List of levels for 15O

Author: F. Ajzenberg-selove | Citation: Nucl. Physics A523,1 (1991) | Cutoff date: 1-Jul-1990

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
5183	1/2+	5.7 fs 7	5182 1	[E1]		B(E1)(W.u.)=0.0014 2
5240.9	5/2+	2.25 ps 21	5239.9 3	[M2+E3]	-0.10 4	B(E3)(W.u.)=4 2, B(M2)(W.u.)=0.55 6
6176.3	3/2-	< 1.74 fs	6174.9 17	[M1+E2]	+0.125 7	B(E2)(W.u.)>0.28, B(M1)(W.u.)>0.053
6793.1	3/2+	< 20 fs	6791.4 17	[E1(+M2)]	+0.02 2	B(E1)(W.u.)>1.9E-4
6859.4	5/2+	11.1 fs 17	1618.4 10	[M1(+E2)]	+0.04 3	B(M1)(W.u.)=0.46 7
7275.9	7/2+	0.49 ps 11	2034.9 7	[M1]		B(M1)(W.u.)=0.0051 10
7275.9	7/2+	0.49 ps 11	7274.0 6	[E3]		B(E3)(W.u.)=6.4 25
7556.5	1/2+	0.99 keV 10 % IT = 0.0042 % p = 99.9958	763.4 17	[M1]		B(M1)(W.u.)=1.0
	1/2+	0.99 keV 10 % IT = 0.0042 % p = 99.9958	1380.1 17	[E1]		B(E1)(W.u.)=0.022
	1/2+	0.99 keV 10 % IT = 0.0042 % p = 99.9958	2373 1	[M1]		B(M1)(W.u.)=0.0024
	1/2+	0.99 keV 10 % IT = 0.0042 % p = 99.9958	7554.5 4	[E1]		B(E1)(W.u.)=8.5E-6
8284.0	3/2+	3.6 keV 7 % IT = 0.027 % p = 99.973	1424.5 10	[M1]		B(M1)(W.u.)=0.09 3
	3/2+	3.6 keV 7 % IT = 0.027 % p = 99.973	2107.5 17	[E1]		B(E1)(W.u.)=0.0026 8
	3/2+	3.6 keV 7 % IT = 0.027 % p = 99.973	3042.8 6	[M1]		B(M1)(W.u.)=0.33 5
	3/2+	3.6 keV 7 % IT = 0.027 % p = 99.973	8281.5 5	[E1]		B(E1)(W.u.)=0.00103 13
8743	1/2+	32 keV % IT = 0.0015 % p = 99.9985	2566 6	[E1]		B(E1)(W.u.)=0.023
8743	1/2+	32 keV % IT = 0.0015 % p = 99.9985	3560 6	[M1]		B(M1)(W.u.)=0.34
9488	5/2-	10.1 keV 5 % IT = 0.024 % p = 99.976	2212 3	[E1]		B(E1)(W.u.)=0.025
	5/2-	10.1 keV 5 % IT = 0.024 % p = 99.976	2628 3	[E1]		B(E1)(W.u.)=0.011
	5/2-	10.1 keV 5 % IT = 0.024 % p = 99.976	3311 3	[M1]		B(M1)(W.u.)=0.022
	5/2-	10.1 keV 5 % IT = 0.024 % p = 99.976	4246 3	[E1]		B(E1)(W.u.)=0.0048
	5/2-	10.1 keV 5 % IT = 0.024 % p = 99.976	9481 3	[E2]		B(E2)(W.u.)=15
9609	3/2-	8.8 keV 5 % IT = 0.057 % p = 99.943	3433 2	[M1]		B(M1)(W.u.)=0.1
	3/2-	8.8 keV 5 % IT = 0.057 % p = 99.943	4367 2	[E1]		B(E1)(W.u.)=0.029
	3/2-	8.8 keV 5 % IT = 0.057 % p = 99.943	9606 2	[M1]		B(M1)(W.u.)=0.21
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
10938	1/2+	99 keV 5 % IT = 0.032 6 % p = 100	4761 3	[E1]		B(E1)(W.u.)=0.16 5
	1/2+	99 keV 5 % IT = 0.032 6 % p = 100	5754 3	[M1]		B(M1)(W.u.)=2.7 5
	1/2+	99 keV 5 % IT = 0.032 6 % p = 100	10934 3	[E1]		B(E1)(W.u.)=0.026 8
11025	1/2-	25 keV 2 % IT = 0.0056 16 % p = 100	11021 3	[M1]		B(M1)(W.u.)=0.05 2
11218	3/2+	40 keV 4 % IT = 0.0185 24 % p = 99.9815 24	5975 3	[M1]		B(M1)(W.u.)=0.20 4
