List of levels for 16O

Authors: J.H. Kelley, D.R. Tilley, H.R. Weller and C.M. Cheves | Citation: Nucl. Physics 564 1 (1993) | Cutoff date: 31-DEC-1992

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
6129.89	3-	18.4 ps 5	6128.63 4	[E3]		B(E3)(W.u.)=13.5 7
6917.1	2+	4.70 fs 13	787.2 6	[E1]		B(E1)(W.u.)≤4E-5
	2+	4.70 fs 13	867.7 12	[E2]		B(E2)(W.u.)=27 3
	2+	4.70 fs 13	6915.5 6	[E2]		B(E2)(W.u.)=3.1 1
7116.85	1-	8.3 fs 5	986.93 15	[E2]		B(E2)(W.u.)=21 5
	1-	8.3 fs 5	1067.5 10	[E1]		B(E1)(W.u.)≤6E-7
	1-	8.3 fs 5	7115.15 14	[E1]		B(E1)(W.u.)=3.5E-4 2
8871.9	2-	125 fs 11	1754.9 6	[M1+E2]	2.1 4	B(E2)(W.u.)=10.3 15, B(M1)(W.u.)=7E-4 3
	2-	125 fs 11	1954.7 8	[E1]		B(E1)(W.u.)=4.7E-5 9
	2-	125 fs 11	2741.5 5	[M1+E2]	2.9 2	B(E2)(W.u.)=8.2 7, B(M1)(W.u.)=6.9E-4 9
	2-	125 fs 11	2822.2 12	[M2]		B(M2)(W.u.)=0.18 6
	2-	125 fs 11	8869.3 5	[M2]		B(M2)(W.u.)=0.050 8
9585	1-	420 keV 20 % IT = 6.7E-6 10 % α = 100	2688 11	[E1]		B(E1)(W.u.)=3.5E-4 12
9585	1-	420 keV 20 % IT = 6.7E-6 10 % α = 100	9582 11	[E1]		B(E1)(W.u.)=6.6E-5 11
9844.5	2+	0.62 keV 10 % IT = 0.0016 3 % α = 100	2927.1 8	[M1]		B(M1)(W.u.)=0.0042 8
	2+	0.62 keV 10 % IT = 0.0016 3 % α = 100	3794.6 12	[E2]		B(E2)(W.u.)=1.2 3
	2+	0.62 keV 10 % IT = 0.0016 3 % α = 100	9841.2 5	[E2]		B(E2)(W.u.)=0.031 3
10356	4+	26 keV 3 % IT = 2.4E-4 4 % α = 100	3439 3	[E2]		B(E2)(W.u.)=65 6
	4+	26 keV 3 % IT = 2.4E-4 4 % α = 100	4225 3	[E1]		B(E1)(W.u.)<3E-5
	4+	26 keV 3 % IT = 2.4E-4 4 % α = 100	10352 3	[E4]		B(E4)(W.u.)=3.7 13
10957	0-	5.5 fs 35	3839.6 10	[M1]		B(M1)(W.u.)=0.07 4
11096.7	4+	0.28 keV 5 % IT = 0.0020 6 % α = 100	4179.0 17	[E2]		B(E2)(W.u.)=1.0 3
11096.7	4+	0.28 keV 5 % IT = 0.0020 6 % α = 100	4966.0 16	[E1]		B(E1)(W.u.)=5.9E-5 25
11520	2+	71 keV 3 % IT = 9.4E-5 3 % α = 100	4402 4	[E1]		B(E1)(W.u.)≤1E-4
	2+	71 keV 3 % IT = 9.4E-5 3 % α = 100	4602 4	[M1]		B(M1)(W.u.)=0.014 4
	2+	71 keV 3 % IT = 9.4E-5 3 % α = 100	5470 5	[E2]		B(E2)(W.u.)=3.1 5
	2+	71 keV 3 % IT = 9.4E-5 3 % α = 100	11516 4	[E2]		B(E2)(W.u.)=1.5 5
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
12440	1-	91 keV 6 % IT = 0.0132 24 % p = 0.9 1 % α = 99.1 1	6389.2 23	[E1]		B(E1)(W.u.)=0.0011 4
