List of levels for 22NE

Author: M. Shamsuzzoha Basunia | Citation: Nucl. Data Sheets 127, 69(2015) | Cutoff date: 1-Apr-2015

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
1274.537	2+	3.60 ps 5	1274.537 7	E2		B(E2)(W.u.)=12.76 18
3357.2	4+	225 fs 4	2082.6 5	E2		B(E2)(W.u.)=17.5 4
4456.2	2+	3.7 fs 25	3181.4	M1+E2	+0.09 2	B(E2)(W.u.)=1.0 8, B(M1)(W.u.)=0.18 12
4456.2	2+	3.7 fs 25	4455.7	E2		B(E2)(W.u.)=0.7 5
5146.0	2-	0.8 ps 2	689.8	E1+M2	-0.29 2	B(E1)(W.u.)=0.0014 4, B(M2)(W.u.)=1.2×10³ 4
5146.0	2-	0.8 ps 2	3871.1	E1+M2	+0.96 18	B(E1)(W.u.)=5.1E-6 17, B(M2)(W.u.)=1.4 5
5329.6	1+	1.2 fs 3	4054.6	M1+E2	+1.9 5	B(E2)(W.u.)=31 12, B(M1)(W.u.)=0.020 11
5329.6	1+	1.2 fs 3	5328.9	[M1]		B(M1)(W.u.)=0.081 25
5363.4	2+	69 fs 12	4088.4	M1+E2	-0.19 4	B(E2)(W.u.)=0.06 3, B(M1)(W.u.)=0.0039 8
5363.4	2+	69 fs 12	5362.7	[E2]		B(E2)(W.u.)=0.070 22
5523.3	(4)+	21 fs 3	2166.1 5	M1		B(M1)(W.u.)=0.102 15
5523.3	(4)+	21 fs 3	4247.9 10	E2		B(E2)(W.u.)=0.084 20
5641.2	3+	< 3 fs	2283.9 7	M1(+E2)	-0.12 17	B(M1)(W.u.)>0.18
5641.2	3+	< 3 fs	4366.1 10	M1+E2	+0.15 2	B(E2)(W.u.)>0.36, B(M1)(W.u.)>0.059
5910.1	3-	32 fs 11	1453.8	E1(+M2)	+0.19 10	B(E1)(W.u.)=(0.0013 6), B(M2)(W.u.)=(1.0×10² 5)
5910.1	3-	32 fs 11	4635.0	E1+M2	+0.17 6	B(E1)(W.u.)=0.00019 7, B(M2)(W.u.)=1.1 9
6119.9	2+	14 fs 7	1663.6	M1+E2	+1.1 3	B(E2)(W.u.)=38 22, B(M1)(W.u.)=0.012 8
	2+	14 fs 7	4844.8	M1+E2	+2.3 3	B(E2)(W.u.)=2.7 14, B(M1)(W.u.)=0.0017 10
	2+	14 fs 7	6119.0	E2		B(E2)(W.u.)=0.18 10
6311.0	(6+)	49 fs 4	2953.6	[E2]		B(E2)(W.u.)=14.0 12
6345.1	4+	13 fs 3	2987.7 9	M1+E2	+0.68 16	B(E2)(W.u.)=16 7, B(M1)(W.u.)=0.043 12
6635.8	(3,4)+	49 fs 21	3278.3	M1+E2	-0.9 3	B(E2)(W.u.)=1.8 10, B(M1)(W.u.)=0.0033 18
6689.0	1-	243 fs 132	5413.7	[E1]		B(E1)(W.u.)=7.E-6 4
6689.0	1-	243 fs 132	6687.9	(E1)		B(E1)(W.u.)=8.E-6 5
6819.4	2+	< 3 fs	2363.1	M1+E2	+2.5 4	B(E2)(W.u.)>2.1×10², B(M1)(W.u.)>0.021
6819.4	2+	< 3 fs	5544.1	M1		B(M1)(W.u.)>0.011
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
6853.5	(1+)	0.38 fs 16	5578.2	M1+E2	+1.3 5	B(E2)(W.u.)=22 12, B(M1)(W.u.)=0.06 4
6853.5	(1+)	0.38 fs 16	6852.3	M1		B(M1)(W.u.)=0.10 5
6900	0+	76 fs 8	5624.7	E2		B(E2)(W.u.)=0.36 4
7051	1-	100 fs 30	5776	[E1]		B(E1)(W.u.)=4.1E-5 13
7051	1-	100 fs 30	7050	[E1]		B(E1)(W.u.)=2.2E-6 7
7341.1	0+	< 3 fs	2011.4	(M1)		B(M1)(W.u.)>0.51
7341.1	0+	< 3 fs	2884.7	(E2)		B(E2)(W.u.)>1.1×10²
7341.2	(4)+	35 fs 21	3983.5 10	M1+E2	-0.7 3	B(E2)(W.u.)=0.7 6, B(M1)(W.u.)=0.0033 22
7405.9	(3)-	32 fs 10	2259.8	M1+E2	+1.3 4	B(E2)(W.u.)=33 13, B(M1)(W.u.)=0.014 7