	3/2+	40 keV 4 % IT = 0.0185 24 % p = 99.9815 24	6034 3	[M1]		B(M1)(W.u.)=0.22 5
	3/2+	40 keV 4 % IT = 0.0185 24 % p = 99.9815 24	11213 3	[E1]		B(E1)(W.u.)=0.0095 10
11569	5/2-	20 keV 15 % IT = 0.010 7 % p = 99.990 7	5392 15	[M1]		B(M1)(W.u.)=0.12 6
	5/2-	20 keV 15 % IT = 0.010 7 % p = 99.990 7	6326 15	[E1]		B(E1)(W.u.)=0.012 1
	5/2-	20 keV 15 % IT = 0.010 7 % p = 99.990 7	11564 15	[E2]		B(E2)(W.u.)=0.8 5
11748	5/2+	99 keV 5 % IT = 0.010 2 % p = 99.990 2	5571 3	[E1]		B(E1)(W.u.)=0.071 14
11748	5/2+	99 keV 5 % IT = 0.010 2 % p = 99.990 2	6505 3	[M1]		B(M1)(W.u.)=0.9 2
11846	5/2-	65 keV 3 % IT = 0.0022 9 % p = 99.9978 9	6603 3	[E1]		B(E1)(W.u.)=0.011 5

Q(β-)=-1.395×10⁴ keV 7	S(n)= 13223.2 keV 5	S(p)= 7296.8 keV 5	Q(α)= -10219.6 keV 11
Reference: 2012WA38

References:
A	¹²C(³He,X) RES	B	¹²C(α,n)
C	¹²C(⁶Li,t)	D	¹²C(¹²C,⁹Be)
E	¹³C(³He,n)	F	¹⁴C(p,π^-)
G	¹⁴N(p,γ) RES	H	¹⁴N(p,n) RES
I	¹⁴N(p,p) RES	J	¹⁴N(p,³He) RES
K	¹⁴N(p,α) RES	L	¹⁴N(d,n)
M	¹⁴N(³He,d)	N	¹⁵N(p,n)
O	¹⁵N(³He,t)	P	¹⁶O(γ,n)
Q	¹⁶O(p,PN)	R	¹⁶O(p,d)
S	¹⁶O(d,t)	T	¹⁶O(³He,α)
U	¹⁷O(p,t)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A B C D E F G L M N O P Q R S T U	1/2-	122.24 s 16 % ε = 100
5183 1	C E G L M O P R S T	1/2+	5.7 fs 7	5182 1	100	[E1]	0.0	1/2-
5240.9 3	B C D E G L M N O P R S T U	5/2+	2.25 ps 21	5239.9 3	100	[M2+E3]	0.0	1/2-
6176.3 17	C E G L M N O P Q R S T U	3/2-	< 1.74 fs	6174.9 17	100	[M1+E2]	0.0	1/2-
6793.1 17	C E G L M O T	3/2+	< 20 fs	6791.4 17	100	[E1(+M2)]	0.0	1/2-
6859.4 9	B C E G L M O P T U	5/2+	11.1 fs 17	1618.4 10	100	[M1(+E2)]	5240.9	5/2+
7275.9 6	B C D E F L M N O R T U	7/2+	0.49 ps 11	2034.9 7 7274.0 6	100.0 12 4.0 12	[M1] [E3]	5240.9 0.0	5/2+ 1/2-
7556.5 4	E G L M N O R T	1/2+	0.99 keV 10 % IT = 0.0042 % p = 99.9958	697.1 10 763.4 17 1380.1 17 2373 1 7554.5 4	<11 40.3 11 100.0 7 27.5 11 6.1 9	[M1] [E1] [M1] [E1]	6859.4 6793.1 6176.3 5183 0.0	5/2+ 3/2+ 3/2- 1/2+ 1/2-
8284.0 5	C E G L M T	3/2+	3.6 keV 7 % IT = 0.027 % p = 99.973	1424.5 10 2107.5 17 3042.8 6 3100.7 11 8281.5 5	2.3 6 4.1 12 79.3 10 2.3 2 100.0 5	[M1] [E1] [M1] [E1]	6859.4 6176.3 5240.9 5183 0.0	5/2+ 3/2- 5/2+ 1/2+ 1/2-
8743 6	E G T	1/2+	32 keV % IT = 0.0015 % p = 99.9985	2566 6 3560 6	56 5 100 5	[E1] [M1]	6176.3 5183	3/2- 1/2+
8922 2	B C E G R T	5/2+	3.3 keV 3 % IT = ? % p = 100	2063 2 2746 3 3738 2 8919 2	72 8 62 8 100 8 23 11		6859.4 6176.3 5183 0.0	5/2+ 3/2- 1/2+ 1/2-
8922 2	B E G R T	1/2+	7.5 keV % IT = ? % p = 100	2063 2 2738 2 2746 3 8919 2	20 20 40 20 40 20 100 50		6859.4 6176.3 6176.3 0.0	5/2+ 3/2- 3/2- 1/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8982.1 17	C E G T	(1/2)-	3.9 keV 4 % IT = ? % p = 100	3799 1 8979.2 17	6.4 11 100.0 11		5183 0.0	1/2+ 1/2-