12440	1-	91 keV 6 % IT = 0.0132 24 % p = 0.9 1 % α = 99.1 1	12434.8 20	[E1]		B(E1)(W.u.)=0.014 2
12530	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	3657.7 12	[M1]		B(M1)(W.u.)=1.2 1
	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	5412.1 10	[M1]		B(M1)(W.u.)=0.12 1
	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	5611.8 12	[E1]		B(E1)(W.u.)<4.5E-4
	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	6398.7 10	[M1]		B(M1)(W.u.)=0.31 2
	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	12524.7 10	[M2]		B(M2)(W.u.)=1.12 17
12796	0-	40 keV 4 % IT = 0.0062 8 % p = 100	5678 4	[M1]		B(M1)(W.u.)=0.65 6
12968.6	2-	1.34 keV 4 % IT = 0.28 3 % p = 78 4 % α = 22 4	4096.1 7	[M1]		B(M1)(W.u.)=1.04 12
	2-	1.34 keV 4 % IT = 0.28 3 % p = 78 4 % α = 22 4	5850.7 5	[M1]		B(M1)(W.u.)=0.05 1
	2-	1.34 keV 4 % IT = 0.28 3 % p = 78 4 % α = 22 4	6837.1 4	[M1]		B(M1)(W.u.)=0.27 3
	2-	1.34 keV 4 % IT = 0.28 3 % p = 78 4 % α = 22 4	12963.0 4	[M2]		B(M2)(W.u.)=1.0 3
13090	1-	130 keV 5 % IT = 0.026 4 % p = 71 % α = 29	5972 8	[M1]		B(M1)(W.u.)=0.31 9
	1-	130 keV 5 % IT = 0.026 4 % p = 71 % α = 29	7039 8	[E1]		B(E1)(W.u.)=0.0017 6
	1-	130 keV 5 % IT = 0.026 4 % p = 71 % α = 29	13084 8	[E1]		B(E1)(W.u.)=0.033 5

Q(β-)=-15417 keV 9	S(n)= 15663.9 keV 5	S(p)= 1.213×10⁴ keV	Q(α)= -7162 keV
Reference: 2012WA38

References:
A	¹²C(α,X)	B	¹³C(³He,X)
C	¹³C(⁶Li,t)	D	¹⁴N(d,X)
E	¹⁴N(³He,p)	F	¹⁵N(p,X)
G	¹⁵N(p,n)	H	¹⁵N(d,n)
I	¹⁵N(³He,d)	J	¹⁶N β^- decay
K	¹⁶O(E,E’)	L	¹⁶O(p,p’)
M	¹⁶O(d,d’)	N	¹⁶O(³He,³He)
O	¹⁶O(α,α)	P	¹⁷O(d,t)
Q	¹⁷O(³He,α)

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 H I J K L M N O P Q	0+	STABLE
6049.4 10	A B C E F I J K M P	0+	67 ps 5	6048.2 10		[E0]	0.0	0+
6129.89 4	A B C E F H I J K L N O P Q	3-	18.4 ps 5	6128.63 4	100	[E3]	0.0	0+
6917.1 6	A B C E F H I K L M N O P Q	2+	4.70 fs 13	787.2 6 867.7 12 6915.5 6	≤0.008 0.027 3 100	[E1] [E2] [E2]	6129.89 6049.4 0.0	3- 0+ 0+
7116.85 14	A B E F H I J K L M O P Q	1-	8.3 fs 5	986.93 15 1067.5 10 7115.15 14	0.070 14 <6E-4 100	[E2] [E1] [E1]	6129.89 6049.4 0.0	3- 0+ 0+
8871.9 5	A C E H I J K L M N O P Q	2-	125 fs 11	1754.9 6 1954.7 8 2741.5 5 2822.2 12 8869.3 5	14.7 7 4.6 7 100 21 0.15 5 9.3 10	[M1+E2] [E1] [M1+E2] [M2] [M2]	7116.85 6917.1 6129.89 6049.4 0.0	1- 2+ 3- 0+ 0+
