List of levels for 32S

ADOPTED LEVELS, GAMMAS for ³²S

Authors: Christian Ouellet, Balraj Singh | Citation: Nucl. Data Sheets 112, 2199 (2011) | Cutoff date: 24-Aug-2011

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-12680.9 keV 6	S(n)= 15044.33 keV 23	S(p)= 8864 keV	Q(α)= -6948 keV
Reference: 2012WA38

References:
A	³²Cl ε decay (298 MS)	B	⁴He(²⁸Si,α):Resonances
C	²⁸Si(α,γ)	D	²⁸Si(α,α):Resonances
E	²⁸Si(⁶Li,pnγ)	F	²⁸Si(⁶Li,d)
G	²⁸Si(⁷Li,t)	H	²⁸Si(¹⁸O,¹⁴C)
I	²⁹Si(α,nγ)	J	³⁰Si(¹⁶O,¹⁴C)
K	³¹P(p,γ)	L	³¹P(p,p’)
M	³¹P(p,α):Resonances	N	³¹P(d,n),²H(³¹P,n)
O	³¹P(³He,d)	P	³²S(γ,γ’),(pol γ,γ’)
Q	³²S(E,E’)	R	³²S(π⁺,π⁺’),(π^-,π^-’)
S	³²S(n,n’γ),(n,n’)	T	³²S(p,p’),(pol p,p’)
U	³²S(p,p’γ)	V	³³S(p,d)
W	³³S(³He,α)	X	³⁴S(p,t)
Y	³²P β^- decay (14.268 d)	Z	³³Ar εp decay (173.0 MS)
a	³⁶K εα decay (342 MS)	b	¹⁶O(²⁰Ne,α)
c	²⁸Si(¹²C,⁸Be)	d	²⁸Si(¹⁶O,¹²C)
e	³²S(d,d’),(pol d,d’)	f	³²S(α,α’)
g	Coulomb Excitation

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Following corrections made by B. Singh (McMaster), Sept 20, 2022: ²⁹Si(α,n) dataset from 1975Ba01 removed as it leads to resonances in ³³S from 9699 to 11175 keV, not in ³²S. ³³S(p,d) dataset from 1974ShZZ (BAPS abstract) added as cited by 1978Ka18 for levels up to 9976. Resulting, mostly minor changes, made in the Adopted Levels (B. Singh, Sept 17, 2022), for example: 1. 7882.9, Jπ=4⁺, not 4-; added a new level at 7885 4, Jπ=0-,1-,2-. 2. new level added at 8281 keV with Jπ=(0:4)+ from ³³S(p,d). 3. Seven levels at 10133, 10182, 10417, 10493, 10678, 10988, 11175 from ²⁹Si(α,n) removed. 4. Widths of the following levels from ²⁹Si(α,n) removed: 9704.8, 9809, 9935, 9997, 10021, 10079, 10310, 10636.4, 10941, 11009.9, 11078. 5. Missing or unknown γ-branchings in 1997Br07 from the 7921, 7975, 8296, 8407 and 8729 levels from the ³¹P(p,γ) dataset added.

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³²S is one of the most extensively studied nuclei in the sd-shell (1998Ka31).

Four lowest states in ³²S appear to be vibrational in character (1971In02), first 2⁺ is one phonon and 0⁺,2⁺,4⁺ make up a spherical vibrational triplet. Quadrupole moment of first 2⁺ state is negative and interestingly indicates a large prolate deformation (1998Ka31).

Additional evaluations for ³²S include 1997Br07 and specific to lifetimes, 1998Ka31. These are in broad agreement with the current evaluation.

E(p)=811 is a common absolute Resonance Strength by which other relative Resonance Strengths are compared to (1978Pa03).

Mass measurements: 2009Sc29, 2009Kw02

Mass deduced by IMME analysis: 2010Ka30

2010Pa18: ¹²C(²⁰Ne,X),E=145,160 MeV; measured Eγ, Iγ, γγ-coin. Deduced highest spin and high energy excitations from the shapes of giant dipole resonances (GDR), strength functions and parameters using rotating liquid drop model (RLDM) and thermal shape fluctuation model (TSFM). Calculated liquid drop model free energy surfaces, and equilibrium shapes as a function of quadrupole deformation parameters and spin. Possible connection to molecular structure of ¹⁶O+¹⁶O in a ³²S superdeformed band.

Structure calculations: Intruder levels, spins and parities, shell model: 2009Bo30

Levels: Levels populated in datasets with XREF=Y

Levels: ³²P β^- decay (14.268 d): 0

Levels: ³³Ar εp decay (173.0 ms): 0, 2231

Levels: ³⁶K εα decay (342 ms): 0

Levels: ¹⁶O(²⁰Ne,α): 11700, 11940, 12760, 13040, 13760, 14000, 14810, 15200

Levels: ²⁸Si(¹²C,⁸Be): 0, 2230, 5010

Levels: ²⁸Si(¹⁶O,¹²C): 0, 2230, 3780, 4280, 4460, 4700, 5010, 5800, 6220, 6850, 7000

Levels: ³²S(d,d’),(pol d,d’): 0, 2230, 4290, 4470, 5010

Levels: ³²S(α,α’): 0, 2230, 3777, 4278, 4458

Levels: Coulomb excitation: 0, 2230

Q-value: Note: Current evaluation has used the following Q record -12680.4 9 15043.8 10 8863.96 1-6947.65 1 2011AuZZ

Q-value: S(2n)=28096 3, S(2p)=16160.51 2 (2011AuZZ)

Q-value: Values in 2003Au03: Q(β^-)=-12686 7, S(n)=15042.4 15 S(p)=8863.78 21, Q(α)=-6947.82 14, S(2n)=28096 3, S(2p)=16160.71 14