7405.9	(3)-	32 fs 10	6130.4	E1		B(E1)(W.u.)=4.2E-5 14
7643.1	2+	470 as 200	6367.6	M1+E2	-0.08 5
8134.3	2+		6858.6	M1+E2	-0.48 5

Q(β-)=-2843.20 keV 17	S(n)= 10364.26 keV 4	S(p)= 15266.1 keV 18	Q(α)= -9666.81 keV 2
Reference: 2012WA38

References:
A	²²F β^- decay	B	²²Na ε decay
C	⁴He(¹⁹F,pγ)	D	¹¹B(¹³C,d)
E	¹²C(¹⁸O,⁸Be),¹⁴C(¹⁸O,¹⁰Be)	F	¹⁴C(¹²C,α)
G	¹⁸O(α,γ)	H	¹⁸O(α,n): RES
I	¹⁸O(⁴He,⁴He’): RES	J	¹⁸O(⁶Li,d)
K	¹⁸O(⁷Li,t),(⁷Li,tγ)	L	¹⁹F(α,pγ)
M	²⁰Ne(t,p)	N	²⁰Ne(t,pγ)
O	²¹Ne(n,γ) E=THERMAL	P	²¹Ne(n,γ): RES
Q	²¹Ne(d,p)	R	²²Ne(γ,γ’)
S	²²Ne(E,E’)	T	²²Ne(p,p’)
U	Coulomb Excitation	V	²³Na(d,³He)
W	²³Na(t,α)	X	²⁶Mg(d,⁶Li)
Y	²⁶Mg(³He,⁷Be)	Z	¹⁵⁰Nd(²⁶Mg,²²NeG)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A B C D G H J K L M N O P Q R S T U V W X Y	0+	STABLE
1274.537 7	A B D G J K L M N O P Q S U V W X Y Z	2+	3.60 ps 5	1274.537 7	100	E2	0.0	0+
3357.2 5	A D G J K L M N Q S V W X Y Z	4+	225 fs 4	2082.6 5	100	E2	1274.537	2+
4456.2 9	A C D G J K L M N Q S V W X Y Z	2+	3.7 fs 25	1099 3181.4 4455.7	100.0 21 3.1 21	M1+E2 E2	3357.2 1274.537 0.0	4+ 2+ 0+
5146.0 9	C D G K L M N Q V W X	2-	0.8 ps 2	689.8 3871.1	89 6 100 6	E1+M2 E1+M2	4456.2 1274.537	2+ 2+
5329.6 13	D G L N Q R S W	1+	1.2 fs 3	4054.6 5328.9	50 12 100 12	M1+E2 [M1]	1274.537 0.0	2+ 0+
5363.4 11	D J K L M N Q W X	2+	69 fs 12	4088.4 5362.7	100 4 16 4	M1+E2 [E2]	1274.537 0.0	2+ 0+
5523.3 6	A C D J K L M N Q W X Z	(4)+	21 fs 3	2166.1 5 4247.9 10	100.0 6 1.6 3	M1 E2	3357.2 1274.537	4+ 2+
5641.2 7	A C D K L M N Q W X	3+	< 3 fs	2283.9 7 4366.1 10	45 3 100 3	M1(+E2) M1+E2	3357.2 1274.537	4+ 2+
5910.1 9	A D J K L M N S W X	3-	32 fs 11	1453.8 2552.7 4635.0	21 6 21 6 100 6	E1(+M2) E1+M2	4456.2 3357.2 1274.537	2+ 4+ 2+
6119.9 16	D J K L M N Q S W X	2+	14 fs 7	1663.6 4844.8 6119.0	10.3 13 100 4 18 3	M1+E2 M1+E2 E2	4456.2 1274.537 0.0	2+ 2+ 0+
6235 2	J K L M S X	0+	236 fs 83	905	100		5329.6	1+
6311.0 10	C D G L W Z	(6+)	49 fs 4	2953.6	100	[E2]	3357.2	4+
6345.1 10	A C D G K L M N Q W X	4+	13 fs 3	2987.7 9	100	M1+E2	3357.2	4+
6635.8 8	C D L M Q W X	(3,4)+	49 fs 21	3278.3 5360.6	89 6 100 6	M1+E2	3357.2 1274.537	4+ 2+
6689.0 11	K L M S W X	1-	243 fs 132	5413.7 6687.9	45 9 100 9	[E1] (E1)	1274.537 0.0	2+ 0+
6819.4 16	C D K L M Q S W X	2+	< 3 fs	1455.9 1673.3 2363.1 5544.1	43 16 57 16 100 16 70 16	M1+E2 M1	5363.4 5146.0 4456.2 1274.537	2+ 2- 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6853.5 16	D G L M Q R S T W	(1+)	0.38 fs 16	5578.2 6852.3	85 8 100 8	M1+E2 M1	1274.537 0.0	2+ 0+
