35 1368.667	2+ 1+ 3+ 2+ 2+
12921.6 5	N R W	(2+,3-,4+)	6.5 keV 5	3636.9 4266.3 4563.0 7685.1 8681.6 8797.0 11549.9	24 12 14 7 59 3 100 5 72 4 52 3 24 12		9284.4 8654.9 8358.1 5235.16 4238.35 4122.853 1368.667	2+,4+ 2+ 3- 3+ 2+ 4+ 2+
12955.5 1	L R W	1+	1.9 keV 1	1502.6 2243.2 2275.7 2594.6 2844.4 2896.2 2990.0 3127.1 3649.8 3809.0 3951.6 4090.6 4300.2 4516.6 5206.6 5605.1 6521.4 8714.8 11583.2 12951.1	0.06 1 0.016 5 0.021 4 1.43 5 0.123 6 0.157 7 0.029 4 0.89 2 0.81 2 0.65 2 0.030 2 0.31 1 0.20 1 0.064 5 0.014 2 0.16 6 1.17 4 1.12 4 100.0 5 9.6 4		11452.8 10712.2 10679.7 10360.7 10110.9 10059.1 9965.3 9828.0 9305.39 9146.2 9003.5 8864.5 8654.9 8438.4 7747.7 7348.60 6432.2 4238.35 1368.667 0	2+ 1+ 0+ 2+ (0+) (1,2)+ 1+ 1+ 0+ 1- 2+ 2- 2+ 1- 1+ 2+ 0+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12963.9 5	R W	2-	3.5 keV 2	2904.6 7727.4 8723.8 11592.2 12960.1	4.1 21 4.1 100 8.2		10059.1 5235.16 4238.35 1368.667 0	(1,2)+ 3+ 2+ 2+ 0+
12967.9 5	R		< 1.5 keV
12975 3	C N O W	4+	3.3 keV 3
12997.9 5	O Q R U W		0.3 keV 2
13029.8 1	R W	2+,3-	0.7 keV 1	2668.9 3571.7 3729.7 4025.9 4374.5 4590.9 5412.7 7793.3 8789.7 8905.2 11658.1	1.0 4.1 3.1 8 4.1 3.1 22 100 49 6.1 3.5		10360.7 9457.81 9299.8 9003.5 8654.9 8438.4 7616.41 5235.16 4238.35 4122.853 1368.667	2+ (3)+ 2+ 2+ 1- 3- 3+ 2+ 4+ 2+
13048 2	L N O R W	0+	3.0 keV 7	3082 3220 4609 5300 5492	70 7 100 7 30 5 23 5 14 5	D	9965.3 9828.0 8438.4 7747.7 7555.3	1+ 1+ 1- 1+ 1-
13050.0 1	N R W	4+	0.09 keV 3	922.0 1719.0 1833.2 2229.1 2389.7 2468.6 3021.8 3591.9 3748.6 3749.9 3765.3 5237.0 5432.9 7038.6 7813.5 8925.4 11678.3	0.040 4 0.021 7 0.32 1 0.052 5 0.30 1 2.28 7 0.52 2 2.52 8 0.09 3 0.35 3 0.139 6 0.20 1 0.013 4 1.83 6 1.58 6 100.0 2 0.09 1		12128 11330 11216.69 10820.8 10660.17 10581.26 10027.97 9457.81 9301.07 9299.8 9284.4 7812.4 7616.41 6010.34 5235.16 4122.853 1368.667	3+,4+ 3+,4+ (3+,4+) (2+,3+,4+) 5- (3)+ (4+) 2+,4+ (4-,5+) 3- 4+ 3+ 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13057 3	L N W	5-	< 1 keV	2723 4698 5440 8932	16 3 15 3 16 3 100 5		10333.6 8358.1 7616.41 4122.853	3- 3- 3- 4+
13088.8 5	N R W	2+	9 keV 3	3804.1 4433.5 4730.2 7077.3 7852.3 8848.7 8964.2 11717.1 13085.0	27 6 67 10 100 40 63 20 0.7		9284.4 8654.9 8358.1 6010.34 5235.16 4238.35 4122.853 1368.667 0	2+,4+ 2+ 3- 4+ 3+ 2+ 4+ 2+ 0+
13095 2	O	(2+)	14 keV 3
13133 3	J N R Z	0+	7 keV 1
13138 3	N R W		5.4 keV 5
13146	R		3.2 keV 5
13160.5 7	R W		1.7 keV 7
13178 3	W Z
13184.6 8	N R W Z		5.6 keV 4
13196 2	I N O R W Z	0+	2.7 keV 4
13206 2	O	(4+)	14 keV 3
13212.8	K L		2.3 fs 12	5099.0	100		8113.2	6+
13260 4	N R V	1-	36 keV 3
13268.7 7	R	(1)+	≈ 8 keV
13275.5 10	R		≈ 2 keV
13335 3	N R	1-	33 keV 3
13345.7 6	O R W	3-	0.6 keV 2	1824 2685.7 3887.6 4045.5 4341.8 4905.9 5728.6 5996.3 8109.1 9105.5 9220.9 11973.8 13341.7	1.9 19 19 28 2.8 100 33 6 2.8 25 31 8 0.8		11522 10659.8 9457.81 9299.8 9003.5 8439.29 7616.41 7348.60 5235.16 4238.35 4122.853 1368.667 0	2+ (1,2+) (3)+ 2+ 4+ 3- 2+ 3+ 2+ 4+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13352	R
13355.0 8	R	2-	15.2 keV 2
13366.9 8	R U	(2)	1.6 keV 7	2785 5554 11995 13363	100 35 9 9		10581.26 7812.4 1368.667 0	(2+,3+,4+) (4-,5+) 2+ 0+
13370 10	Z	0+
13390 15	J	[7-]
13413 4	N O		2.8 keV 3
13419.3 8	N O R		3.2 keV 7
13424.7 12	N O R		3.2 keV 7
13437 4	N O W	3-	15.0 keV 25
13446.8 8	N O R	(1,2)	< 0.4 keV	2056 5008 9323 12075 13443	65 3 21 10 100 4 23 1		11391 8438.4 4122.853 1368.667 0	1- 1- 4+ 2+ 0+
13450 20	J L	6+	< 15 keV
13452.4 8	R	2+,(1+)	3.2 keV 7
13474.9 8	R	2+,3,4+	< 1 keV	7463 8238 9350 12103	60 3 100 5 15 7 7 4		6010.34 5235.16 4122.853 1368.667	4+ 3+ 4+ 2+
13482.9 8	N R		1.2 keV 3
13542.3 8	R		6.9 keV 10
13585	N R	(1)-	21 keV 2
13587.1 10	N O R	1-	8.0 keV 10
13632.6 11	R		2.1 keV 12
13677.4 9	N R		6.5 keV 17
13686 1	C O R	2-	23 keV 3
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13708	O	(3-)	≈ 130 keV
13722 4	N R	2+	4.3 keV 3
13738 1	O	(2+)	13 keV 3
13771 3	N R	5-	5.5 keV 23	5412 9646	100 10 72 10		8358.1 4122.853	3- 4+
13788 10	O	(4+)	≈ 21 keV
13800 3	N R Z	0+	4.5 keV 7
13813 3	R	1-	24 keV 4
13819 2	R	2-	39 keV 9
13841 3	L R		2.5 keV 5
13850 4	L N		< 1 keV
13882 2	O R	1+	2.0 keV 2
13886 3	O R	2+	38 keV 8
13893 3	N R Z	0+	13 keV 2
13910 1	O	4+	18 keV 3
13933 2	R	(1,2,3)+	3.0 keV 6
13948 3	R	1+	4.0 keV 8
13984 3	R	(1,2,3)+	4.9 keV 5
14019 4	E O R V	3-