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0	A C F G H I J K N O P S T U V W X Y Z a c d e f g	0+	STABLE
2230.57 15	A C F G H I K N O P Q S T U V W X Z c d e f g	2+	169 fs 11	2230.49 15	100	E2	0	0+
3778.4 10	A C E F G I K N O Q S T U V W X d f	0+	0.89 ps 9	1548.8 15 3778	100	[E2] [E0]	2230.57 0	2+ 0+
4281.8 3	A C E H I K N O P Q S T U V W X d e f	2+	42 fs 4	503.7 2052.6 15 4281.5 3	<0.4 14.9 6 100.0 6	E2+M1	3778.4 2230.57 0	0+ 2+ 0+
4459.1 8	C F G H I K N O S T U V W X d e f	4+	124 fs 27	681.4 2229.4 12 4458.4	<0.3 100.0 <1.0	E2	3778.4 2230.57 0	0+ 2+ 0+
4695.3 4	A C I K N O T U V W X d	1+	286 fs 74	414.1 917.8 2466.0 15 4694.0 25	<0.98 <0.65 100.0 17 63.9 17	M1(+E2) [M1]	4281.8 3778.4 2230.57 0	2+ 0+ 2+ 0+
5006.2 3	C F G H I K N O Q S T U V W X c d e	3-	0.52 ps 3	724.8 1228.4 2776.2 12 5005.4	<0.1 <0.4 100.0 5 3.5 5	E1(+M2) E3	4281.8 3778.4 2230.57 0	2+ 0+ 2+ 0+
5412.6 10	C E F I K N O U V W X	3+	148 fs 19	406.2 716.9 953.3 1131.0 1634.6 3181.8 5411.4	<2 <1 <1 <6 <20 100 <5	E2+M1	5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3- 1+ 4+ 2+ 0+ 2+ 0+
5548.5 10	A C I K N O T U V W X	2+	57 fs 8	541.2 851.9 1088.3 1265.9 1769.6 3318.5 5546.4	<0.7 <1.6 <3.3 <1.6 <1.6 100.0 25 66.7 25	E2+M1	5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5796.8 3	C F G H I K N O P Q S T U V W X d	1-	5.6 fs 9	791.3 1102.0 1338.3 1516.0 2019.7 3566.8 5796.3 3	<1 <1 <1.5 <1 <1.5 <5 100.0		5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3- 1+ 4+ 2+ 0+ 2+ 0+
6222.9 8	F I K N O S U W X d	2-	66 fs 12	811.3 1217.5 1528.1 1764.5 1942.2 2445.8 3993.0 20 6222.4	<0.2 3 2 <0.5 <0.6 <1.5 <0.8 100.0 21 <1.5	E1+M2	5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
6411 2	C E I K N O S T U W X	4+	24.3 fs 35	4179	100.0		2230.57	2+
6582 5	O Q T V X	(2+,3-)
6621.7 3	I K N O Q S V W	4-	0.36 ps 6	1209.1 1615.2 1925.9 2162.2 2339.9 2843.5 4390.6 6620.0	<1.2 100.0 14 <0.4 32.9 10 <0.27 <0.82 4.1 5 <0.41	E1 E2+M1 E1(+M2) M2+E3	5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
6666.1 10	A I K N O U V W X	2+	40 fs 10	1253.3 1659.5 1970.2 2206.5 2384.2 2887.9 20 4434.8 6664.3	<2 <8 29 4 <6 <14 100 11 76 9 <6		5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6761.6 10	G H I K N O S T V W X	5-	260 fs 35	1349.1 1755.3 2066.0 2302.3 2480.0 2983.6 4530.6 6760.1	<4 100 4 <11 32 14 <4 <5 <9 2.7 14	[E2] E1+M2	5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
6851.5 15	I K N O V W X d	4+	66 fs 17	1439.9 1846.1 2156.7 2393.1 2570.8 3074.4 4621.4 6850.8	13 7 <16.2 <6 13 7 100 13 <10 <8.7 <10	E2 E2	5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
7001.4 4	A K N O Q T V W X d	1+	1.5 fs 5	1589.0 1995.1 2305.8 2542.1 2719.8 3223.4 4770.5 3 6999.8	<1 <2 <1 <2 <2 10 5 100.0 <2		5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
7115.3 10	A C H K N O V W X	2+	1.73 fs 35	1702.8 2109.0 2419.6 2656.0 2833.6 3337.2 4884.2 7113.6	<0.6 <1 10.5 12 <1 3.5 12 3.5 24 100.0 24 2.3 6	M1+E2	5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7190.1 15	A K N O Q T V W	1+	8.0 fs 21	2183.7 2494.4 2730.7 2908.4 3412.0 4959.0 7188.4	<47 <42 <92 <59 <93 100 21 69 21		5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3- 1+ 4+ 2+ 0+ 2+ 0+
7350.0 6	K N O V W X	3(+)		2654.2	100.0		4695.3	1+
7367	K
7434 3	F G H K N O W	1-	7.7 fs 10	3150 5203 7432	33 17 33 17 100 25		4281.8 2230.57 0	2+ 2+ 0+
7484.0 4	C K N O P V W	2+	4.9 fs 12	2071.4 2477.5 2788.1 3024.5 3202.2 3705.7 5252.8 6 7483.2 5	<10 <9 <6 <14 <13 <15 <7 100.0	E2	5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
7535.7 10	C K N O V W X	0+	2.6 fs 7	2123.1 2529.3 2839.9 3076.3 3253.9 3757.5 5304.5 7533.8	<10 <5 100.0 <6 <8 <11 <14 <7		5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
7566.8 9	I K	5+	150 fs 32	2154 3108.4 12	43 14 100 14	E2+M1	5412.6 4459.1	3+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7637.0 10	K T X	1		3355.2	100		4281.8	2+
7648 5	W
7701.44 36	H K N O Q X	3-	66 fs 19	2288.9 2695.0 3005.6 3242.0 3419.6 3923.2 5470.1 7699.5	<50 <50 <50 <50 <70 <45 100.0 <60		5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