9585 11	A E I J L M N O	1-	420 keV 20 % IT = 6.7×10^-6 10 % α = 100	2688 11 9582 11	12 4 100 16	[E1] [E1]	6917.1 0.0	2+ 0+
9844.5 5	A C E H I J K L M N O Q	2+	0.62 keV 10 % IT = 0.0016 3 % α = 100	2927.1 8 3794.6 12 9841.2 5	34 7 30 7 100 7	[M1] [E2] [E2]	6917.1 6049.4 0.0	2+ 0+ 0+
10356 3	A C E I K L M N O Q	4+	26 keV 3 % IT = 2.4×10^-4 4 % α = 100	3439 3 4225 3 10352 3	100 10 <1.6 9E-5 3	[E2] [E1] [E4]	6917.1 6129.89 0.0	2+ 3- 0+
10957 1	E H I L M Q	0-	5.5 fs 35	3839.6 10	100	[M1]	7116.85	1-
11080 3	E H I Q	3+	< 12 keV
11096.7 16	A C E K L M N O	4+	0.28 keV 5 % IT = 0.0020 6 % α = 100	4179.0 17 4966.0 16	81 20 100 42	[E2] [E1]	6917.1 6129.89	2+ 3-
11260?	A I	(0+)	2500 keV % α = 100
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11520 4	A C E K L M N O	2+	71 keV 3 % IT = 9.4×10^-5 3 % α = 100	4402 4 4602 4 5470 5 11516 4	≤0.9 4.4 11 4.6 8 100.0 13	[E1] [M1] [E2] [E2]	7116.85 6917.1 6049.4 0.0	1- 2+ 0+ 0+
11600 20	A	3-	800 keV 100 % α = 100
12049 2	A C E K L M N O	0+	1.5 keV 5 % IT = ? % α = 100	12044.1 20		[E0]	0.0	0+
12440 2	A E F H I K M O	1-	91 keV 6 % IT = 0.0132 24 % p = 0.9 1 % α = 99.1 1	6389.2 23 12434.8 20	1.2 4 100	[E1] [E1]	6049.4 0.0	0+ 0+
12530 1	C E F H I K L M O P	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	3657.7 12 5412.1 10 5611.8 12 6398.7 10 12524.7 10	67 4 24.5 14 <2 100 4 12.2 12	[M1] [M1] [E1] [M1] [M2]	8871.9 7116.85 6917.1 6129.89 0.0	2- 1- 2+ 3- 0+
12796 4	E F H I L	0-	40 keV 4 % IT = 0.0062 8 % p = 100	5678 4	100	[M1]	7116.85	1-
12968.6 4	C E F H I K P Q	2-	1.34 keV 4 % IT = 0.28 3 % p = 78 4 % α = 22 4	4096.1 7 5850.7 5 6837.1 4 12963.0 4	84 4 12 2 100 4 4.2 8	[M1] [M1] [M1] [M2]	8871.9 7116.85 6129.89 0.0	2- 1- 3- 0+
13020 10	A K L M N O	2+	150 keV 10 % IT = ? % p = ? % α = ?	13014 10	100		0.0	0+
13090 8	A E H I K Q	1-	130 keV 5 % IT = 0.026 4 % p = 71 % α = 29	5972 8 7039 8 13084 8	3.1 8 0.58 12 100	[M1] [E1] [E1]	7116.85 6049.4 0.0	1- 0+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13129 10	A E I	3-	110 keV 30 % IT = ? % p = 1 % α = 99
13259 2	A E F H I K L P Q	3-	21 keV 1 % IT = ? % p = ? % α = ?