6900 2	K L M S W	0+	76 fs 8	5624.7	100	E2	1274.537	2+
7051 3	D K L M N Q S W	1-	100 fs 30	5776 7050	100.0 11 9.9 11	[E1] [E1]	1274.537 0.0	2+ 0+
7341.1 11	D J K L N Q W X Z	0+	< 3 fs	2011.4 2884.7	100 8 75 8	(M1) (E2)	5329.6 4456.2	1+ 2+
7341.2 11	A D L M	(4)+	35 fs 21	1430.9 3983.5 10	100 6 96 6	M1+E2	5910.1 3357.2	3- 4+
7405.9 7	D K L M Q W X	(3)-	32 fs 10	2259.8 6130.4	100 3 56 3	M1+E2 E1	5146.0 1274.537	2- 2+
7423.0 9	A D L M W Z	(5+)	< 3 fs	1900.0 6	100		5523.3	(4)+
7469 2 ?	L Q S W	1,2	55 fs 21	1559	100		5910.1	3-
7489 5	G K L M N W	1-		1369 2125 6213 7487	10 6 10 6 23 6 100 6	E1	6119.9 5363.4 1274.537 0.0	2+ 2+ 2+ 0+
7643.1 13	D J K L M Q S X	2+	470 as 200	3186.7 6367.6 7641.7	42 5 100 5 12 5	M1+E2 E2	4456.2 1274.537 0.0	2+ 2+ 0+
7663.7 9	L M Q S	(2)-		1428.7	100		6235	0+
7722.0 11	D J K L M Q X	3-		1602.0 2198.6 2575.8 3265.5 4364.3 6446.5	19 16 25 16 22 16 100 16 78 16 69 16		6119.9 5523.3 5146.0 4456.2 3357.2 1274.537	2+ (4)+ 2- 2+ 4+ 2+
7921 2	D K L M Q S X	(2)+		580 1102 2398 6645	20 15 29 15 33 15 100 15		7341.2 6819.4 5523.3 1274.537	(4)+ 2+ (4)+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8076.9 14	D K L M Q	(4)+		1765.8 2713.3 4719.1 6801.2	50 22 36 22 100 22 92 22		6311.0 5363.4 3357.2 1274.537	(6+) 2+ 4+ 2+
8134.3 4	D J K L M Q X	2+		1314.9 6858.6	8 3 100 3	M1+E2	6819.4 1274.537	2+ 2+
8162.2 13	L M S	2+,3,4+		1342.8 4804.4 6886.5	8 8 44 8 100 8		6819.4 3357.2 1274.537	2+ 4+ 2+
8375.9 16	D K L M Q X	(3)-		712.2 5018.1 7100.1	8 7 100 7 28 7		7663.7 3357.2 1274.537	(2)- 4+ 2+
8452 7	X
8489.6 12	D K L M Q	2+		412.7 1148.4 2254.5 2848.2 5131.8	32 32 100 32 82 32 71 32 71 32		8076.9 7341.2 6235 5641.2 3357.2	(4)+ (4)+ 0+ 3+ 4+
8561.4 19	L M Q R	(1,2)+	0.35 fs 13	1872.3 8559.6	72 12 100 12		6689.0 0.0	1- 0+
8573 10	X
8596.0 9	D K L M Q S			519.1 3449.7	100 6 20 6		8076.9 5146.0	(4)+ 2-
8741.0 14	D L M Q X	(3)-		1399.6 1689.9 4284.3 5383.1	19 12 28 12 100 12 28 12		7341.2 7051 4456.2 3357.2	(4)+ 1- 2+ 4+
8855.3 15	L M Q	(4)+		1449.3 2544.1	39 10 100 10		7405.9 6311.0	(3)- (6+)
8900.3 16	D G L Q T			1477.2 1559.0 2211.2 2589.1 3258.8 3536.6	54 33 100 33 71 33 79 33 54 33 58 33		7423.0 7341.2 6689.0 6311.0 5641.2 5363.4	(5+) (4)+ 1- (6+) 3+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8976 3	D J L M			1312 1925	56 11 100 11		7663.7 7051	(2)- 1-
9045 3	L M Q X	(2+,3-)		1402 1994 5687	71 24 92 24 100 24		7643.1 7051 3357.2	2+ 1- 4+
9097 3	D J L M Q	(1 TO 3)-
9178 3	R S	1+	84 as 3	9176	100		0.0	0+
9178.1 7	D J L M T	(4)+		3267.6 4721.3 5819.9	64 11 25 11 100 11		5910.1 4456.2 3357.2	3- 2+ 4+