7882.9 8	K	4+		2335.3 2876.4 5651.5	15 7 19 7 100 7		5548.5 5006.2 2230.57	2+ 3- 2+
7885 4	N O	0-,1-,2-
7921.0 10	K T X	1+		X 5689.6	11 11 100 11		2230.57	2+
7950.1 4	I K O	4-	146 fs 35	2537.5 2943.6 3254.2 3490.6 3668.2 4171.8 5718.7 7948.0	67 17 100 12 <5 <13 <16 <3 <7 <0.8		5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
7974.9 7	K N O V W X	4-	< 21 fs	X 2968.4 5743.4	62 38 10 100 10		5006.2 2230.57	3- 2+
8125.40 20	K N O P Q T X	1+	0.144 fs 21	2712.7 3118.8 3429.4 3665.8 3843.4 4347.0 5894.32 28 8124.12 24	<5 <2 <5 <5 <4 <12 18 6 100 6		5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8191.1 6	K O	4		2643.4 2778.4 3731.5 3909.1	100 20 80 17 93 20 60 10		5548.5 5412.6 4459.1 4281.8	2+ 3+ 4+ 2+
8270.3 14	I K O X	3-,5-	< 60 fs	3264	100	M1+E2	5006.2	3-
8281	O V	(0:4)+
8296.1 10	K N O	3-		X 4014.1 6064.5	35 50 17 100 17		4281.8 2230.57	2+ 2+
8343 3	X	2+
8346.4 14	I K O V	4+	< 28 fs	3886.1 15	100	M1+E2	4459.1	4+
8380 5	O V
8407.0 14	K O V	2		X 3711.0 4125.0 4628.1	59 20 4 18 4 100 10		4695.3 4281.8 3778.4	1+ 2+ 0+
8499.3 5	B C F G K N O P V X f	1-	1.30 fs 24	4212 4716 6267.9 5 8494.4 8	<13 <5 66 6 100 6		4281.8 3778.4 2230.57 0	2+ 0+ 2+ 0+
8671.7	S
8684.0	S
8687.6	A C K N O S V			4909 6459 8687	21 7 100 9 57 7		3778.4 2230.57 0	0+ 2+ 0+
8729.3 6	K O V X	3+		X 1876.7 2107.6 3316.5	311 56 12 89 17 100 17		6851.5 6621.7 5412.6	4+ 4- 3+
8736.7	S
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8741.8	S
8745.6 8	K	3		1893.0 2123.9 2335.4 3197.8 3332.8	30 13 85 13 100 13 20 10 18 8		6851.5 6621.7 6411 5548.5 5412.6	4+ 4- 4+ 2+ 3+
8751.0	S
8782.9	S
8797.5	S
8809.7	S
8838.7	S
8861 2	A C K O V X	2+		5080 6630 8858	27 8 65 8 100 10		3778.4 2230.57 0	0+ 2+ 0+
8895.3	S
8906.0	S
8921.8	S
8941.9	S
8945.1	S
8953.6	S
8977.5	S
8984.7	S
9007.3	S
9009.2	S
9012.7	S
9023.8 21	C I K N O X	4-	0.27 ps 6	2262 2402 4008 4742 6791	100 9 43 9 31 3 33 3 100 3	M1+E2 M1+E2	6761.6 6621.7 5006.2 4281.8 2230.57	5- 4- 3- 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9031.1	S
9042.0	S
9055.1	S
9059 2	K N O V	1-
9065 2	C K V		< 14 fs	3654 4604 4784	100 5 95 5 40 7		5412.6 4459.1 4281.8	3+ 4+ 2+
9087.9	S
9090.9	S
9139.9	S V
9159.0	S
9170 3	I K O V	3+		4711	100		4459.1	4+
9196 8	K X	2+
9200.8	S
9207.55 71	K M N O P	1+	4.2 fs 14	911.4 1324.6 2017.31 2983.6 3409.7 3659.7 4747.6 4925.5 5428.9 6975.0 5 9206.1 7	<3 <3 8.1 21 26.4 24 18 4 21 4 8.7 18 6.1 18 11.9 18 99 6 100 6	M1	8296.1 7882.9 7190.1 6222.9 5796.8 5548.5 4459.1 4281.8 3778.4 2230.57 0	3- 4+ 1+ 2- 1- 2+ 4+ 2+ 0+ 2+ 0+
9210.6	S
9211.2	S
9235.2 24	A C I K M N O	1-	< 60 fs	4538.8 5456.3 7003.1 9234	36 17 100 3 77 20 2.2 15		4695.3 3778.4 2230.57 0	1+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9253 1	K O	2+		2587.0 3029.0 3705.1 3840.1 4246.3 4556.8 4971.0 7021.0	28 5 19 4 13 4 16 5 44 7 77 8 18 4 100 10		6666.1 6222.9 5548.5 5412.6 5006.2 4695.3 4281.8 2230.57	2+ 2- 2+ 3+ 3- 1+ 2+ 2+
9268.0	S
9271.7	S
9280	T	1
9287.9	S
9289.0 1	K M N O	1+		789 1163.6 1753.2 2173.5 2287.4 2623.0 2667.3 3065.0 3491.1 3741.1 3876.1 4282.2 4592.8 4829.1 5006.8 5510.3 7057.0 9286.1	10 3 <2 14.0 13 39.1 23 2.5 5 <1 <1 6.3 8 2.8 5 <4 <2 <3 39.1 23 <2 <3 <2 46.9 23 100 5	M1(+E2)	8499.3 8125.40 7535.7 7115.3 7001.4 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1- 1+ 0+ 2+ 1+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9297.0	S
9309.2	S
9317.1	S
9344.9	S
9357.6	S
9360.5	S
9388 1	K M N O	2+		1262.6 2626.2 2722.0 2766.2 3164.0 3590.1 3840.1 3975.1 4381.2 4691.8 4928.1 5105.7 5609.2 7156.0 9385.0	2.08 16 <0.6 <0.6 2.1 5 25.4 12 3.0 5 2.7 5 1.44 16 12.5 7 3.2 4 <0.9 3.0 4 <0.8 100 4 4.0 16		8125.40 6761.6 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 5- 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9395.0	S
9397.2	S
9402.1	S
9436.0	S
9450.6	S
9463.4 10	I	5-,7-	< 70 fs	2701	100	M1+E2	6761.6	5-
9466.0 15	A C K M O X	2+	< 49 fs	2347.8 3675 4455 4767.0 5005 5684.5 7233.7 9462.3	13 4 12 4 12 4 50 8 12 4 11 3 62 8 100 8		7115.3 5796.8 5006.2 4695.3 4459.1 3778.4 2230.57 0	2+ 1- 3- 1+ 4+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9481.5	S