14026 3	N R	2+	5.1 keV 8
14037 2	O	(1-)	21 keV 4
14060 10	O		< 4 keV
14079 4	N O		24 keV 5
14081 3	N O R	1+	6.0 keV 6	3069 4779 8069 9956	40 4 2.2 9 80 7 100 7		11012 9301.07 6010.34 4122.853	3,5+ (4+) 4+ 4+
14101 4	J N O		1.4 keV 4
14150 4	J L N	8+	1.8 keV 4	4620 25 6040 25	100 4 33 4		9527.6 8113.2	(6+) 6+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
14152 4	N W		6.2 keV 7
14157 4	N
14165 1	O	(4+)	11.1 keV 19
14245 4	N		11.3 keV 14
14264 1	O	(4+)	16 keV 2
14329 4	L N	4+	< 1 keV
14355 12	O	(3-)	112 keV 29
14397 2	L O	4+	12 keV 3
14461 10	O P		46 keV
14500	W
14568 10	L O	(3-,5-)	< 13 keV
14582 10	O		61 keV
14648 6	L O		11 keV 9
14696 1	O P	(5-)	9 keV 1
14745 10	L O	(4+)	13 keV
≈14793	I
14928 10	L O	(0+,1-)	≈ 10 keV
14995 10	O	(4+,5-)	≈ 20 keV
15045 35	E U V W	(6-)
≈15093	I
15117 10	O W	(4+)	15 keV
15141 10	J L O W		15 keV
15179 3	O	(4+)	57 keV 7
15214 1	L O P W	(5-)	36 keV 3
15233 3	O P	(4+)	27 keV 6
15266 10	O	(1-,3-)	≈ 8 keV
15330 30	Z	0+
15354 3	O	(4+)	21 keV 4
15385 3	O V W	(4+)	31 keV 7
15437.5 6	Q R W	0+	0.7 keV 3
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
15443 10	O	(2+)	13 keV
15484 10	I O	(2+)	15 keV
15533 1	L O P W	(6+)	18 keV 2
15570 15	J
15611 3	O	(2+)	31 keV 8
15640 20	L	(6+)
15691 10	O	(0+)	≤ 15 keV
15716 10	O	(4+)
15750 15	J	[7-,8+]
15790 30	Z	0+
15793 10	L O	(4+)	13 keV
15828 10	O		87 keV
15853 10	O		< 13 keV
15886 10	O	(4+)	42 keV
15978	O	(1-,3-)	≈ 35 keV
16070 20	L P	6+
16136 10	E L O	(3-)	19 keV 6
16170 10	O	(4+,6+)	< 8 keV
16203 10	L O P	(6+)	8 keV
16278 10	O	(4+)	30 keV
16309 10	L O		10 keV
16333	O	(4+,6+)
16343 10	O	(4+)	13 keV
16395 4	O	(2+)	37 keV 10
16440 10	L O	(7-)	10 keV
16477 1	L O P	(6+)	8 keV 2
16529 2	O P	(6+)	31 keV
16564 10	J L O P	8+
16602 10	L O	6+	30 keV
16611 10	O	(5-)	≤ 8 keV
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
16674 10	L O	6+	30 keV
16782 10	E L O	(4+,6+)	30 keV
16844 10	L O	(6+)	22 keV
16874 6	J O P	(5-)	73 keV 17
16904 3	L		< 7 fs	5043	100		11860	(8+)
16929 3	L O	(6+)	44 keV 6
17017 3	E L O P	(7-)	15 keV 10
17088 3	E O P	(6+)	44 keV 6
17140 2	E L O	(5-)	26 keV 6
17190 15	J L	8+
17227 2	O	(4+)	17 keV 3
17.29E3 4	L O		≈ 46 keV
17407 10	O	(6+)	20 keV
17444 10	L O	(6+)	20 keV
17465 10	O
17520 15	J L
17623 3	E L O	(5-)	23 keV 8
17740 10	O	(4+)	≈ 25 keV
17748 10	O		≈ 20 keV
17782 10	O		≈ 42 keV
17840 10	O		≈ 42 keV
17.90E3	L	(8+)
17948 3	O	(4+)	56 keV 8
17990 10	O	(6+)	≈ 17 keV
18038 3	O	(5-)	50 keV 8
18075 10	O
18097 10	O		20 keV
18157 10	O	(5-)	20 keV
18.16E3	L	8+
18169 10	O	(7-)	< 8 keV
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
18203 10	O		≈ 25 keV
18273 10	O	(7-)	≈ 21 keV
18332 10	L O c		≈ 17 keV
18423 10	O	(6+)	≈ 17 keV
18465 10	O		≈ 13 keV
18740 15	E J L
18.97E3	L	(8+)
19.0E3 3	L
19110 15	E J L	(10+)		5856?	100		13212.8
19.2E3 3	L
19.21E3 4	L	(9-)
19400 15	J
19.69E3 3	L
19890 15	E J L
19990 15	E J L	(7-)	59 keV 5
20.03E3 3	L		28 keV 5
20.09E3	L	(9-)	35 keV 13
20210 15	E J L	[10+]	35 keV 13
20260 15	E J L	(8+)	64 keV 8
20.28E3 2	L M	(2+)
20.42E3	L	(9-)
20.46E3 1	L		< 15 keV
20.53E3 3	L	(6+)	43 keV 13
20.68E3 5	L M
20.83E3 3	L		< 15 keV
20.91E3 3	L		< 15 keV
20.94E3 3	L
21.20E3 2	L M	(4+)
21.29E3 3	L		< 15 keV
21.39E3 2	L	(6+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
21.46E3 2	L
21.66E3 5	L M
21.80E3 1	L M		< 15 keV
22.3E3 2	M	(4+)
22.4E3 2	M	(8)
22.79E3 2	L
22.87E3 1	L		< 15 keV
22.93E3 3	L		73 keV 13
23.00E3 2	L
23.10E3 3	L
23.19E3 3	L		< 15 keV
23.26E3 1	L		< 15 keV
23.77E3 1	L M	(6+,(8+))
24.37E3 3	L M	(9)	27 keV 3
24.53E3 5	L
24.60E3 3	L M	(8+)
24.98E3 14	L M	(9)
25.18E3 3	E L M	(6+)	163 keV 6
25.40E3 3	L
25.8E3 2	L M	(9,10)
26.2E3 2	L M	(10)
26.28E3 2	L	(12+)
26.45E3 3	E L M	(8+)	115 keV 20
26.67E3 3	L	(12+)
26.8E3 2	M	(10)
27.4E3 1	L M
28.0E3 1	E L M	(10)
28.5E3 1	L
29.3E3 1	E L M	(10,12)
29.7E3 1	L
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
30.1E3 1	E L M	(12)
31.2E3 1	L M	(12)
31.8E3 1	L
32.6E3 1	E L M	(10)
33.1E3 1	L
37.5E3	M
43.0E3	M
46.4E3	M	(14+,16+)

E(level): From a least squares fit to the measured γ-ray energies for levels with depopulating γ, assuming ΔE=1 keV where not given, unless where otherwise noted. Calculated Eγ were not considered in the least squares fit.

T_1/2(level): From (p,γ),(p,p’),(p,X) mainly by ΔS(a) method, except where otherwise noted.

I(γ): From (p,γ), except where otherwise noted.