9484 8	G T	(3/2)+	≈ 200 keV % p = 100 % IT ≈ 0.0046	9481 8	100		0.0	1/2-
9488 3	C E G T	5/2-	10.1 keV 5 % IT = 0.024 % p = 99.976	2212 3 2628 3 3311 3 4246 3 9481 3	5.9 4.0 0.8 7.6 100	[E1] [E1] [M1] [E1] [E2]	7275.9 6859.4 6176.3 5240.9 0.0	7/2+ 5/2+ 3/2- 5/2+ 1/2-
9609 2	B C E G T	3/2-	8.8 keV 5 % IT = 0.057 % p = 99.943	3433 2 4367 2 9606 2	2.5 24 100	[M1] [E1] [M1]	6176.3 5240.9 0.0	3/2- 5/2+ 1/2-
9662 3	B C E I T	(7/2,9/2)-	2 keV 1 % p = 100
10290	C E I T	(5/2-)	3 keV 1 % p = 100
10300	C E I T	5/2+	11 keV 2 % p = 100
10461 5	B C D E G T	(9/2+)	< 2 keV % IT = ? % p = ?	3185 5 3602 5 5219 5	61 10 <6.5 100 10		7275.9 6859.4 5240.9	7/2+ 5/2+ 5/2+
10480	B E G I S	(3/2-)	25 keV 5 % IT = 0.0014 4 % p = 100	3686 4303 5238 10476	<7 <7 67 10 100 10		6793.1 6176.3 5240.9 0.0	3/2+ 3/2- 5/2+ 1/2-
10506?	G I	(3/2)+	140 keV 40 % IT = ? % p = 100
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10917 12	I T	7/2+	90 keV % p = 100
10938 3	G I T	1/2+	99 keV 5 % IT = 0.032 6 % p = 100	4144 3 4761 3 5754 3 10934 3	<18 50 18 77 7 100 18	[E1] [M1] [E1]	6793.1 6176.3 5183 0.0	3/2+ 3/2- 1/2+ 1/2-
11025 3	G I T	1/2-	25 keV 2 % IT = 0.0056 16 % p = 100	11021 3	100	[M1]	0.0	1/2-
11151 7	C I T		< 10 keV % p = 100
11218 3	G I T	3/2+	40 keV 4 % IT = 0.0185 24 % p = 99.9815 24	4424 3 5975 3 6034 3 11213 3	<6 16 7 19 7 100 7	[M1] [M1] [E1]	6793.1 5240.9 5183 0.0	3/2+ 5/2+ 1/2+ 1/2-
11565 15	C I T		< 10 keV % p = 100
11569 15	C G L	5/2-	20 keV 15 % IT = 0.010 7 % p = 99.990 7	4775 15 5392 15 6326 15 11564 15	<5 32 15 100 15 29 15	[M1] [E1] [E2]	6793.1 6176.3 5240.9 0.0	3/2+ 3/2- 5/2+ 1/2-
11616 15	G I	(3/2,1/2)-	80 keV 50 % IT = ? % p = 100
11719 8	B C I T		< 10 keV % p = 100
11748 3	G I	5/2+	99 keV 5 % IT = 0.010 2 % p = 99.990 2	5571 3 6505 3	100 13 89 13	[E1] [M1]	6176.3 5240.9	3/2- 5/2+
11846 3	G I	5/2-	65 keV 3 % IT = 0.0022 9 % p = 99.9978 9	6603 3	100	[E1]	5240.9	5/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11980 10	C I T	5/2-	20 keV 5 % p = 100
12129 15	I	5/2+	200 keV 50 % p = 100
12222 20	I		100 keV 50 % p = 100
12255 13	U	5/2+	135 keV 15 % p = 100
12295 10	C
12471 3	I	5/2-,(3/2-)	77 keV 4 % p = 100
12600 10	C
12800	G		≈ 250 keV % IT = ? % p = 100
12835 3	B C D I		16 keV 1 % p = 100
13008 3	I		215 keV 3 % p = 100
13025 3	A I		40 keV 30 % p = ? % 3HE = ?
13450	G I K	(1/2,3/2)+	≈ 1000 keV % IT = ? % p = ? % α = ?
13490?	I	(3/2+)	% p = ?