13664 3	E F M	1+	64 keV 3 % p = 14 % α = 86 % IT < 0.0015
13869 2	A E F K N O	4+	89 keV 2 % IT = ? % p = 0.6 % α = 99.4
13980 2	E F	2-	20 keV 2 % p = ? % α = ?
14032 15	A K	0+	185 keV 35 % IT = ? % α = 100
1410E+1 10	A	3-	750 keV 200 % α = 100
14302 3	C E	4(-)	34 keV 12
14399 2	C E	5+	27 keV 5
14620 20	A	4(+)	490 keV 15 % α = 100
14660 20	A	5-	670 keV 15 % α = 100
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
14815.3 16	A C E N O	6+	70 keV 8 % α = 100
14926 2	E F K	2+	54 keV 5 % p = ? % α = ?
15097 5	A E F	0+	166 keV 30 % p = ? % α = ?
15196 3	E F K L N P Q	2-	63 keV 4 % p = ? % α = ?
15260 50	F K L N	2+	300 keV 100 % p = ? % α = ?
15408 2	A E F K L O P Q	3-	132 keV 7 % p = ? % α = ?
15785 5	C E	3+	40 keV 10
15828 30	A K	3-	700 keV 120 % α = 100
16200 90	A E F	1-	580 keV 60 % IT = ? % p = ? % α = ?
16209 2	E F G K	1+	19 keV 3 % IT = ? % n = ? % p = ?
16275 7	A	6+	420 keV 20 % α = 100
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
16352 8	A E F L N O	(2+)	61 keV 8 % p = ? % α = ?
16442.3 16	A E F K	2+	25 keV 2 % IT = ? % n = ? % p = ? % α = ?
16817 2	C E F	(3+)	28 keV 3 % IT = ? % p = ? % α = ?
16844 21	A	4+	570 keV 60 % α = 100
16930 50	A	2+	≈ 280 keV % α = ? % 8BE = ?
17090 40	F	1-	380 keV 40 % IT = ? % p = 100
17129 5	A	2+	107 keV 14 % n = ? % p = ? % α = ?
17140 10	A F G K	1+	34 keV 3 % IT = ? % n = ? % p = ? % α = ?
17197 17	A I L N O	2+	160 keV 60 % α = ? % 8BE = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
17282 11	A F G K	1-	78 keV 5 % IT = ? % n = ? % p = ? % α = ?
17510 26	A	1-	180 keV 60 % α = 100
17555 21	A	(6+)	180 keV 70 % n = ? % α = ?
17609 7	A F	2+	114 keV 14 % α = ?
17720	A	(0+,2+)	≈ 75 keV % p = ? % α = ? % 8BE = ?
17775 11	C K L N O P Q	4-	45 keV 7 % p = 100
17784 15	A K	4+	400 keV 40 % n = ? % α = ? % 8BE = ?
17877 6	F	(2)-	24 keV 3 % IT = ? % p = ? % α = ?
18016 1	A C	4+	14 keV 2 % n = ? % p = ? % α = ? % 8BE = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
18029 5	C F G K P	3(-)	26 keV 4 % IT = ? % n = ? % p = ? % α = ?
18089 25	A G L O	(0+)	288 keV 44 % IT = ? % n = ? % p = ? % α = ?
18202 8	F K L O	2+	220 keV 50 % IT = ? % p = 100
18290	A		≈ 380 keV % IT = ? % p = ? % α = ?
18404 12	A	5-	550 keV 40 % α = 100
18430 15	F L N O	2+	90 keV 40 % p = 100
18484 6	F	(1-,2-)	35 keV 6 % p = 100
18600	A	(1-,5-)	≈ 150 keV % α = 100
18600	A	(4+)	≈ 300 keV % α = ? % 8BE = ?
18640 15	C K	(5+)	22 keV 7 % n = ? % p = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
18773 22	A	1-	215 keV 45 % p = ? % α = ?