9485.7 10	C K M N O S	1-	8.2 eV 25	1360 2370.2 2860 3261.6 3687.7 3937.8 4072.7 4478.8 4789.4 5025.8 5203.4 5706.9 7253.6 9482.7	3.5 <9.7 8.2 <2.8 4.2 10 <2.3 <1.6 3.6 9 <3.5 <0.9 9.4 12 <2.1 <2.7 100 9		8125.40 7115.3 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9500	F S
9515.9	S
9524.3	S
9534.0	S
9534.9	S
9560.6	S
9562 10	O	1-,2-
9597.1	S
9619.4	S
9634.6 18	I	4-,6+	0.09 ps 6	3015.3	100	M1+E2	6621.7	4-
9650 30	R	6-
9650.2 5	A K M N O V X	2+		2220 3426.1 3852.2 4102.2 4237.2 4643.3 4953.9 5190.2 5367.8 5871.3 7418.1	1.7 <1 <1.4 <0.9 2.9 7 <1 69 6 <2 <0.7 <0.7 100 9		7434 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57	1- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9655.2	S V
9656.7	S V
9660.1 11	K M P Q S T V	1+	2.4 eV 7	2174.9 2468.7 3434.9 3861.0 4111.0 4246.0 4652.1 4962.7 5199.0 5376.6 5880.1 7426.8 9655.9	0.37 13 2.6 12 <0.4 <0.9 2.7 4 <0.2 <0.4 2.8 13 <0.5 <0.2 2.2 4 12.3 13 100 10		7484.0 7190.1 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 1+ 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9665.4	S
9671.7	S
9674.6	S
9693.4	S
9704 8	S X
9711.9 14	A C K	2+	3.6 eV	1586.5 2596.4 2710.2 3487.8 3913.9 4163.9 4298.9 4705.0 5015.6 5251.9 5429.5 5933.0 7479.7 9708.7	6.7 17 7.2 12 7.2 12 <4 8.4 21 <4 <3 4.88 24 60 5 2.8 12 6.5 19 14.9 5 100 17 15.3 17		8125.40 7115.3 7001.4 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 2+ 1+ 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9724 1	K O	2,3,4		1773.8 2022.9 2188.1 2608.5 2962.1 3102.2 3499.9 3926.0 4176.0 4311.0 4717.1 5027.7 5264.0 5441.6 5945.1 7491.8 9720.8	<2 2.4 13 <1 <1 12.4 5 100 8 32 4 <1 <2 <2 95 8 <2 <2 <2 <3 2.0 5 <1		7950.1 7701.44 7535.7 7115.3 6761.6 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	4- 3- 0+ 2+ 5- 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9727.9 5	K
9731 1	K N O	1-,2-		1605.6 1780.8 2029.9 2615.5 3109.2 3506.9 3933.0 4183.0 4318.0 4724.1 5034.6 5271.0 5448.6 5952.1 7498.8 9727.8	19 3 5.5 14 <3 9 <1 91 9 91 9 4.5 23 <6 14 7 24 4 <2 100 9 <4 86 9 18.2 23		8125.40 7950.1 7701.44 7115.3 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 4- 3- 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9783 20	I V	6	0.14 fs +13-11	5324	100		4459.1	4+
9810	R
9816.8 10	K N O X	3-,4-		2701.3 3195.0 3592.7 4018.8 4268.8 4403.7 4809.8 5120.4 5356.7 5534.4 6037.9 7584.6 9813.6	17.2 12 <1.2 11.2 14 5.4 6 <1.4 <3 100 6 <1.8 3.4 8 20 4 <1.6 40 4 1.4 4		7115.3 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9827 3	K
9848 1	C K M N O	1-	0.100 keV 10	2732.4 3181.9 3226.2 3623.9 4049.9 4300.0 4434.9 4841.0 5151.6 5387.9 5565.6 6069.1 7615.8 9844.7	53 4 <2.7 <1 <4.3 11.18 20 <1.8 <3.3 <2 4.7 10 <2.5 3.5 12 <1 100 8 19.6 20		7115.3 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9883.3 5	K V
9887.3 6	A K N O V	2+,3+	0.010 keV 5	2771.7 2885.6 3221.2 3663.1 4089.2 4339.3 4474.2 4880.3 5190.9 5427.2 5604.8 6108.3 7655.0 9884.0	100 14 53 7 8.0 9 <1.1 <0.7 24.4 23 <2.6 <15.5 11.11 23 0.44 23 8.4 12 <1.3 22.2 23 3.8 5		7115.3 7001.4 6666.1 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 1+ 2+ 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9919.3 5	K X	2+	0.010 keV 5	2383.4 2435.2 2803.7 3066.6 3253.1 3297.4 3695.1 4121.2 4371.3 4506.2 4912.3 5222.9 5459.2 5636.8 6140.3 7687.0 9916.0	2.0 10 7.1 8 22.0 25 18.05 25 <12.2 <2.7 <5.6 <3.2 85 8 6.59 25 <2.7 <26.8 <3.4 2.9 17 <3.2 100 10 <2.7		7535.7 7484.0 7115.3 6851.5 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	0+ 2+ 2+ 4+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9935 6	C T	1
9946.6 5	A K N O V	1-	0.150 keV 15	1821.2 2831.0 2944.9 3324.7 3722.4 4148.5 4398.6 4533.5 4939.6 5250.2 5486.5 5664.1 6167.6 7714.3 9943.3	10.3 8 2.0 3 0.53 14 <0.7 <0.5 <0.4 <1 <0.4 <0.4 2.0 4 <1.3 2.9 4 3.7 8 10.7 12 100 10		8125.40 7115.3 7001.4 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 2+ 1+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9977.9 5	K N V	4		3356.4 3754.1 4971.3	51 7 53 7 100 9		6621.7 6222.9 5006.2	4- 2- 3-