M(γ): From ²⁴Na β^- decay (14.956 h), except where otherwise noted.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - Prolate Kπ=0⁺ band
0	0+	STABLE
1368.667 5	2+	1.36 ps 3	1368.625 5	100	E2	0	0+
4122.853 12	4+	24.3 fs 21	2754.016 11	100	E2	1368.667	2+
8113.2 10	6+	3.6 fs 12	3990.0	100	[E2]	4122.853	4+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - Prolate Kπ=2⁺ band
4238.35 4	2+	45.7 fs 35
5235.16 5	3+	68 fs 5	996.83 10 3866.15 10 5235	2.63 14 100.0 5 10 3	D+Q E2(+M1) [M3]	4238.35 1368.667 0	2+ 2+ 0+
6010.34 5	4+	53 fs 4	775.4 2 1771.92 7 1887.52 20 4641.19 9	1.6 2 11.4 4 1.64 18 100.0 5	[E2] [E2]	5235.16 4238.35 4122.853 1368.667	3+ 2+ 4+ 2+
9527.6 7	(6+)	8 fs 4	3517.0 5404.0	100 6 28 6	[E2] [E2]	6010.34 4122.853	4+ 4+

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1368.667	2+	1.36 ps 3	1368.625 5	E2		5.62×10^-5	B(E2)(W.u.)=21.07 +48-46, α=5.62E-5 8, α(K)=9.29E-6 13, α(L)=5.97E-7 9, α(M)=2.21E-8 3
4122.853	4+	24.3 fs 21	2754.016 11	E2		6.78×10^-4	B(E2)(W.u.)=35.7 +34-29, α=6.78E-4, α(K)=2.54E-6 4, α(L)=1.632E-7 23, α(M)=6.05E-9 9
4238.35	2+	45.7 fs 35	2869.50 6	M1+E2	-23 9	7.30×10^-4	B(E2)(W.u.)=3.36 27, B(M1)(W.u.)=8E-6 +15-4, α=7.30E-4, α(K)=2.38E-6 4, α(L)=1.528E-7 22, α(M)=5.67E-9 8
4238.35	2+	45.7 fs 35	4237.96 6	[E2]		1.25×10^-3	B(E2)(W.u.)=1.72 +14-12, α=1.25E-3, α(K)=1.330E-6 19, α(L)=8.53E-8 12, α(M)=3.16E-9 5
5235.16	3+	68 fs 5	3866.15 10	E2(+M1)	-17 4	1.12×10^-3	B(E2)(W.u.)=2.08 16, B(M1)(W.u.)=1.7E-5 +12-6, α=1.12E-3, α(K)=1.516E-6 22, α(L)=9.73E-8 14, α(M)=3.61E-9 5
6010.34	4+	53 fs 4	1771.92 7	[E2]		2.11×10^-4	B(E2)(W.u.)=14.9 12, α=2.11E-4, α(K)=5.50E-6 8, α(L)=3.53E-7 5, α(M)=1.310E-8 19
6010.34	4+	53 fs 4	4641.19 9	[E2]		1.38×10^-3	B(E2)(W.u.)=1.06 8, α=1.38E-3, α(K)=1.172E-6 17, α(L)=7.52E-8 11, α(M)=2.79E-9 4
6432.2	0+	69 fs 12	2194	[E2]		4.13×10^-4	B(E2)(W.u.)=6.8 +15-11, α=4.13E-4, α(K)=3.72E-6 6, α(L)=2.39E-7 4, α(M)=8.86E-9 13
	0+	69 fs 12	5063.2	[E2]		1.51×10^-3	B(E2)(W.u.)=0.50 +10-7, α=1.51E-3, α(K)=1.040E-6 15, α(L)=6.68E-8 10, α(M)=2.48E-9 4
	0+	69 fs 12	6432	E0		8.76×10^-3	α=8.76×10^-3
7348.60	2+	6.5 fs 22	7347.2 9	[E2]			B(E2)(W.u.)=0.61 +31-15
7555.3	1-	270 fs 55	3316.7	[E1]		1.39×10^-3	B(E1)(W.u.)=1.9E-5 +5-4, α=1.39E-3, α(K)=1.369E-6 20, α(L)=8.79E-8 13, α(M)=3.26E-9 5
	1-	270 fs 55	6185.8	[E1]			B(E1)(W.u.)=3.8E-6 +10-7
	1-	270 fs 55	7554.0	[E1]			B(E1)(W.u.)=3.3E-6 +9-6
7616.41	3-	1.01 ps 15	2381.0 3	[E1]			B(E1)(W.u.)=2.6E-6 +9-8
	3-	1.01 ps 15	3378.3 8	[E1]		1.42×10^-3	B(E1)(W.u.)=1.04E-6 +25-21, α=1.42E-3, α(K)=1.339E-6 19, α(L)=8.59E-8 12, α(M)=3.18E-9 5
	3-	1.01 ps 15	3493.3	[E1]		1.47×10^-3	B(E1)(W.u.)=8.5E-7 +22-19, α=1.47E-3, α(K)=1.285E-6 18, α(L)=8.24E-8 12, α(M)=3.06E-9 5
	3-	1.01 ps 15	6246.89 11	[E1]			B(E1)(W.u.)=2.06E-6 +37-28
	3-	1.01 ps 15	7615.2 9	[E3]			B(E3)(W.u.)=5.6 +11-8
8113.2	6+	3.6 fs 12	3990.0	[E2]		1.17×10^-3	B(E2)(W.u.)=38 +18-10, α=1.17E-3, α(K)=1.449E-6 21, α(L)=9.30E-8 13, α(M)=3.45E-9 5
8358.1	3-	63 fs 8	2347.7	[E1]		8.77×10^-4	B(E1)(W.u.)=1.34E-4 +30-27, α=8.77E-4, α(K)=2.14E-6 3, α(L)=1.375E-7 20, α(M)=5.10E-9 8
	3-	63 fs 8	3122.7	[E1]			B(E1)(W.u.)=8.6E-5 +16-13
	3-	63 fs 8	6988.3	[E1]			B(E1)(W.u.)=2.31E-5 +35-28
	3-	63 fs 8	8356.5	[E3]			B(E3)(W.u.)=10.4 +20-17
8438.4	1-	9 fs 2	7068.6	[E1]			B(E1)(W.u.)=5.1E-5 +28-22
8438.4	1-	9 fs 2	8436.8	(E1)			B(E1)(W.u.)=1.20E-4 +37-24
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
8439.29	4+	3.2 fs 14	822.0 6	[E1]			B(E1)(W.u.)=0.00015 +13-7
	4+	3.2 fs 14	1090.67 10	[E2]			B(E2)(W.u.)=59 +43-19
	4+	3.2 fs 14	4200.54 13	[E2]		1.24×10^-3	B(E2)(W.u.)=2.1 +15-6, α=1.24E-3, α(K)=1.347E-6 19, α(L)=8.64E-8 12, α(M)=3.20E-9 5
	4+	3.2 fs 14	7069.50 12	[E2]			B(E2)(W.u.)=1.6 +12-5
8654.9	2+	14 fs 3	2222.3	[E2]		4.27×10^-4	B(E2)(W.u.)=9.0 +32-22, α=4.27E-4, α(K)=3.64E-6 5, α(L)=2.34E-7 4, α(M)=8.66E-9 13
8864.5	2-	5.5 fs 21	3629.0	[E1]		1.53×10^-3	B(E1)(W.u.)=6.0E-5 +36-17, α=1.53E-3, α(K)=1.226E-6 18, α(L)=7.87E-8 11, α(M)=2.92E-9 4
	2-	5.5 fs 21	4625.7	[E1]			B(E1)(W.u.)=1.2E-4 +7-3
	2-	5.5 fs 21	7494.6	[E1]			B(E1)(W.u.)=0.00031 +19-9
	2-	5.5 fs 21	8862.7	[M2]			B(M2)(W.u.)=0.11 +7-4
9003.5	2+	8.4 fs 12	2570.9	[E2]		5.94×10^-4	B(E2)(W.u.)=13 +6-5, α=5.94E-4, α(K)=2.84E-6 4, α(L)=1.83E-7 3, α(M)=6.77E-9 10
	2+	8.4 fs 12	4880.1	[E2]		1.46×10^-3	B(E2)(W.u.)=1.29 +39-34, α=1.46E-3, α(K)=1.094E-6 16, α(L)=7.02E-8 10, α(M)=2.60E-9 4
	2+	8.4 fs 12	9001.7	[E2]			B(E2)(W.u.)=0.172 +34-26
9516.18	4+	12 fs 5	1899.70 6	[E1]		5.75×10^-4	B(E1)(W.u.)=0.00023 +15-7, α=5.75E-4, α(K)=2.89E-6 4, α(L)=1.85E-7 3, α(M)=6.87E-9 10
9516.18	4+	12 fs 5	8146.0	[E2]			B(E2)(W.u.)=0.00025 +18-9
9527.6	(6+)	8 fs 4	3517.0	[E2]		1.00×10^-3	B(E2)(W.u.)=25 +22-9, α=1.00E-3, α(K)=1.742E-6 25, α(L)=1.118E-7 16, α(M)=4.15E-9 6
9527.6	(6+)	8 fs 4	5404.0	[E2]		1.60×10^-3	B(E2)(W.u.)=0.8 +7-3, α=1.60E-3, α(K)=9.53E-7 14, α(L)=6.12E-8 9, α(M)=2.27E-9 4
10027.97	5-	62 fs 18	1670	[E2]		1.66×10^-4	B(E2)(W.u.)=32 +14-8, α=1.66E-4, α(K)=6.17E-6 9, α(L)=3.96E-7 6, α(M)=1.469E-8 21
	5-	62 fs 18	2411.2	[E2]		5.19×10^-4	B(E2)(W.u.)=1.0 +5-3, α=5.19E-4, α(K)=3.17E-6 5, α(L)=2.03E-7 3, α(M)=7.53E-9 11