18785 6	A	4+	260 keV 20 % n = ? % p = ? % α = ? % 8BE = ?
18790 10	F K	1+	120 keV 20 % IT = ? % p = 100
18977 6	C F K L N P Q	4-	8 keV 4 % IT = ? % p = ? % α = ?
19001 24	F K	2-	420 keV 50 % IT = ? % p = 100
19080 30	A F	2+	≈ 120 keV % IT = ? % n = ? % p = ? % α = ?
19206 12	K P Q	3-	68 keV 10
19253 30	A	(5-)	50 keV 45 % n = ? % α = ?
19257 9	A F	2+	155 keV 25 % IT = ? % p = ? % α = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
19319 14	A	(6+)	65 keV 35 % p = ? % α = ? % 8BE = ?
19375 2	A	4+	23 keV 4 % p = ? % α = ?
19470 30	F K	1-	200 keV 70 % IT = ? % p = 100
19539 19	A L O	2+	255 keV 75 % n = ? % α = ?
19754 16	A	2+	290 keV 50 % p = ? % α = ?
19808 11	C L P Q	4-	32 keV 4
19895 7	F	3	42 keV 9 % IT = ? % p = ? % α = ?
20055 13	A N O	2+	400 keV 32 % IT = ? % n = ? % p = ? % α = ?
20412 17	F G K P Q	(2-,4+)	190 keV 20 % IT = ? % n = ? % p = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
20510 25	K	(4-)	50 keV 30 % IT = 100
20541 2	A	5-	11 keV 2 % p = ? % α = ?
20560 2	A		< 5 keV % p = ? % α = ?
20615 3	A		< 10 keV % α = 100
20800?	A		≈ 60 keV % n = ? % p = ? % α = ?
20857 14	A	7-	900 keV 60 % α = 100
20945 20	F G K	1-	300 keV 10 % IT = ? % n = ? % p = ?
21050 50	L O	(2+)	298 keV 43
21052 6	A	6+	205 keV 15 % α = 100
21175 15
21500	F	(1 TO 4)	120 keV % p = 100
21623 11	A	7-	60 keV 30 % n = ? % p = ? % α = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
21648 3	A	6+	115 keV 8 % n = ? % α = ?
21776 9	A	3-	43 keV 20 % n = ? % p = ? % α = ?
22040	A	0+	60 keV % n = ? % D = ? % α = ?
22150 10	D F G	1-	680 keV 10 % IT = ? % n = ? % p = ? % D = ? % α = ?
22350	D	2+	175 keV % n = ? % D = ? % α = ?
2250E+1 10	D O	3-	400 keV 50 % p = ? % D = ? % α = ?
22650 30	A		60 keV % n = ? % α = ? % 8BE = ?
22721 3	A D	0+	12.5 keV 25 % n = ? % p = ? % D = ? % α = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
22890 10	D F	1-	300 keV 10 % IT = ? % p = ? % D = ?
2300E+1 10	D	6+	≤ 500 keV % D = ? % α = ? % 8BE = ?
23100	A D		≈ 20 keV % n = ? % D = ? % α = ? % 8BE = ?
23235 62	D G L	(1-)	560 keV 150 % n = ? % p = ? % D = ?
23510 30	A D N	(5-)	300 keV % p = ? % D = ? % α = ?
23879 6	A	6+	26 keV 4 % p = ? % α = ? % 8BE = ?
24070 30	B F L	1-	550 keV 40 % IT = ? % p = ? % 3HE = ?
24360 70	G O	(2+,3-)	424 keV 45 % n = ? % p = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
24522 11		2+	< 50 keV
24760 50	F G	(2,4)+	340 keV 60 % IT = ? % n = ? % p = ?
25120 50	B F	1-	3000 keV 300 % IT = ? % p = ? % 3HE = ? % α = ?
2550E+1 15	K L N	1-	1300 keV 300 % IT = ?