9978.3 1	K Q V	3		1634.2 2276.9? 2494.2 2628.3 2862.7 2976.2 3125.6 3312.1 3356.4 4180.2 4430.2 4565.2 5281.9 5518.2 5695.8 6199.3 7746.0 9975.0	2.2 6 10.8 11 8.1 13.2 14 3.5 6 19.5 19 <1.6 9.5 9 3.0 9 84 9 17.8 17 <1.1 20.8 22 <2.7 <2.4 100 9 0.8		8343 7701.44 7484.0 7350.0 7115.3 7001.4 6851.5 6666.1 6621.7 5796.8 5548.5 5412.6 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 3- 2+ 3(+) 2+ 1+ 4+ 2+ 4- 1- 2+ 3+ 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9982.7 6	A K	2,0+	0.100 keV 10	2867.1 2981.0 3130.0 3360.8 3758.5 4184.6 4434.6 4569.6 4975.7 5286.3 5522.6 5700.2 6203.7 7750.4 9979.4	1.3 5 2.9 8 1.3 4 1.9 7 <1.8 <1.4 15.2 15 <1.6 <1.6 34 4 <1.4 2.6 8 <0.9 100 10 1.13 17		7115.3 7001.4 6851.5 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 1+ 4+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
9988 10	M O	3-,4-	≈ 4 keV
9997 6	C
10021 10	O	3-,4-
10073.4 6	K M N O	2-	1.50 keV 15	1574.0 1777.2 1948.0 2372.2 2957.8 3407.2 3451.5 3849.2 4275.3 4525.3 4660.3 5066.3 5376.9 5613.2 5790.9 6294.4 7841.0 10070.0	0.41 21 0.8 4 0.61 21 0.61 21 1.4 7 <1.4 <1.4 100 4 <3.0 <1.4 8.8 7 28.2 15 1.43 21 <1 3.06 21 <0.8 60 3 3.47 21	M2	8499.3 8296.1 8125.40 7701.44 7115.3 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1- 3- 1+ 3- 2+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10079 2	L	(1)	1.7 keV 4
10090 10	Q	2-
10102.3 10	K O	4(+)		4689.3 5095.4 5642.2 5820.1 7870.0	16.5 15 49.8 15 46.7 15 22.9 12 100.0 22		5412.6 5006.2 4459.1 4281.8 2230.57	3+ 3- 4+ 2+ 2+
10113 6	C
10218.8 6	C K N	3+	0.010 keV 5	2734.6 3028.4 3103.2 3552.6 3596.9 3994.6 4420.6 4670.7 4805.6 5211.7 5522.3 5758.6 5936.2 6439.7 7986.4 10215.3	2.7 5 1.22 25 100 8 1.7 5 <1.5 <1.7 <1.5 16.6 17 7.1 8 12.0 17 46 5 12.9 13 16.6 15 <1.7 29.3 25 3.9 5		7484.0 7190.1 7115.3 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 1+ 2+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10221.2 6	K L M O	3-	0.056 keV 10	2737.0 3105.6 3555.0 3599.3 3997.0 4423.0 4673.1 4808.0 5214.1 5524.7 5761.0 5938.6 6442.1 7988.8 10217.7	<0.65 3.2 25 1.1 4 <0.96 <0.96 <1.3 <1.6 0.6 4 100 8 <1.6 34 4 <1.6 <0.32 22.6 17 0.5 4	E1+M2 D(+Q) M2+E3 D+Q E1+M2	7484.0 7115.3 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 2+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10225.0 16	K		0.18 keV 2
10230.3 6	A K	1+	0.025 keV 3	2694.4 3039.9 3114.7 3228.5 3377.5 3468.3 3564.1 3608.4 4006.1 4432.1 4682.2 4817.1 5223.2 5533.8 5770.1 5947.7 6451.2 7997.9 10226.8	11.5 15 1.9 5 6.8 22 100 7 <2 <2.3 <2 <1.9 8.9 20 <2 5.3 11 6.8 7 <3 9.1 13 <2.1 23.4 22 6.0 13 19.1 20 16.2 17		7535.7 7190.1 7115.3 7001.4 6851.5 6761.6 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	0+ 1+ 2+ 1+ 4+ 5- 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10256.1 7	K L M N O	4-	0.035 keV 4	2305.8 2554.9 2906.1 3406.1 3494.1 3634.2 3845.6 4708.0 4842.9 5249.0 5559.6 5795.9 5973.5 6477.0 8023.6 10252.6	7.4 8 <0.4 3.4 8 100 7 0.7 3 <0.4 <0.3 6.2 7 <0.13 12.8 10 <0.3 <0.1 1.18 14 <0.4	M1+E2 M1+E2 E1+M2	7950.1 7701.44 7350.0 6851.5 6761.6 6621.7 6411 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	4- 3- 3(+) 4+ 5- 4- 4+ 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10276 8	N X	4+
10286.3 7	C K M N O	3-	0.16 keV 2	5279.2 5826.1 8053.8 10282.8	100.0 20.2 14.8 9.6		5006.2 4459.1 2230.57 0	3- 4+ 2+ 0+
10290.2 6	A K	2	0.125 keV 13	2164.7 2806.0 3288.4 3624.0 3668.2 4065.9 4492.0 4742.0 4877.0 5283.1 5593.7 5830.0 6007.6 6511.1 8057.7 10286.6	10 3 <6.6 4.3 5 3 <4 83 6 6.9 23 <4.9 6.3 23 69 3 <2.9 <8.6 8.0 12 <4.3 100 12 11.4 12		8125.40 7484.0 7001.4 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 2+ 1+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10292.0 15	C K M	3	0.07 keV 1
10310	R
10331.1 15	K M N O	1-	6.1 keV 7	2205.6 3329.3 3569.1 3664.8 3709.1 4106.8 4532.9 4782.9 4917.9 5323.9 5634.5 5870.8 6048.5 6552.0 8098.6 10327.5	7.4 15 <3 <4.2 <3.2 <3.8 <3.7 <5 <16.2 <3.8 <1.9 17.6 15 <1.9 <1.2 <3.4 100 9 22 3		8125.40 7001.4 6761.6 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 1+ 5- 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10337 3	C L		9 keV 2
10369	B D T U W	(0+)	5.8 keV