	5-	62 fs 18	4017.2	[E1]		1.69×10^-3	B(E1)(W.u.)=1.9E-5 +9-5, α=1.69E-3, α(K)=1.085E-6 16, α(L)=6.96E-8 10, α(M)=2.58E-9 4
	5-	62 fs 18	5904.2	[E1]		0.00227	B(E1)(W.u.)=2.6E-5 +11-6, α=0.00227, α(K)=6.95E-7 10, α(L)=4.46E-8 7, α(M)=1.652E-9 24
	5-	62 fs 18	8657.5	[E3]			B(E3)(W.u.)=39 +18-11
10360.7	2+	1.0 fs 3	3927.9	[E2]		1.15×10^-3	B(E2)(W.u.)=1.0 +6-4, α=1.15E-3, α(K)=1.482E-6 21, α(L)=9.51E-8 14, α(M)=3.53E-9 5
10360.7	2+	1.0 fs 3	10358.3	[E2]			B(E2)(W.u.)=0.47 +20-11
10731.1	2+	7 fs 3	6491.8	(M1)			B(M1)(W.u.)=0.0023 +16-7
10917.2	2+	0.8 fs 1	4485	[E2]		1.34×10^-3	B(E2)(W.u.)=0.38 +11-10, α=1.34E-3, α(K)=1.229E-6 18, α(L)=7.88E-8 11, α(M)=2.92E-9 4
	2+	0.8 fs 1	4906.3	[E2]		1.46×10^-3	B(E2)(W.u.)=0.48 +10-8, α=1.46E-3, α(K)=1.086E-6 16, α(L)=6.97E-8 10, α(M)=2.58E-9 4
	2+	0.8 fs 1	6793.3	[E2]			B(E2)(W.u.)=1.90 +29-24
	2+	0.8 fs 1	10914.5	[E2]			B(E2)(W.u.)=0.38 +6-5
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
11600	3-	15 fs 4	2084	[E1]		7.05×10^-4	B(E1)(W.u.)=0.00057 +21-13, α=7.05E-4, α(K)=2.53E-6 4, α(L)=1.622E-7 23, α(M)=6.01E-9 9
	3-	15 fs 4	2299	[E1]			B(E1)(W.u.)=0.0015 +5-3
	3-	15 fs 4	2315	[E1]			B(E1)(W.u.)=2.4E-4 +9-6
	3-	15 fs 4	7476	[E1]			B(E1)(W.u.)=2.2E-6 +9-6

E(level)	J^π(level)	T_1/2(level)	Comments
0	0+	STABLE	<r²>^1/2(²⁴Mg)=3.0570 16 (charge radius) (2013An02 evaluation). Others: 3.0570 fm 7 (stat) 48 (syst) (2012Yo01), 3.030 fm 30 (1971Li26 - (e,e’)). E(level): <r²>^1/2(²⁴Mg)=3.0570 16 (charge radius) (2013An02 evaluation). Others: 3.0570 fm 7 (stat) 48 (syst) (2012Yo01), 3.030 fm 30 (1971Li26 - (e,e’)). From ²⁴Al ε decay (130.7 ms). Prolate Kπ=0⁺ band.
1368.667	2+	1.36 ps 3	Q=-0.29 3, μ=+1.08 3, G=0.538 13 (2015Ku05), T=0 (2015Ku05) Uncertainty in g-factor includes 0.011 (statistical) and 0.007 (systematic). E(level): Uncertainty in g-factor includes 0.011 (statistical) and 0.007 (systematic). From ²⁴Al ε decay (130.7 ms). Prolate Kπ=0⁺ band.
4122.853	4+	24.3 fs 21	μ=+1.7 12 XREF: j(4115.1). E(level): From ²⁴Al ε decay (130.7 ms). Prolate Kπ=0⁺ band.
4238.35	2+	45.7 fs 35	μ=+1.3 4 E(level): From ²⁴Al ε decay (130.7 ms). Prolate Kπ=2⁺ band.
5235.16	3+	68 fs 5	XREF: h(5251). E(level): From ²⁴Al ε decay (130.7 ms). Prolate Kπ=2⁺ band.
6010.34	4+	53 fs 4	μ=+2.1 16 XREF: V(5.93×10³)d(6.1×10³)j(6007.3). E(level): From ²⁴Al ε decay (130.7 ms). Prolate Kπ=2⁺ band.
6432.2	0+	69 fs 12	XREF: f(6448).
7555.3	1-	270 fs 55	XREF: J(7.58×10³). T_1/2(level): From (p,p’),(pol p,p’),(pol p,p’γ), by ΔS(a) method.
7616.41	3-	1.01 ps 15	XREF: V(7.55×10³).
7812.4	(4-,5+)	21 fs 3	XREF: h(7797).
8113.2	6+	3.6 fs 12	XREF: Y(8120)j(8104.7). E(level): From ²⁴Al ε decay (130.7 ms). Prolate Kπ=0⁺ band.
8358.1	3-	63 fs 8	E(level): From (p,γ).
8654.9	2+	14 fs 3	E(level): From (p,γ).
8864.5	2-	5.5 fs 21	E(level): From (p,γ).
9003.5	2+	8.4 fs 12	E(level): From (p,γ). From (²⁴Mg,¹²Cγ). T_1/2(level): From (e,e’), from Γ₀ and adopted γ-ray branching.
9146.2	1-		XREF: S(9166)f(9166). E(level): From (p,γ).
9160	[5-]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
9299.8			E(level): From (p,γ).
9305.39	0+	173 fs 35	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
9450	[5-,6+]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
9527.6	(6+)	8 fs 4	XREF: W(9521)Y(9520)j(9523). E(level): From ²⁴Al ε decay (130.7 ms). Prolate Kπ=2⁺ band. From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
9532.7	(2,3)+	14 fs 7	T=0 XREF: f(9650). E(level): From (p,γ).
9828.0	1+	0.30 fs 7	T=0&1 E(level): From (²⁴Mg,¹²Cγ). From (p,γ). T_1/2(level): From (e,e’), from Γ₀ and adopted γ-ray branching.
9940	[5-]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
9965.3	1+	71 as 7	T=1 E(level): From (²⁴Mg,¹²Cγ). T_1/2(level): From (e,e’), from Γ₀ and adopted γ-ray branching.
E(level)	J^π(level)	T_1/2(level)	Comments
10027.97	5-	62 fs 18	T=0 XREF: V(9.97×10³). E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
10059.1	(1,2)+	< 3 fs	T=1 E(level): From (p,γ).
10110.9	(0+)	< 5 keV	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
10250	[4+,5-]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
10333.6	3-	< 7 keV	T=0 E(level): From (p,γ). From (¹²C,γ). J^π(level): From αγ angular correlations (1983Sc17,1965Sm03) (α,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
10360.7	2+	1.0 fs 3	T=0 E(level): From (p,γ).
10575.93	(4)+	9 fs 2	T=0 XREF: J(10490). E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
10581.26	(2+,3+,4+)	< 2 fs	E(level): From (p,γ).
10659.8	(1,2+)		E(level): From (p,γ).
10660.17	(3+,4+)	< 2 fs	E(level): From (p,γ).
10679.7	0+	2.1 eV 8	T=0 E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
10712.2	1+	23 as 2	T=1 E(level): From (p,γ). From (²⁴Mg,¹²Cγ). T_1/2(level): From (e,e’), from Γ₀ and adopted γ-ray branching.
10731.1	2+	7 fs 3	T=0 E(level): From (p,γ).
10820.8	3+,4+	7.5 eV 11	XREF: S(10838). E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
10917.2	2+	0.8 fs 1	T=0 XREF: U(10939). E(level): From (p,γ). From (²⁴Mg,¹²Cγ). T_1/2(level): From (e,e’), from Γ₀ and adopted γ-ray branching.
11012	3,5+		T=1 J^π(level): From αγ angular correlations (1983Sc17,1965Sm03) (α,γ).