25600	A B	(3-)	450 keV % 3HE = ? % α = ?
2600E+1 10	B	1-	750 keV 250 % IT = ? % 3HE = ? % α = ?
26363 62	A F G	(2,4)+	550 keV 70 % IT = ? % n = ? % p = ? % α = ?
2735E+1 10	B F	(2,4)+	830 keV 110 % IT = ? % p = ? % 3HE = ? % α = ? % 8BE = ?
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
27500	B	(3-)	≈ 2500 keV % IT = ? % 3HE = 100
28200	A	7-	1000 keV % α = 100
2860E+1 20	B		% IT = ? % 3HE = 100
29000	A	7-	1000 keV % p = ? % α = ?
2980E+1 10	B	9- & 8+	750 keV 250 % 3HE = ? % α = ?
3180E+1 60			% IT = ? % α = ?
34000	A	10+,(9-)	2300 keV % α = 100
35000	A		% α = 100

E(level)	J^π(level)	T_1/2(level)	Comments
11260	(0+)	2500 keV % α = 100	T=(0) α decay mode is tentative.
12530	2-	0.111 keV 10 % IT = 3.2 3 % p = 14 7 % α = 83 3	T=0, Γ_γ=3.5 2 Γ,%IT,%p,%α: from 1986Zi08. 1993Ti07 adopt Γ=0.097 keV 10.
12968.6	2-	1.34 keV 4 % IT = 0.28 3 % p = 78 4 % α = 22 4	T=1, Γ_γ=3.7 3 %IT,%p,%α: from 1986Zi08. E(level): %IT,%p,%α: from 1986Zi08.
14302	4(-)	34 keV 12	E(level): Decay mode not specified.
14399	5+	27 keV 5	E(level): Decay mode not specified.
15785	3+	40 keV 10	E(level): Decay mode not specified.
17877	(2)-	24 keV 3 % IT = ? % p = ? % α = ?	T=(1) The α decay mode is tentative.
18089	(0+)	288 keV 44 % IT = ? % n = ? % p = ? % α = ?	The IT decay mode is tentative.
18640	(5+)	22 keV 7 % n = ? % p = ?	The neutron and proton decay modes are tentative.
19080	2+	≈ 120 keV % IT = ? % n = ? % p = ? % α = ?	T=(1) The neutron decay mode is tentative.
19206	3-	68 keV 10	T=1 E(level): Decay mode not specified.
19808	4-	32 keV 4	T=0 E(level): Decay mode not specified.
20560		< 5 keV % p = ? % α = ?	J^π(level): π=even.
20615		< 10 keV % α = 100	J^π(level): π=even.
21050	(2+)	298 keV 43	T=(0) E(level): Decay mode not specified.
21175			E(level): Decay mode not specified.
2300E+1	6+	≤ 500 keV % D = ? % α = ? % 8BE = ?	The deuteron decay mode is tentative.
23100		≈ 20 keV % n = ? % D = ? % α = ? % 8BE = ?	The neutron decay mode is tentative.
24522	2+	< 50 keV	T=2 E(level): Decay mode not specified.

E(level)	E(gamma)	Comments
12530	3657.7	E(γ): Decay mode not specified I(γ): From 1986Zi08
	5412.1	E(γ): Decay mode not specified I(γ): From 1986Zi08
	5611.8	E(γ): Decay mode not specified I(γ): From 1986Zi08
	6398.7	E(γ): Decay mode not specified I(γ): From 1986Zi08
	12524.7	E(γ): Decay mode not specified I(γ): From 1986Zi08
12968.6	4096.1	E(γ): Decay mode not specified I(γ): From 1986Zi08
	5850.7	E(γ): Decay mode not specified I(γ): From 1986Zi08
	6837.1	E(γ): Decay mode not specified I(γ): From 1986Zi08
	12963.0	E(γ): Decay mode not specified I(γ): From 1986Zi08