10370.6 6	K L M O X	2+	0.025 keV 3	2886.4 3020.3? 3180.2 3368.8 3517.8 3704.3 3748.6 4146.3 4572.4 4822.4 4957.4 5363.4 5674.0 5910.3 6088.0 6591.4 8138.1 10367.0	6.5 23 0.75 3.0 23 0.50 18 <1.5 35.0 25 <1.5 5.0 8 <1.5 6.8 8 30.0 25 5.8 5 23.0 18 <0.75 100 8 1.5 5 30.0 25 2.5 5		7484.0 7350.0 7190.1 7001.4 6851.5 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2+ 3(+) 1+ 1+ 4+ 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10396.7 6	K M N O	4-	0.012 keV 2	2271.2 2421.6 2446.4 2695.5 2829.4 3029.3 3394.9 3543.9 3634.7 3774.7 3986.2 4172.4 4598.5 4848.5 4983.5 5389.5 5700.1 5936.4 6114.0 6617.5 8164.2 10393.1	1.0 6 <0.5 4.8 5 <0.3 0.4 8 0.85 14 0.37 9 1.6 6 2.7 21 100 6 0.61 25 <2.4 0.37 8 <0.6 0.12 4 7.8 6 <0.4 1.7 5 2.2 6 0.37 24 1.0 4 <1.1	M1+E2 M1+E2	8125.40 7974.9 7950.1 7701.44 7566.8 7367 7001.4 6851.5 6761.6 6621.7 6411 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 4- 4- 3- 5+ 1+ 4+ 5- 4- 4+ 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10405 3	F L		11 keV 4
10428 10	O	2+,3+,3-,4-
10456 6	A C M Q	1+	2.9 keV
10500	B D T e	(0+)	1.7 keV
10507.9 10	K		0.010 keV 5	3317.4 3392.2 3506.0 3655.1 3745.8 3841.6 3885.9 4283.6 4709.7 4959.7 5094.6 5500.8 5811.3 6047.6 6225.2 6728.7 8275.3 10504.2	7.7 8 100.0 19 <8 <3 <3 3.0 6 <3 <14.8 4.0 4 5.5 11 14.0 6 2.2 4 1.6 4 <2.8 13.6 8 <5 41.7 11 10.7 17		7190.1 7115.3 7001.4 6851.5 6761.6 6666.1 6621.7 6222.9 5796.8 5548.5 5412.6 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 2+ 1+ 4+ 5- 2+ 4- 2- 1- 2+ 3+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10534 4	A C L M O X	3-,4-	1.8 keV
10556.1 10	K L			8323.5 10552.4	100 67		2230.57 0	2+ 0+
10570	B D T X f	(0+)	1.2 keV
10574.4 10	K	5+	0.015 keV 2	2304.2 3224.1 3812.3 3952.4 4163.8 5161.1 6114.0 8341.8 10570.7	3.8 4 6.8 6 6.0 6 4.4 6 2.7 8 52.5 10 100.0 17 80 12.8		8270.3 7350.0 6761.6 6621.7 6411 5412.6 4459.1 2230.57 0	3-,5- 3(+) 5- 4- 4+ 3+ 4+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10603.8 10	K		0.15 keV 2	2478.3 3488.1 4805.5 5055.5 5190.5 5596.6 8371.1 10600.0	7.7 25.6 12.8 100 25.6 20.5 15.4 48.7		8125.40 7115.3 5796.8 5548.5 5412.6 5006.2 2230.57 0	1+ 2+ 1- 2+ 3+ 3- 2+ 0+
10624 6	M O	3-,4-	3.1 keV
10636.4 10	C K			2686.1 2934.7 3874.3 4014.4	22.7 12 5.5 9 13.3 13 100.0 22		7950.1 7701.44 6761.6 6621.7	4- 3- 5- 4-
10658	B D T W e	(1-)	2.3 keV
10696.1 10	K		0.18 keV 2	2994.4 3160.1 4897.8 5147.8 5688.9 5999.4 6235.7 6413.5 6916.8 8463.4 10692.3	0.7 0.7 4.3 2.9 4.3 2.9 1.4 14.3 4.3 7.1 100.0		7701.44 7535.7 5796.8 5548.5 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	3- 0+ 1- 2+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10700.5 10	K M O	1-	21 keV 4	4902.2 6003.8 6921.2 8467.8 10696.7	4.8 3.6 4.8 6.0 100		5796.8 4695.3 3778.4 2230.57 0	1- 1+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10705.3 10	C K L N O	1-,2-	20 keV 3	3003.6 3943.2 4083.2 6244.9	16.7 18 60 3 100 4 16 4		7701.44 6761.6 6621.7 4459.1	3- 5- 4- 4+
10745	B D R T W X	(0+)	8.9 keV
10756.7 10	K N	3(+)	0.05 keV 1	1691.6 2027.3 3054.9 3406.3 3641.0 3903.8 4092.4 4134.6 5208.4 5343.3 6296.3 6474.1 8524.0	1.2 4 1.8 6 3.5 4 6.2 4 2.6 4 5.5 4 3.5 2.3 6 31.7 11 13.4 7 100.0 16 6.2 4 1.9 4		9065 8729.3 7701.44 7350.0 7115.3 6851.5 6666.1 6621.7 5548.5 5412.6 4459.1 4281.8 2230.57	3+ 3- 3(+) 2+ 4+ 2+ 4- 2+ 3+ 4+ 2+ 2+
10778.8 10	A K M O X	2+	0.62 keV 7	1755.7 2803.6 3294.5 3428.4 3776.9 4112.4 4980.5 5230.5 5365.4 6082.1 6496.2 8546.0 10774.9	2.80 24 4.9 5 1.86 24 0.70 24 30.1 7 3.7 5 1.40 24 1.40 24 16.6 5 10.5 5 38.9 7 100.0 21 19.3 5		9023.8 7974.9 7484.0 7350.0 7001.4 6666.1 5796.8 5548.5 5412.6 4695.3 4281.8 2230.57 0	4- 4- 2+ 3(+) 1+ 2+ 1- 2+ 3+ 1+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10783.8 10	K		0.75 keV 8	2862.5 3146.5 3781.9 4117.4 4373.2 5235.5 5777.8 6087.1 6323.4 6501.2 7004.5 8551.0 10779.9	2.51 20 1.35 20 3.09 20 3.68 20 2.901 23.0 6 1 20.1 8 1.934 7.2 4 3.3 4 28.4 8 100.0 12		7921.0 7637.0 7001.4 6666.1 6411 5548.5 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	1+ 1 1+ 2+ 4+ 2+ 3- 1+ 4+ 2+ 0+ 2+ 0+
10784.5 10	K		0.60 keV 6	6087.8	100		4695.3	1+