13600	K	5/2+	% p = ? % α = ?
13700	I	3/2-	% p = 100
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13790	A I K	3/2-	% n = ? % p = ? % 3HE = ? % α = ?
13870	G		≈ 150 keV % IT = ? % p = 100
14030 40	A	(1/2-,3/2-)	160 keV 20 % n = ? % p = ? % 3HE = ?
14170	K	5/2-	% p = ? % α = ?
14270 10	A B C H I J K	1/2+	340 keV 30 % n = ? % p = ? % 3HE = ? % α = ?
14340	A K	5/2+	240 keV % p = ? % 3HE = ? % α = ?
14465 10	A H I K	3/2+,5/2+	100 keV 10 % n = ? % p = ? % 3HE = ? % α = ?
14700 40	A H		170 keV 35 % n = ? % p = ? % 3HE = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
14950 40	A H I J K		400 keV 25 % n = ? % p = ? % 3HE = ? % α = ?
15050 10	B C D	(13/2+)
15100	G	(1/2,3/2)+	≈ 1000 keV % IT = ? % p = 100
15450 30	A		70 keV 20 % p = ? % 3HE = ? % α = ?
15540 10	A C		% p = ? % 3HE = ? % α = ?
15600 10	A C		% p = ? % 3HE = ? % α = ?
15650 10	B C
15800 10	A C		% n = ? % 3HE = ?
15900 15	A	1/2-,3/2-	350 keV % 3HE = ? % α = ?
16050 20	A H I K		≈ 185 keV % n = ? % p = ? % 3HE = ? % α = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
16100 20	A		% n = ? % 3HE = ? % α = ?
16210 20	A I J K		≈ 140 keV % n = ? % p = ? % 3HE = ? % α = ?
16430 75	A H J	1/2+	560 keV 100 % n = ? % 3HE = ? % α = ?
16750 50	A T		% n = ? % 3HE = ?
17050 60	A G I K	(1/2,3/2)+	700 keV 70 % IT = ? % p = ? % 3HE = ?
17460 20	C
17510 20	A C	1/2-,3/2-	640 keV 120 % IT = ? % n = ? % 3HE = ? % α = ?
17990 50	A	1/2-,3/2-	200 keV % 3HE = 100
18230 50	A		% n = ? % p = ? % 3HE = ?
18670 60	A G	(1/2,3/2)+	520 keV 110 % IT = ? % 3HE = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
19030 50	A R		1120 keV 300 % IT = ? % n = ? % 3HE = ?
19570 80	A	(1/2,3/2)+	780 keV 270 % IT = ? % 3HE = ?
19910 50	A		% n = ? % 3HE = ?
20420 70	A G	(3/2,1/2)+	970 keV 240 % IT = ? % p = ? % 3HE = ?
21560 70	A G R	(3/2,1/2)+	730 keV 120 % IT = ? % p = ? % 3HE = ?
23.8E+3 1	A		≤ 500 keV % IT = ? % 3HE = ?
26000?	A	(13/2-)	≈ 600 keV % 3HE = 100
28000?	A	(9/2-,11/2-)	≈ 2500 keV % 3HE = 100
29000?	A		≈ 2500 keV % 3HE = 100

E(level)	J^π(level)	T_1/2(level)	Comments
10290	(5/2-)	3 keV 1 % p = 100	Author suggests that the 10290 and 10300 may be the same state.
10300	5/2+	11 keV 2 % p = 100	Author suggests that the 10290 and 10300 may be the same state.
12295			E(level): Decay mode not specified.
12600			E(level): Decay mode not specified.
13025		40 keV 30 % p = ? % 3HE = ?	The ³He decay mode is tentative.
13450	(1/2,3/2)+	≈ 1000 keV % IT = ? % p = ? % α = ?	The α decay mode is tentative.
14340	5/2+	240 keV % p = ? % 3HE = ? % α = ?	The Γ and the ³He decay modes are tentative.
15050	(13/2+)		E(level): Decay mode not specified.
15540		% p = ? % 3HE = ? % α = ?	The decay modes shown are tentative.
15600		% p = ? % 3HE = ? % α = ?	The decay modes shown are tentative.
15650			E(level): Decay mode not specified.
16100		% n = ? % 3HE = ? % α = ?	The neutron decay mode is tentative.
16210		≈ 140 keV % n = ? % p = ? % 3HE = ? % α = ?	The neutron decay mode is tentative.
17460			E(level): Decay mode not specified.

E(level)	E(gamma)	Comments
7556.5	697.1	I(γ): Iγ<0.25Iγ(763γ)
10480	3686	E(γ): note incorrect final level in table 15.17. 9.79 MeV should be 6.79 MeV.