11018	2+	< 3 keV	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
11133		26 fs 4	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11150	[6+,7-]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
11165	3-	< 3 keV	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
11187.3			E(level): From (p,γ).
11207		0.0022 eV 12	T=0&1 XREF: n(11215). E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11216.69	3+,4+	0.78 eV 11	T=0 XREF: n(11226)f(11228). E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11293		20 fs 3	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11390	0+		J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations.
E(level)	J^π(level)	T_1/2(level)	Comments
11391	1-	0.5 keV	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
11394			L(³He,⁴He)=1 probably for a doublet. E(level): L(³He,⁴He)=1 probably for a doublet. From (¹⁶O,α),(¹⁶O,αγ).
11452.8	2+	< 2 keV	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
11457	(0+)		T=0 E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on measured σ(θ) and Legendre polynomial fits (1954Go70).
11522	2+	0.5 keV	T=0 XREF: U(11474). E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
11527	(2+)		E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on measured σ(θ) and Legendre polynomial fits (1954Go70).
11600	3-	15 fs 4	T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11698.2	4+	1.6 eV 6	T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11730	0+	10 keV 2	T=0 E(level): From (¹²C,γ). J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations. T_1/2(level): From (α,γ), by ΔS(a) method.
11830			XREF: J(11810).
11860	(8+)	63 fs 24	XREF: n(11865). E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
11862.8	1-	7.0 keV 3	T=0 E(level): From (¹²C,γ). J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations. T_1/2(level): From (α,γ), by ΔS(a) method.
11909		5.5 keV 22	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
11932.9	(3)+	< 0.02 keV	E(level): From (p,γ).
11966.6	2+	2.0 keV 4	T=0 E(level): From (p,γ).
11988.5	2+	< 0.02 keV	T=0 E(level): From (p,γ).
12003		< 1 keV	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12017.2	3-	0.7 keV 2	T=0 XREF: U(11990). E(level): From (p,γ).
12051.3	4+	< 0.02 keV	T=0&1 E(level): From (p,γ).
12119.0	4+	1.9 keV 3	T=0 E(level): From (p,γ). From (¹²C,γ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,γ), by ΔS(a) method.
12128			E(level): From (p,γ).
12162	4+	0.9 keV 3	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12183.3		< 0.046 keV	γ’s to 0⁺ and 4⁺. E(level): From (p,γ).
12259.3	2-	< 0.06 keV	E(level): From (p,γ).
12259.8	3-	1.8 keV 3	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
E(level)	J^π(level)	T_1/2(level)	Comments
12273	(3-)		E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on measured σ(θ) and Legendre polynomial fits (1954Go70).
12340	[7+]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
12340.2	3+	< 0.07 keV	E(level): From (p,γ).
12342		3.5 fs 14	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
12385	0-	7 keV 2	E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements.
12400.3	3+	< 0.09 keV	T=0 E(level): From (p,γ).
12404.9	2+	< 0.1 keV	T=0&1 E(level): From (p,γ).
12443	6+,7-	11 fs 3	T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
12450	1-	5.7 keV 4	T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). From (¹²C,γ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements. T_1/2(level): From (α,γ), by ΔS(a) method.
12467	2+	5.1 keV 1	T=0 T_1/2(level): From (α,α),(α,α’), from resonance fits.
12478	2+	3.8 keV 3	E(level): From ²⁴Al ε decay (2.053 s). From (¹²C,γ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From (α,α),(α,α’), based on measured σ(θ) and Legendre polynomial fits (1954Go70). From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements. T_1/2(level): From (α,γ), by ΔS(a) method.
12507	4+	2.3 keV 3	T=0 XREF: O(12515). E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12527.6	1+	7.5 keV 10	T=0&1 XREF: L(12.54×10³). E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements.
12581	2+	5.5 keV 6	T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements.
12638.7	4+	0.03 keV 2	T=0&1 E(level): From (p,γ).
12659.1		0.08 keV 8	E(level): From (p,γ).
12660.8	3-	0.9 keV 3	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12670.0	2-	4.0 keV 5	T=1 E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements.
12733.3		< 0.6 keV	XREF: U(12706). E(level): From (p,γ).
12739.0	2+	8.0 keV 7	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12744	(2+)	11 keV 2	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
12747	(4+)	2 keV 2	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
12778	2+	30 keV 5	T=0 E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
12784	(1-)	28 keV 4	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
12807.8	2+	1.8 keV 6	T=0 E(level): From (p,γ).
E(level)	J^π(level)	T_1/2(level)	Comments
12818.1	1+	2.3 keV 4	T=0&1 E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements. From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
12846.9	(3-,4+)	0.2 keV 1	T=0 E(level): From (p,γ).
12852.3		0.3 keV 1	T=0 E(level): From (p,γ).
12861	2+,3-	< 1 keV	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12895.1	1+	0.3 keV 2	T=0 E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements. From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
12921.6	(2+,3-,4+)	6.5 keV 5	T=0&1 E(level): From (p,γ).
12955.5	1+	1.9 keV 1	T=1 E(level): From (p,γ).
12963.9	2-	3.5 keV 2	T=0 E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
12975	4+	3.3 keV 3	T=0 XREF: O(12983). E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
12997.9		0.3 keV 2	XREF: O(13005?). E(level): From (p,γ).
13029.8	2+,3-	0.7 keV 1	T=1 γ’s to 1- and 4⁺. 2⁺ in (p,γ),(p,p’),(p,x). E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13050.0	4+	0.09 keV 3	T=0&1 E(level): From (p,γ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 1956Ba96 - ²³Na(p,p), based on either of the elastic scattering (p₀) or capture γ(θ) measurements.
13057	5-	< 1 keV	T=0 XREF: L(13070). E(level): From (¹²C,γ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,γ), by ΔS(a) method.
13088.8	2+	9 keV 3	T=0&1 E(level): From (p,γ).
13095	(2+)	14 keV 3	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13133	0+	7 keV 1	T=0 J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations.
13138		5.4 keV 5	T=0 XREF: n(13141). E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13160.5		1.7 keV 7	T=0 E(level): From (p,γ).
13184.6		5.6 keV 4	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13196	0+	2.7 keV 4	T=0 E(level): From (¹²C,γ). J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations. T_1/2(level): From (α,γ), by ΔS(a) method.
13206	(4+)	14 keV 3	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13212.8		2.3 fs 12	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
13260	1-	36 keV 3	T=0 E(level): From (¹²C,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements. T_1/2(level): From (α,γ), by ΔS(a) method.
13268.7	(1)+	≈ 8 keV	J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13335	1-	33 keV 3	T=0 E(level): From (¹²C,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements. T_1/2(level): From (α,γ), by ΔS(a) method.
E(level)	J^π(level)	T_1/2(level)	Comments
13345.7	3-	0.6 keV 2	T=0&1 E(level): From (p,γ).
13355.0	2-	15.2 keV 2	J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13366.9	(2)	1.6 keV 7	T=1 XREF: U(13371). E(level): From (p,γ).
13370	0+		J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations.
13390	[7-]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
13413		2.8 keV 3	E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13424.7		3.2 keV 7	T=0 E(level): From (p,γ).
13437	3-	15.0 keV 25	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13446.8	(1,2)	< 0.4 keV	T=0 E(level): From (p,γ).
13450	6+	< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
13452.4	2+,(1+)	3.2 keV 7	T=0 J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13474.9	2+,3,4+	< 1 keV	E(level): From (p,γ).
13482.9		1.2 keV 3	T=0 E(level): From (p,γ). From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13585	(1)-	21 keV 2	T=0 E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13587.1	1-	8.0 keV 10	T=0 E(level): From (p,γ). From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10).
13677.4		6.5 keV 17	T=0 E(level): From (p,γ). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13686	2-	23 keV 3	E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13708	(3-)	≈ 130 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13722	2+	4.3 keV 3	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13738	(2+)	13 keV 3	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13771	5-	5.5 keV 23	T=0 J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13788	(4+)	≈ 21 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13800	0+	4.5 keV 7	T=0 XREF: Z(13790). E(level): From (¹²C,γ). J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations. T_1/2(level): From (α,γ), by ΔS(a) method.