10791.3 10	A C K L M	1	0.17 keV 2	3260 3600.8 3675.5 3789.4 4993.0 5243.0 5377.9 5784.1 6094.6 6508.7 8558.5 10787.4	<30 4.12 22 8.68 22 9.98 22 1.30 22 3.9 5 9.1 5 20.0 7 7.2 7 15.4 9 100.0 11 37.3 9		7535.7 7190.1 7115.3 7001.4 5796.8 5548.5 5412.6 5006.2 4695.3 4281.8 2230.57 0	0+ 1+ 2+ 1+ 1- 2+ 3+ 3- 1+ 2+ 2+ 0+
10806	C F	2		5395 5795 6105 6525 8574 10802	9 22 4 20 100 63	D+Q	5412.6 5006.2 4695.3 4281.8 2230.57 0	3+ 3- 1+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10816	B D T g	(3-,5-)	4.7 keV
10825.4 10	K L M N O Q X	2-	22 keV 4	3823.5 5027.1? 5277.1 5412.0 5818.2 6542.8 8592.6 10821.5	13.4 10 18.7 17 4 15 4 29 6 79 7 100 9 58 9		7001.4 5796.8 5548.5 5412.6 5006.2 4281.8 2230.57 0	1+ 1- 2+ 3+ 3- 2+ 2+ 0+
10827.0 10	K M		0.32 keV 3	3711.2 4161 4202 5028.7 5281 5413.6 5819.8 6130.2 6544.4 7047.6 8594.2 10823.1	2.7 5.4 4.0 8.1 5.4 8.1 16.2 5.4 59.5 5.4 100 64.9		7115.3 6666.1 6621.7 5796.8 5548.5 5412.6 5006.2 4695.3 4281.8 3778.4 2230.57 0	2+ 2+ 4- 1- 2+ 3+ 3- 1+ 2+ 0+ 2+ 0+
10830 3	M		≈ 4 keV
10832 3	C M	2,(3)	≈ 2.5 keV	5421 5821 8600 10828	<12 18 <12 100		5412.6 5006.2 2230.57 0	3+ 3- 2+ 0+
10841 10	C M	2	≈ 0.4 keV	5430 5830 6560 8609 10837	25 25 75 100 25	D+Q D+Q	5412.6 5006.2 4281.8 2230.57 0	3+ 3- 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10851	C	1		6570 8618 10847	<27 <55 >100		4281.8 2230.57 0	2+ 2+ 0+
10868	B D T g	(2+)	7.7 keV
10880 40	R	6-
10907 10	M Q	1+	2.1 keV
10915 2	K			8685 10911	45 100		2230.57 0	2+ 0+
10933.7 10	K	3		1221.7 3449.4 3583.3 3817.9 4080.7 4523.0 5385.3 5520.3 6473.2 6651.0 8700.9 10929.7	7.4 4 7.7 7 30.4 7 6.1 7 67.0 10 22.8 7 15.1 7 13.5 7 23.4 10 100.0 10 7.7 13 <3		9711.9 7484.0 7350.0 7115.3 6851.5 6411 5548.5 5412.6 4459.1 4281.8 2230.57 0	2+ 2+ 3(+) 2+ 4+ 4+ 2+ 3+ 4+ 2+ 2+ 0+
10941	C	1		8708 10937	39 100		2230.57 0	2+ 0+
10956	B D T	(0+)	2.9 keV
10977 10	L M O	(1-,2-)
10980 40	Q R	6-
10998	C	(4)		4577 5987 6537	9 5 100		6411 5006.2 4459.1	4+ 3- 4+
11009.9 10	K O	4+		2739.6 3059.5 3126.7 3308.1 3525.6 3575.3? 3659.5 3894.1 4247.7 4343.5 4387.8 4599.2 5596.4 6002.6 6549.4 6727.2 8777.0	1.46 21 0.63 21 4.38 21 2.29 21 0.83 21 25 2.50 21 1.04 21 1.04 21 2.92 21 0.63 21 16.46 21 3.13 21 37.9 7 100.0 11 23.5 5 8.96 21		8270.3 7950.1 7882.9 7701.44 7484.0 7434 7350.0 7115.3 6761.6 6666.1 6621.7 6411 5412.6 5006.2 4459.1 4281.8 2230.57	3-,5- 4- 4+ 3- 2+ 1- 3(+) 2+ 5- 2+ 4- 4+ 3+ 3- 4+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11020	N	(1-,2-)
11052	C	(4)		4611 6041 6590	<5 <5 100		6411 5006.2 4459.1	4+ 3- 4+
11064	A	2+
11078	C	2		11074	100		0	0+
11092.3 10	K L M O	3-		2795.9 2900.9 3117.1 3141.9 3390.5 4330.1 4470.1 4867.8 6085.0 6631.7 6809.5 8859.4? 11088.2?	23.1 9 3.0 9 13.2 5 18.4 9 51.7 13 3.0 17 100.0 17 55.1 17 85 3 63 3 10.3 17		8296.1 8191.1 7974.9 7950.1 7701.44 6761.6 6621.7 6222.9 5006.2 4459.1 4281.8 2230.57 0	3- 4 4- 4- 3- 5- 4- 2- 3- 4+ 2+ 2+ 0+
11107	B C D T W	(2+)	67.4 keV	6099 8877	<67 >100		5006.2 2230.57	3- 2+
11114 2	K			4490 1 6109 3 8881 10 11113 86			6621.7 5006.2 2230.57 0	4- 3- 2+ 0+
11123 1	K			2432.8? 4121.0 6426.1 7343.5 8890.0 11118.9	11.4 9.1 3 6.7 3 9.6 3 14.4 5 100.0 8		8687.6 7001.4 4695.3 3778.4 2230.57 0	1+ 1+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11130	B D T W	(0+)	1.8 keV
11131 2	K T	1
11139.8 10	K Q	1+		3603.7 3946.4 4137.8 4915.3 5589.9 6442.9 7360.3 8906.8 11135.6	0.47 12 1.2 0.71 12 0.47 12 <0.6 2.71 24 2.12 24 10.8 7 100.0 9		7535.7 7190.1 7001.4 6222.9 5548.5 4695.3 3778.4 2230.57 0	0+ 1+ 1+ 2- 2+ 1+ 0+ 2+ 0+
11170 50	Q	6-
11198 10	N O	3-,4-
11235.5 10	K M O	3	9 keV	2545.3 3044.1 3533.6 4824.7 5687.0 5822.0 6774.9 6952.7 9002.5	2.95 21 6.53 21 3.16 21 4.2 5 2.7 5 7.2 5 6.5 5 77.5 13 100.0 13		8687.6 8191.1 7701.44 6411 5548.5 5412.6 4459.1 4281.8 2230.57	4 3- 4+ 2+ 3+ 4+ 2+ 2+
11253.9 10	B D K O T U W	(3-)	1.1 keV	2392.7 2524.4 2563.7 2846.6 2957.5 3062.5 3303.4 3552.0 4400.9 4587.4 4843.1 5705.4 5840.4 6246.5 6557.0 6971.1 9020.9	1.37 16 1.22 16 3.65 16 4.11 16 0.61 16 7.31 16 2.74 16 1.22 16 1.83 16 2.89 16 2.44 16 1.67 16 1.83 16 7.2 3 1.67 16 8.5 3 100.0 8		8861 8729.3 8687.6 8407.0 8296.1 8191.1 7950.1 7701.44 6851.5 6666.1 6411 5548.5 5412.6 5006.2 4695.3 4281.8 2230.57	2+ 3+ 2 3- 4 4- 3- 4+ 2+ 4+ 2+ 3+ 3- 1+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11332.8 10	K			1673.7 3207.1 4216.9 4330.7 4922.0 6325.4 6635.8 7049.9 11328.5	30 3 46.9 23 21 3 6 3 26 3 19 3 16 3 57 4 100.0 7		9660.1 8125.40 7115.3 7001.4 6411 5006.2 4695.3 4281.8 0	1+ 1+ 2+ 1+ 4+ 3- 1+ 2+ 0+