9229 3	J L M X	2+		1565 2178	79 9 100 9		7663.7 7051	(2)- 1-
9250 3	L			1528 3130	100 11 56 11		7722.0 6119.9	3- 2+
9324 2	D L			1602	100		7722.0	3-
9508 10	D J L M
9541 10	M	2+
9625 12	D J L	5		3314 6267	45 100		6311.0 3357.2	(6+) 4+
9654 10	D M
9725 10	J L M	(3-)
9841 10	J L M	(2+)
10066 10	J M	(0+)
10137 10	J L M	2+
10208.5 10	G J L M R	1-	< 2 keV	8932.0 10206.0	25 6 100 6	E1	1274.537 0.0	2+ 0+
10280.4 10	G J L	(0+,1-,2+)	< 2 keV	2791.2 3426.6 4950.2 5823.4 9003.9	23 7 45 9 100 12 2 1 57 12		7489 6853.5 5329.6 4456.2 1274.537	1- (1+) 1+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10294.8 10	G M	(2+)	< 2 keV	2805.6 3441.0 4964.6 5837.8 9018.3	19 5 16 5 30 7 11 4 100 12	D	7489 6853.5 5329.6 4456.2 1274.537	1- (1+) 1+ 2+ 2+
10384 15	J L M O
10416.4 3	J L M P			4071			6345.1	4+
10462.5 5	M P	3-
10501.6 3	M P	2+
10544.9 4	M P	2+
10616 3	G H J L M	(5-)	6 keV	4270 7258	100 8 52 8		6345.1 3357.2	4+ 4+
10696 4	G J		< 4 keV	7337	100		3357.2	4+
10706 6	G H M		< 10 keV	9429	100		1274.537	2+
10749 3	G H L	5-	6 keV	4437 7390	100 10 92 10		6311.0 3357.2	(6+) 4+
10857 3	G H J M	3-	6 keV	9580	100		1274.537	2+
10890 10	T	1+
10921 3	G H M	1-	24 keV	9644 10918	100 9 79 9		1274.537 0.0	2+ 0+
11032 6	G H J L Z	(8+,6+)	< 10 keV	4721			6311.0	(6+)
11064 10	M	2+
11130 5	G J L	6,7	< 5 keV	4818	100		6311.0	(6+)
11172	H
11194 3	G H M		7 keV	2294 9917	100 4 18 4		8900.3 1274.537	2+
11269 5	G H J M	2+,3+,4+	12 keV	6122 7910	100 15 81 15		5146.0 3357.2	2- 4+
11323	H
11431 8	G H M		48 keV	10154	100		1274.537	2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11465 3	G H	(1-)	< 3 keV	6320 10190 11464	100 4 33 4 49 4		5146.0 1274.537 0.0	2- 2+ 0+
11522 8	G H L M	7-		5221	100		6311.0	(6+)
11577 5	G H M		18 keV
11656 10	M
11686 5	G H	(2+)	9 keV
11708 15	H I M	(2+)	5 keV
11745	G		41 keV
11751	G	1-	8 keV
11772 10	I M	3-
11892 6	G I M S T	1	10 keV
12000 10	T	1+
12020 10	I	0+	68 keV
12071 15	M
12218 15	M
12250 10	I	0+	76 keV
12280 10	G I	1-	51 keV
12390 10	I M	3-	99 keV
12450 20	M	(0+,1-)
12570 10	I S	(1-)	105 keV
12610 10	I	(2+)	124 keV
12643 15	M
12700 10	I	3-	15 keV
12800 10	I	2+	50 keV
12820 10	I	1-	170 keV
12862 15	I M	(3-)	145 keV
12900 10	I M	3-	39 keV
12990 10	I	0+	80 keV
13030 10	I	2+	90 keV
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13078 20	M
13190 10	I	3-	79 keV
13210 10	I	0+	81 keV
13274 20	M
13392 8	I M	3-	58 keV
13460 10	T
13490 10	I	4+	29 keV
13540 10	I	0+	96 keV
13570 10	I	3-	136 keV
13650 10	I	(3-)	48 keV