13813	1-	24 keV 4	J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13819	2-	39 keV 9	T=0 J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
E(level)	J^π(level)	T_1/2(level)	Comments
13850		< 1 keV	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
13882	1+	2.0 keV 2	T=0 XREF: O(13868). E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13886	2+	38 keV 8	T=0 Γ: Weighted average of 32 keV 8 (α,α) and 48 keV 10 (p,γ). E(level): Γ: Weighted average of 32 keV 8 (α,α) and 48 keV 10 (p,γ). From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13893	0+	13 keV 2	T=0 Γ: weighted average of 12.0 keV 18 (α,γ) and 15 keV 3 (p,γ). E(level): Γ: weighted average of 12.0 keV 18 (α,γ) and 15 keV 3 (p,γ). From (p,γ). J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations.
13910	4+	18 keV 3	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
13933	(1,2,3)+	3.0 keV 6	T=0 J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13948	1+	4.0 keV 8	T=0 J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
13984	(1,2,3)+	4.9 keV 5	T=0 J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
14019	3-		T=0 XREF: V(13.96×10³). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
14026	2+	5.1 keV 8	T=0 E(level): From (p,γ). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
14037	(1-)	21 keV 4	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14060		< 4 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
14079		24 keV 5	E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
14081	1+	6.0 keV 6	T=0 XREF: O(14091). J^π(level): From 1987Va24 - ²³Na(p,p), based on the elastic and inelastic scattering through allowed channels for resonances in ²⁴Mg or capture γ(θ) measurements.
14101		1.4 keV 4	T=0 XREF: O(14097). E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
14150	8+	1.8 keV 4	T=0 E(level): From (¹²C,γ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,γ), by ΔS(a) method.
14152		6.2 keV 7	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
14165	(4+)	11.1 keV 19	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14245		11.3 keV 14	T=0 E(level): From (¹²C,γ). T_1/2(level): From (α,γ), by ΔS(a) method.
14264	(4+)	16 keV 2	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14329	4+	< 1 keV	T=0 E(level): From (¹²C,γ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,γ), by ΔS(a) method.
14355	(3-)	112 keV 29	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14397	4+	12 keV 3	T=0 XREF: L(14410). E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,α),(α,α’), from resonance fits.
14461		46 keV	E(level): From (α,α),(α,α’):Resonance. T_1/2(level): From (α,α),(α,α’), from resonance fits.
14568	(3-,5-)	< 13 keV	XREF: L(14560). E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
E(level)	J^π(level)	T_1/2(level)	Comments
14582		61 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
14648		11 keV 9	E(level): From (α,α),(α,α’):Resonance. T_1/2(level): From (α,α),(α,α’), from resonance fits.
14696	(5-)	9 keV 1	E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on measured σ(θ) and Legendre polynomial fits (1954Go70). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14745	(4+)	13 keV	XREF: L(14740). E(level): From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14928	(0+,1-)	≈ 10 keV	XREF: L(14920). E(level): From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
14995	(4+,5-)	≈ 20 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15045	(6-)		T=1 XREF: V(15.1×10³)W(15137).
15117	(4+)	15 keV	E(level): From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15141		15 keV	T=0 XREF: L(15150). E(level): From (α,α),(α,α’):Resonance. From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15179	(4+)	57 keV 7	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15214	(5-)	36 keV 3	XREF: L(15210)W(15200). E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15233	(4+)	27 keV 6	E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15266	(1-,3-)	≈ 8 keV	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15330	0+		J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations.
15354	(4+)	21 keV 4	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15385	(4+)	31 keV 7	XREF: W(15370). E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15437.5	0+	0.7 keV 3	T=2 E(level): From (p,γ).
15443	(2+)	13 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15484	(2+)	15 keV	XREF: I(15473). E(level): From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15533	(6+)	18 keV 2	XREF: L(15540)W(15540). E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15611	(2+)	31 keV 8	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15640	(6+)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
15691	(0+)	≤ 15 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15716	(4+)		J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual).
15750	[7-,8+]		E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d).
E(level)	J^π(level)	T_1/2(level)	Comments
15790	0+		J^π(level): From 2021Ad09 (²⁴Mg(α,α’)) based on comparison of differential cross sections to DWBA calculations.
15793	(4+)	13 keV	XREF: L(15800). J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15828		87 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
15853		< 13 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
15886	(4+)	42 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
15978	(1-,3-)	≈ 35 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16070	6+		T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
16136	(3-)	19 keV 6	XREF: L(16.15×10³). J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual).
16170	(4+,6+)	< 8 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16203	(6+)	8 keV	E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16278	(4+)	30 keV	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16309		10 keV	T=0 T_1/2(level): From (α,α),(α,α’), from resonance fits.
16333	(4+,6+)		J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual).
16343	(4+)	13 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16395	(2+)	37 keV 10	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16440	(7-)	10 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16477	(6+)	8 keV 2	E(level): From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16529	(6+)	31 keV	E(level): From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16564	8+		T=0 E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d). From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
16602	6+	30 keV	T=0 XREF: L(16590). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,α),(α,α’), from resonance fits.
16611	(5-)	≤ 8 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16674	6+	30 keV	J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (α,α),(α,α’), from resonance fits.
16782	(4+,6+)	30 keV	XREF: L(16.80×10³). J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16844	(6+)	22 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
16874	(5-)	73 keV 17	E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
E(level)	J^π(level)	T_1/2(level)	Comments
16904		< 7 fs	T=0 E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
16929	(6+)	44 keV 6	E(level): From ²⁴Al ε decay (2.053 s). From (α,α),(α,α’):Resonance. J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17017	(7-)	15 keV 10	XREF: p(16.98×10³). E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17088	(6+)	44 keV 6	XREF: p(17.06×10³). E(level): From (α,α),(α,α’):Resonance. From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17140	(5-)	26 keV 6	XREF: L(17.12×10³). E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17190	8+		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
17227	(4+)	17 keV 3	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17.29E3		≈ 46 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17407	(6+)	20 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits. From (α,α),(α,α’), from resonance fits.
17444	(6+)	20 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17623	(5-)	23 keV 8	XREF: L(17.59×10³). E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17740	(4+)	≈ 25 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17748		≈ 20 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
17782		≈ 42 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits. From (α,α),(α,α’), from resonance fits.
17840		≈ 42 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
17948	(4+)	56 keV 8	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
17990	(6+)	≈ 17 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
18038	(5-)	50 keV 8	E(level): From ²⁴Al ε decay (2.053 s). J^π(level): From (α,α),(α,α’), based on fit of measured σ(θ) data (1991Ab05 or 1992Da10). T_1/2(level): From (α,α),(α,α’), from resonance fits.
18097		20 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
18157	(5-)	20 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
18.16E3	8+		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
18169	(7-)	< 8 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
18203		≈ 25 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
18273	(7-)	≈ 21 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
18332		≈ 17 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
E(level)	J^π(level)	T_1/2(level)	Comments
18423	(6+)	≈ 17 keV	J^π(level): From (α,α),(α,α’), assigned in 1991Ab05, based on excitation function trend (visual). T_1/2(level): From (α,α),(α,α’), from resonance fits.
18465		≈ 13 keV	T_1/2(level): From (α,α),(α,α’), from resonance fits.
18740			XREF: L(18.70×10³).
18.97E3	(8+)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
19110	(10+)		γ-α branching ratio 0.0007 3 (2001Wi18). E(level): γ-α branching ratio 0.0007 3 (2001Wi18).
19.21E3	(9-)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
19890			XREF: L(19.92×10³).
19990	(7-)	59 keV 5	XREF: L(19.98×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20.03E3		28 keV 5	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20.09E3	(9-)	35 keV 13	E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20210	[10+]	35 keV 13	XREF: L(20.17×10³). E(level): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. From (¹⁶O,α),(¹⁶O,αγ). J^π(level): Used for Hauser-feshbach calculations to fit the measured differential cross section data in (¹⁴N,d). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20260	(8+)	64 keV 8	XREF: L(20.24×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20.28E3	(2+)		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
20.42E3	(9-)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
20.46E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20.53E3	(6+)	43 keV 13	E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20.68E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
20.83E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
20.91E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
21.20E3	(4+)		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
21.29E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
21.39E3	(6+)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
21.66E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
21.80E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
22.3E3	(4+)		J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
E(level)	J^π(level)	T_1/2(level)	Comments
22.4E3	(8)		J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
22.87E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
22.93E3		73 keV 13	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
23.19E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
23.26E3		< 15 keV	E(level): From (¹⁶O,α),(¹⁶O,αγ). T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
23.77E3	(6+,(8+))		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
24.37E3	(9)	27 keV 3	E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
24.53E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
24.60E3	(8+)		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
24.98E3	(9)		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
25.18E3	(6+)	163 keV 6	XREF: M(25.1×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
25.8E3	(9,10)		J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
26.2E3	(10)		J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
26.28E3	(12+)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
26.45E3	(8+)	115 keV 20	XREF: M(26.4×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero. T_1/2(level): From (¹⁶O,α),(¹⁶O,αγ), by ΔS(a) method.
26.67E3	(12+)		J^π(level): From 2012Di04 - (¹⁶O,α),(¹⁶O,αγ), based on αγγ angular correlations, the γ cascade is 2614γ - 1633γ in ²⁰Ne, or based on αα angular correlations.
26.8E3	(10)		J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
27.4E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
28.0E3	(10)		XREF: M(27.8×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
28.5E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
29.3E3	(10,12)		XREF: M(29.1×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
29.7E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
30.1E3	(12)		XREF: M(30.3×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
31.2E3	(12)		E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
31.8E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
E(level)	J^π(level)	T_1/2(level)	Comments
32.6E3	(10)		XREF: M(32.7×10³). E(level): From (¹⁶O,α),(¹⁶O,αγ). J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.
33.1E3			E(level): From (¹⁶O,α),(¹⁶O,αγ).
46.4E3	(14+,16+)		J^π(level): From ¹²C(²⁴Mg,2¹²C),(²⁰Ne,2¹²C) based on measured and projected angular correlation measurement data of the decaying state in 2001Sh08 or 2001Fr03. The periodicity of the ridges is is described by a Legendre polynomial of order of the spin of the decaying state. Parity (-1)^J for the decaying state of natural parity, if the recoiling particle has spin-zero.

E(level)	E(gamma)	Comments
1368.667	1368.625	E(γ): From ²⁴Na β^- decay (14.956 h)
4122.853	2754.016	E(γ): Weighted average of 2754.007 11 from ²⁴Na β^- decay (14.956 h), 2754.030 14 from ²⁴Al ε decay (2.053 s). Other: 2751.8 15 (³He,dγ).
4238.35	2869.50	E(γ): From ²⁴Al ε decay (2.053 s). Others: 2871.0 10 (²⁴Na β^- decay (14.956 h)) and 2869.3 4 (²⁴Al ε decay (130.7 ms)). I(γ): weighted average of 30 5 from ²⁴Na β^- decay (14.956 h), 30.5 11 from ²⁴Al ε decay (2.053 s), 3×10¹ 3 from ²⁴Al ε decay (130.7 ms), 33 3 from ²⁵Si β⁺p decay, 24 6 from (¹²C,γ), 30 3 from (α,γ), and 26.7 6 from (p,γ)
4238.35	4237.96	E(γ): From ²⁴Al ε decay (2.053 s).. From ²⁴Al ε decay (2.053 s) I(γ): From (p,γ)
5235.16	996.83	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	3866.15	E(γ): Weighted average of 3866.14 10 from ²⁴Al ε decay (2.053 s), and 3867.2 14 from (³He,dγ). I(γ): From ²⁴Al ε decay (2.053 s)
	5235	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (²⁸Si,Xγ)
6010.34	775.4	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	1771.92	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): weighted average of 11.70 29 from ²⁴Al ε decay (2.053 s), 7.5 32 from (α,γ), and 10.5 5 from (p,γ). Other: 15 4 (²⁸Si,Xγ).
	1887.52	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	4641.19	E(γ): Other: 4636.4 16 (³He,dγ).. From ²⁴Al ε decay (2.053 s) I(γ): Weighted average of 100.0 32 from (α,γ) and 100.0 5 from (p,γ). Other: 100 7 from ²⁴Al ε decay (2.053 s).
6432.2	2194	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): Weighted average of 25 13 from (α,γ), 21.1 9 from (p,γ), and 20 3 ²⁴Mg(pol p,p’γ).
	5063.2	E(γ): From (²⁴Mg,¹²Cγ). From (²⁴Mg,¹²Cγ)
	6432	E(γ): From level energy difference.
7348.60	5979.5	E(γ): From ²⁴Al ε decay (2.053 s)
7348.60	7347.2	E(γ): From ²⁴Al ε decay (2.053 s)
7555.3	3316.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6185.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7554.0	E(γ): From (²⁴Mg,¹²Cγ)
7616.41	2381.0	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	3378.3	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	3493.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): weighted average of 7.4 19 from ²⁴Al ε decay (2.053 s), 9 4 from (α,γ), and 6.9 14 from (p,γ)
	6246.89	E(γ): From ²⁴Al ε decay (2.053 s)
	7615.2	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): Unweighted average of 41.5 28 from ²⁴Al ε decay (2.053 s), 41.4 86 from (α,γ), and 31.9 28 from (p,γ)
7747.7	3509.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6378.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7746.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
7812.4	1800	E(γ): From (¹⁶O,α),(¹⁶O,αγ)
	2577.4	E(γ): Other: 2580 (¹⁶O,α),(¹⁶O,αγ). From ²⁴Al ε decay (2.053 s) I(γ): From (α,γ)
	3690	E(γ): From (¹⁶O,α),(¹⁶O,αγ) I(γ): Weighted average of 59 9 from (¹⁶O,α), 32 9 from (α,γ), and 55 5 from (p,γ)
8113.2	3990.0	E(γ): From (²⁴Mg,¹²Cγ)
8358.1	2347.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (p,γ). Others: 13 11 (α,γ), 52 10 from (¹²C,γ).
	3122.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (p,γ). Others: 35 11 (α,γ), 75 17 from (¹²C,γ).
	6988.3	E(γ): From (²⁴Mg,¹²Cγ) I(γ): weighted average of 100 7 from (¹²C,γ), 100 11 from (α,γ), and 100 8 from (p,γ)
	8356.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): deduced from B(E3) in (e,e’) (1974Jo10) and adopted level half-life.
8438.4	7068.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
8438.4	8436.8	E(γ): From (²⁴Mg,¹²Cγ) M(γ): d from γ(θ) (1969Ca18 - (α,α’γ) and Δπ=yes from levels scheme.
8439.29	822.0	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	1090.67	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	2428.97	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	3203.88	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): Weighted average of 7.13 16 from ²⁴Al ε decay (2.053 s) and 7.49 31 from (p,γ)
	4200.54	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): Weighted average of 9.3 5 from ²⁴Al ε decay (2.053 s) and 9.7 5 from (p,γ)
	4316.00	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): Weighted average of 30.8 14 from ²⁴Al ε decay (2.053 s) and 36.7 16 from (p,γ)
	7069.50	E(γ): From ²⁴Al ε decay (2.053 s)
8654.9	2222.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4416.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): weighted average of 26 7 from (α,γ) and 15.9 25 from (p,γ)
	7285.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
8864.5	3629.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4625.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7494.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8862.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
9003.5	1654.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2570.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4880.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9001.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
9146.2	4907.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7776.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9144.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
9284.4	5161	E(γ): From (¹²C,γ) I(γ): Weighted average of 18 6 from (α,γ), and 28.2 26 from (p,γ). Other: 60 10 from (¹²C,γ).