13670 10	I	(2+)	41 keV
13690 10	I	(5-)	50 keV
13730 10	I	4+	57 keV
13820 10	I	(2+)	51 keV
13880 10	I T	4+	46 keV
14060 20	T
14470	E
15580 40	T
16510 10	T
17.00E3 10	F
17.48E3 10	E
18.43E3 10	E F		≈ 330 keV
19280 20	F I	(7-)	88 keV
19.45E3 10	E	(6+)
19560 20	I	(7-)	75 keV
19.89E3 10	E	(10+)
20.00E3 10	F	(9-)	≈ 270 keV
20.70E3 10	F	(11-)	≈ 340 keV
20850 20	I	(9-)	110 keV
21840 20	E F I	(9-)	170 keV
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
22.20E3 10	F	(12+)	≈ 250 keV
22.90E3 10	F		≈ 290 keV
24.14E3 20	F I
25.00E3 10	F	(9-)	≈ 350 keV
25.90E3 10	F
26.89E3 20	F I

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	δ<r²>(²⁰Ne,²²Ne)=-0.321 fm² 4 (stat) 43 (syst) (2011Ma48,2008Ge07). Absolute ²²Ne charge radius=2.952 fm 9 (2008Ge07) deduced with respect to known ²⁰Ne charge radius=3.006 fm 5. E(level): δ<r²>(²⁰Ne,²²Ne)=-0.321 fm² 4 (stat) 43 (syst) (2011Ma48,2008Ge07). Absolute ²²Ne charge radius=2.952 fm 9 (2008Ge07) deduced with respect to known ²⁰Ne charge radius=3.006 fm 5. Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ). J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ).
1274.537	2+	3.60 ps 5	Q=-0.19 4, μ=+0.65 2 E(level): Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ). J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ).
3357.2	4+	225 fs 4	μ=+2.2 6 E(level): From ²²F β^- decay. Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ). J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ).
4456.2	2+	3.7 fs 25	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
5146.0	2-	0.8 ps 2	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
5329.6	1+	1.2 fs 3	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
5363.4	2+	69 fs 12	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
5523.3	(4)+	21 fs 3	E(level): From ²²F β^- decay. J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
5641.2	3+	< 3 fs	E(level): From ²²F β^- decay. J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
5910.1	3-	32 fs 11	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
6119.9	2+	14 fs 7	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
6235	0+	236 fs 83	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
6311.0	(6+)	49 fs 4	E(level): Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ). J^π(level): Identified as member of a rotational band based on 0⁺ g.s. in 1976Fi02 (α,pγ).
6345.1	4+	13 fs 3	E(level): From ²²F β^- decay. J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
6635.8	(3,4)+	49 fs 21	T_1/2(level): From 1993Ol05 (α,pγ).
6689.0	1-	243 fs 132	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
6819.4	2+	< 3 fs	T_1/2(level): From 1993Ol05 (α,pγ).
6853.5	(1+)	0.38 fs 16	T_1/2(level): From (γ,γ’).
6900	0+	76 fs 8	T_1/2(level): From 1993Ol05 (α,pγ).
7051	1-	100 fs 30	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
7341.1	0+	< 3 fs	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
7341.2	(4)+	35 fs 21	E(level): From ²²F β^- decay. J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
7405.9	(3)-	32 fs 10	J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’). T_1/2(level): From 1993Ol05 (α,pγ).
7423.0	(5+)	< 3 fs	E(level): From ²²F β^- decay. T_1/2(level): From 1993Ol05 (α,pγ).
7469	1,2	55 fs 21	T_1/2(level): From 1993Ol05 (α,pγ).
E(level)	J^π(level)	T_1/2(level)	Comments
7489	1-		J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
7643.1	2+	470 as 200	T_1/2(level): From (e,e’).
7663.7	(2)-		XREF: S(7630).
7722.0	3-		J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
7921	(2)+		J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
8134.3	2+		J^π(level): Natural/Unnatural parity quoted in comment column from 1971Ol01 - σ(180\|’) (α,α’).
8489.6	2+		XREF: M(8500).
8561.4	(1,2)+	0.35 fs 13	E(level): From (γ,γ’). T_1/2(level): From (γ,γ’).
9178	1+	84 as 3	XREF: S(9140). T_1/2(level): From (γ,γ’).
9508			E(level): From (t,p).
9625	5		XREF: d(9640)L(9609).
9654			XREF: d(9630).
9725	(3-)		XREF: L(9697). E(level): Average of data from (t,p) and (⁶Li,d). Uncertainty - lowest experimental value.
9841	(2+)		E(level): From (t,p).
10066	(0+)		E(level): Average of data from (t,p) and (⁶Li,d). Uncertainty - lowest experimental value.
10137	2+		E(level): Average of data from (t,p) and (⁶Li,d). Uncertainty - lowest experimental value.
10208.5	1-	< 2 keV	E(level): From (α,γ). T_1/2(level): From (α,γ).
10280.4	(0+,1-,2+)	< 2 keV	E(level): From (α,γ). T_1/2(level): From (α,γ).
10294.8	(2+)	< 2 keV	E(level): From (α,γ). T_1/2(level): From (α,γ).
10616	(5-)	6 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
10696		< 4 keV	T_1/2(level): From (α,γ).
10706		< 10 keV	XREF: M(10720). T_1/2(level): From (α,γ).
10857	3-	6 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
10921	1-	24 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
11032	(8+,6+)	< 10 keV	E(level): From (α,γ). T_1/2(level): From (α,γ).
E(level)	J^π(level)	T_1/2(level)	Comments
11130	6,7	< 5 keV	E(level): From (α,γ). T_1/2(level): From (α,γ).
11194		7 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
11269	2+,3+,4+	12 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
11431		48 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
11465	(1-)	< 3 keV	E(level): Weighted average of data from (α,γ) and (α,n). Uncertainty - lowest experimental value.
11708	(2+)	5 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
11772	3-		E(level): From (t,p).
11892	1	10 keV	T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12020	0+	68 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12250	0+	76 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12280	1-	51 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12390	3-	99 keV	T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12570	(1-)	105 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12610	(2+)	124 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12700	3-	15 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12800	2+	50 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12820	1-	170 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12862	(3-)	145 keV	XREF: I(12840). T_1/2(level): From (⁴He,⁴He’):Re.
12900	3-	39 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
12990	0+	80 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13030	2+	90 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13190	3-	79 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13210	0+	81 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13392	3-	58 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13490	4+	29 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
E(level)	J^π(level)	T_1/2(level)	Comments
13540	0+	96 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13570	3-	136 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13650	(3-)	48 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13670	(2+)	41 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13690	(5-)	50 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13730	4+	57 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13820	(2+)	51 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
13880	4+	46 keV	XREF: t(13890). J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
18.43E3		≈ 330 keV	T_1/2(level): From (¹²C,α).
19280	(7-)	88 keV	XREF: F(19130). J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
19560	(7-)	75 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
20.00E3	(9-)	≈ 270 keV	J^π(level): From (¹²C,α). Jπ assignments are based on the analysis of double (α,α) angular correlations with the residual ¹⁸O nucleus in the 0⁺ ground state.