9284.4	7914.3	E(γ): From (²⁴Mg,¹²Cγ)
9299.8	1683.3	E(γ): From (²⁴Mg,¹²Cγ)
9301.07	1952.38	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	5060.7	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	5177.51	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	7930.87	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
9305.39	7935.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
9457.81	1710.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2108.65	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3447.21	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4222.20	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5218.81	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5334.29	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8087.66	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
9516.18	1076.86	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	1704.8	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	1899.70	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	3505.61	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	4280.62	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): Other: 7.6 8 in (p,γ).. From ²⁴Al ε decay (2.053 s)
	5277.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5392.68	E(γ): From ²⁴Al ε decay (2.053 s)
	8146.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From ²⁴Al ε decay (2.053 s)
E(level)	E(gamma)	Comments
9527.6	3517.0	E(γ): From (²⁴Mg,¹²Cγ) I(γ): From (¹⁶O,α),(¹⁶O,αγ)
9527.6	5404.0	E(γ): From (²⁴Mg,¹²Cγ) I(γ): From (¹⁶O,α),(¹⁶O,αγ)
9532.7	1916.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4297.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5293.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8162.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
9828.0	3395.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8457.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9825.9	E(γ): From ²⁴Al ε decay (130.7 ms)
9965.3	8595.1	E(γ): From ²⁴Al ε decay (130.7 ms) I(γ): From ²⁴Al ε decay (130.7 ms)
9965.3	9963.0	E(γ): From ²⁴Al ε decay (130.7 ms) I(γ): From ²⁴Al ε decay (130.7 ms)
10027.97	1670	E(γ): From (¹²C,γ)
	2215.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2411.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4017.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5904.2	E(γ): From (²⁴Mg,¹²Cγ)
	8657.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10059.1	5820.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10059.1	8688.6	E(γ): From ²⁴Al ε decay (130.7 ms)
10110.9	8740.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10333.6	6094.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10333.6	8963	E(γ): From (¹²C,γ)
10360.7	3927.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5124.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8990.2	E(γ): From (²⁴Mg,¹²Cγ)
	10358.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
10575.93	1059.78	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	1274.71	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	2136.58	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
	5340.3	E(γ): From ²⁴Al ε decay (2.053 s) I(γ): From ²⁴Al ε decay (2.053 s)
10581.26	4570.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5345.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6342.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6457.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9210.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10659.8	9289.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10659.8	10657.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10660.17	5424.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6536.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9289.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10679.7	3124	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3331	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6440	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	9309	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
10712.2	10709.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10731.1	5495.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6491.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. M(γ): d from (γ,θ) in (α,γ); Δπ=yes from level scheme.
	9360.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
10820.8	9450.1	E(γ): From ²⁴Al ε decay (2.053 s)
10917.2	4485	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4906.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5681.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6677.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6793.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	9546.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10914.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
E(level)	E(gamma)	Comments
11012	2573	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
11012	5001	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
11018	1048	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3270	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3462	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5007	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5782	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6779	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6894	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	9647	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11015	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11133	3518	E(γ): From (α,γ)
11165	2726	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3609	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5154	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5929	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7041	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	9794	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11187.3	9816.5	E(γ): From (²⁴Mg,¹²Cγ)
11207	9836	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
11216.69	1700	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2562	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3868	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5981	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7093	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	9846	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
E(level)	E(gamma)	Comments
11314.4	9943.5	E(γ): From ²⁴Al ε decay (2.053 s)
11330	9959	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
11391	1332	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	1426	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2953	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3643	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4958	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7152	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10020	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11388	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11452.8	721.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	1393.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	1487.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3704.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3836.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4103.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6216.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7213.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7328.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10081.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11449.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11522	791	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1463	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1557	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3164	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3774	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3905	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5089	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7282	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7398	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	10151	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11519	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
11600	2084	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2299	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2300	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2315	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3242	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3983	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7476	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11698.2	686	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2397	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2398	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3043	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3259	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3885	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4349	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5687	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6462	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7459	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7574	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10327	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11730	1765	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4174	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7490	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10359	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11860	3747.0	E(γ): From (²⁴Mg,¹²Cγ)
11862.8	4306	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4513	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7622	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10491	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11859	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
E(level)	E(gamma)	Comments
11932.9	2631.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3068.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4120.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4583.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5922.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6696.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7693.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7808.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	10561.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
11966.6	760	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	1236	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	1908	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2001	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5534	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6731	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7727	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7842	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10596	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11964	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
11988.5	1257.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1929.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2703.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2984.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3122.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3549.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4240.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4432.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6752.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7748.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	10617.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11985.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12003	991	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3563	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5992	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7879	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12051.3	6040	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6815	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7927	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10680	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12119.0	2603	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6108	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7879	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7995	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10748	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12128	4315	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12162	2646	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3158	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6926	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7922	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8038	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	10791	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12183.3	966.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1452.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1822.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2217.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3528.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4435.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5750.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7943.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	10812.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12180.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12259.3	1042.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2293.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2431.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3255.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3394.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3819.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4910.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7023.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8019.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8135.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	10888.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12255.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12340.2	1680.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3336.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3685.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4723.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4991.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7103.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8100.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8215.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	10968.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12342	4529	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12400.3	2341.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2883.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2942.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3396.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4783.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5051.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7164.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8160.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8275.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11028.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12404.9	3103.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3401.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3540.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3749.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3966.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4046.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4788.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5055.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7168.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8165.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8280.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11033.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12401.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12443	2415	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12507	5158	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7271	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8267	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8382	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11136	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12527.6	1796.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2468.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2699.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3662.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3872.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4088.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4779.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6094.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8287.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11156.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12524.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12638.7	3180.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4825.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6627.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7402.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8398.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8514.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11267.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12660.8	1930	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	2602	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3144	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3796	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4913	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5312	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	7424	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8421	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8536	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	11289	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12670.0	682.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1217.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1462.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1482.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1752.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1849.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1938.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1957.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2010.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2309.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2336.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2610.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2704.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2841.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3137.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3385.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3523.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3666.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3805.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. M(γ): From (p,γ), ΔJ=0
	4014.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4231.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4311.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4921.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5053.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5114.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5320.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7433.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8430.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. M(γ): From (p,γ), ΔJ=0
	11298.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12666.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12807.8	6374.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7571.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8567.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11436.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12802.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12818.1	2457.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2989.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3953.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4162.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4379.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5069.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6385.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7581.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8578.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11446.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12814.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12846.9	6835.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7610.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8606.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8722.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11475.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12854	7618	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8614	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11482	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12850	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12861	3560	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4422	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	6850	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8736	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
12895.1	4239.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5146.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7658.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8655.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11523.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12921.6	3636.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4266.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4563.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7685.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8681.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8797.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11549.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
12955.5	1502.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2243.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2275.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2594.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2844.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2896.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2990.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3127.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3649.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3809.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3951.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4090.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4300.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4516.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5206.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5605.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	6521.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8714.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11583.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12951.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
12963.9	2904.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7727.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8723.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11592.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12960.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
13029.8	2668.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3571.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3729.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4025.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4374.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4590.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5412.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7793.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8789.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8905.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11658.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
13048	3082	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	3220	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ) M(γ): From γγ(θ) (1978Fi08 - (α,γ)).
	4609	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5300	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5492	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
13050.0	922.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1719.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	1833.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2229.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2389.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2468.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3021.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3591.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3748.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3749.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3765.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5237.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5432.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7038.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7813.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8925.4	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11678.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
13057	2723	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4698	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	5440	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8932	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
13088.8	3804.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4433.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4730.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7077.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	7852.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8848.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8964.2	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11717.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	13085.0	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
13212.8	5099.0	E(γ): From (²⁴Mg,¹²Cγ)
13345.7	1824	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	2685.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	3887.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4045.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4341.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	4905.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5728.6	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5996.3	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8109.1	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9105.5	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9220.9	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11973.8	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	13341.7	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
E(level)	E(gamma)	Comments
13366.9	2785	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5554	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	11995	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	13363	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
13446.8	2056	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	5008	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9323	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12075	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	13443	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
13474.9	7463	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	8238	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	9350	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
	12103	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
13771	5412	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
13771	9646	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
14081	3069	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	4779	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	8069	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
	9956	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit. I(γ): From (α,γ)
14150	4620	E(γ): From (¹⁶O,α),(¹⁶O,αγ) I(γ): From (¹⁶O,α),(¹⁶O,αγ)
14150	6040	E(γ): From (¹⁶O,α),(¹⁶O,αγ) I(γ): From (¹⁶O,α),(¹⁶O,αγ)
16904	5043	E(γ): From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.
19110	5856	E(γ): Tentatively placed in 2001Wi18 ((¹⁶O,α),(¹⁶O,αγ)) with a measured energy 5927 keV 5.. From level energy difference, recoil energy subtracted. Not considered in the least-squares fit.