20.70E3	(11-)	≈ 340 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
20850	(9-)	110 keV	J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
21840	(9-)	170 keV	XREF: F(21600). J^π(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting. T_1/2(level): From ¹⁸O(⁴He,⁴He’):res. Jπ assignments are based on double differential cross section measurements and fitting.
22.20E3	(12+)	≈ 250 keV	J^π(level): From (¹²C,α). Jπ assignments are based on the analysis of double (α,α) angular correlations with the residual ¹⁸O nucleus in the 0⁺ ground state. T_1/2(level): From (¹²C,α).
22.90E3		≈ 290 keV	T_1/2(level): From (¹²C,α).
24.14E3			XREF: F(24000).
25.00E3	(9-)	≈ 350 keV	J^π(level): From (¹²C,α). Jπ assignments are based on the analysis of double (α,α) angular correlations with the residual ¹⁸O nucleus in the 0⁺ ground state. T_1/2(level): From (¹²C,α).
26.89E3			XREF: F(27000).

E(level)	E(gamma)	Comments
3357.2	2082.6	E(γ): From ²²F β^- decay, except otherwise noted.
4456.2	1099	E(γ): Placement from (²⁶Mg,²²Neγ)
5146.0	689.8	I(γ): From (t,pγ)
5146.0	3871.1	I(γ): From (t,pγ)
5523.3	2166.1	E(γ): From ²²F β^- decay, except otherwise noted. I(γ): From ²²F β^- decay, except otherwise noted.
5523.3	4247.9	E(γ): From ²²F β^- decay, except otherwise noted. I(γ): From ²²F β^- decay, except otherwise noted.
5641.2	2283.9	E(γ): From ²²F β^- decay, except otherwise noted. I(γ): Other value: 30 4 in (t,pγ). From ²²F β^- decay, except otherwise noted.
5641.2	4366.1	E(γ): From ²²F β^- decay, except otherwise noted. I(γ): From ²²F β^- decay, except otherwise noted.
6119.9	1663.6	I(γ): From (t,pγ)
	4844.8	I(γ): From (t,pγ)
	6119.0	I(γ): From (t,pγ) M(γ): From (e,e’) based on B(E2)
6345.1	2987.7	E(γ): From ²²F β^- decay, except otherwise noted.
7051	5776	I(γ): From (t,pγ)
7051	7050	I(γ): From (t,pγ)
7341.2	1430.9	E(γ): γ-ray not seen in ²²F β^- decay. I_γ from (α,pγ)
7341.2	3983.5	E(γ): From ²²F β^- decay, except otherwise noted.
7423.0	1900.0	E(γ): From ²²F β^- decay, except otherwise noted.
8134.3	6858.6	I(γ): From 1976Fi02 (α,pγ)
9178	9176	E(γ): placement in (γ,γ)
10208.5	8932.0	I(γ): From (α,γ)
10208.5	10206.0	I(γ): From (α,γ)
10280.4	2791.2	I(γ): From (α,γ)
	3426.6	I(γ): From (α,γ)
	4950.2	I(γ): From (α,γ)
	5823.4	I(γ): From (α,γ)
	9003.9	I(γ): From (α,γ)
E(level)	E(gamma)	Comments
10294.8	2805.6	I(γ): From (α,γ)
	3441.0	I(γ): From (α,γ)
	4964.6	I(γ): From (α,γ)
	5837.8	I(γ): From (α,γ)
	9018.3	I(γ): From (α,γ)
10616	4270	I(γ): From (α,γ)
10616	7258	I(γ): From (α,γ)
10749	4437	I(γ): From (α,γ)
10749	7390	I(γ): From (α,γ)
10921	9644	I(γ): From (α,γ)
10921	10918	I(γ): From (α,γ)
11032	4721	E(γ): Placement from (²⁶Mg,²²Neγ)
11194	2294	I(γ): From (α,γ)
11194	9917	I(γ): From (α,γ)
11269	6122	I(γ): From (α,γ)
11269	7910	I(γ): From (α,γ)
11465	6320	I(γ): From (α,γ)
	10190	I(γ): From (α,γ)
	11464	I(γ): From (α,γ)