11366 10	O
11410	B D T e	(3-)	1.9 keV
11425 10	M	1	≈ 4 keV
11438 10	O
11474.6 10	K O	3		2728.8 2745.0 4621.5 4808.0 4852.3 5063.7 5250.0 5926.0 6061.0 7013.8 7191.7	4.99 14 4.99 14 1.62 14 2.56 14 2.29 14 0.54 14 0.94 14 1.35 14 9.03 14 6.33 14 100.0 6		8745.6 8729.3 6851.5 6666.1 6621.7 6411 6222.9 5548.5 5412.6 4459.1 4281.8	3 3+ 4+ 2+ 4- 4+ 2- 2+ 3+ 4+ 2+
11485.8 10	K O Q	1+		3360.1 6478.3 7706.1	55 10 81 15 100 12		8125.40 5006.2 3778.4	1+ 3- 0+
11554 10	M O	(0,1)	6.1 keV
11589.7 10	K M N O	1-	10.7 keV	3182.4 4473.7 4923.1 5178.8 6582.1 6892.6 7128.9 7306.7 7810.0 9356.5 11585.2	4.5 3 25.8 8 1.1 6 0.8 6 7.6 8 1.8 6 18.2 11 56.6 11 8.4 8 38.2 14 100.0 19		8407.0 7115.3 6666.1 6411 5006.2 4695.3 4459.1 4281.8 3778.4 2230.57 0	2 2+ 2+ 4+ 3- 1+ 4+ 2+ 0+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11602.4 10	K O			4066.1 4411.6 6053.8 6594.8 6905.3	12.0 16 31.8 16 37.8 20 45.1 23 100 4		7535.7 7190.1 5548.5 5006.2 4695.3	0+ 1+ 2+ 3- 1+
11620 7	O Q	1+
11629	B D T f	(1,2+,3-)	5.7 keV
11637.1 10	K			3290.4 3715.6 4152.6 4202.5 4446.3 4634.9 4970.5 5412.4 5838.5 6088.5 6940.0 7857.3 9403.8 11632.6	0.80 12 0.57 12 0.46 12 0.23 12 0.46 12 0.80 12 0.69 12 0.57 12 0.69 12 3.55 12 2.17 12 1.26 12 2.75 23 100.0 6		7921.0 7484.0 7434 7190.1 7001.4 6666.1 6222.9 5796.8 5548.5 4695.3 3778.4 2230.57 0	1+ 2+ 1- 1+ 1+ 2+ 2- 1- 2+ 1+ 0+ 2+ 0+
11648 10	K	1	6.6 keV
11660 10	O
11669.6 10	K	5+		2940.0 3322.9 3478.1 4102.0 4907.2 5258.7 7208.8	0.63 16 6.2 4 15.2 4 21.4 4 0.63 16 100.0 7 14.4 4		8729.3 8191.1 7566.8 6761.6 6411 4459.1	3+ 4 5+ 5- 4+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11690 10	B D O T W g	(3-)	1.2 keV
11696.7 10	K M b	5+		3350.0 3505.2 4129.1 4346.1 5074.3 5285.8 7235.8	6.66 17 10.15 17 14.6 4 1.66 17 1.5 4 100.0 7 31.9 4		8191.1 7566.8 7350.0 6621.7 6411 4459.1	4 5+ 3(+) 4- 4+ 4+
11720 10	O
11750 10	C O	1		7464 11741	100 2		4281.8 0	2+ 0+
11758.8 10	K			3462.3 3808.2 4996.4 5136.4 6751.2	14.0 4 14.2 11 100.0 11 49.5 9 4.4 8		8296.1 7950.1 6761.6 6621.7 5006.2	3- 4- 5- 4- 3-
11783 10	C M O	1	30 keV	11780	100		0	0+
11806 10	C F O	1,2		4682 11798	<5 100		7115.3 0	2+ 0+
11823 10	N O	1-,2-
11848	B D T W X	(3-)	10.4 keV
11861 10	O
11876 10	O
11883 10	M Q T	1	7.6 keV
11900 10	O
11936 10	M O	3-	7.3 keV
11940 20	Q R	6-	86 keV 24
11940.1 10	K	3		3532.7 3989.5 5086.8 5317.7 5715.3 6391.3 6526.3 7479.1 7656.9 9706.6	1.4 3 6.5 3 2.2 3 15.7 6 6.2 3 21.6 9 27.8 6 100.0 12 50.0 6 49.4 9		8407.0 7950.1 6851.5 6621.7 6222.9 5548.5 5412.6 4459.1 4281.8 2230.57	2 4- 4+ 4- 2- 2+ 3+ 4+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11955 10	B D O T	(2+,3-)	3.2 keV
12002 10	M O	2	11.8 keV
12030 10	C Q T U X e g			4520 4900 9788 12016	10 14 14 100		7535.7 7115.3 2230.57 0	0+ 2+ 2+ 0+
12043.9 10	K N O Q X			4093.2 5281.4 5421.4 7036.1 7582.9	3.2 5 19.0 11 2.7 5 100.0 13 2.5 4		7950.1 6761.6 6621.7 5006.2 4459.1	4- 5- 4- 3- 4+
12044.19 28	K N O Q X	2,3,4		7036.33 9811.8	100 1		5006.2 2230.57	3- 2+
12047.96 28	C K N O	0+		2840.32 14 3922.37 15 5046.1 4 9816?	11.2 8 100.0 11 7.5 8 ≤0.30		9207.55 8125.40 7001.4 2230.57	1+ 1+ 1+ 2+
12050	B D T f	(2+,3-)
12124	M	2	6.9 keV
12160 10	B M O T U g	(3+,2+)	22 keV
12196 10	N O Q R	1-
12198	B D T U	(3-)	6.4 keV
12235 10	O	(2+,3+)
12260	B	[3-]
12270	M	0	21 keV
12308 10	O
12340 10	O
12362 10	M O	3,(2)	4.8 keV
12393 10	M N O	3	7.7 keV
12426 10	B M O T U f	3,2	13.9 keV
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12465 10	M O	2	7.8 keV
12491 10	M O	(2,1)	18.6 keV
12510	B	[3-]
12553	M	2	8.4 keV
12560	T	1
12568	M	2	3.0 keV
12600	M	3,2	7.9 keV
12630 30	N R	6-
12650 10	B Q T U W X	1+	< 0.10 MeV
12710	B D T U e g	(5-,3-)	5 keV
12740 40	Q R	6-
12760 20	b	6+	84 keV 24
12770	D	(2+)	10 keV
12830	D	(3-)	1 keV
12860	D	(3-)	38 keV
12910	B D T U	(3-)	8 keV
12930	B D T U e	(3-)	29 keV 5
12980 10	Q R	1+
13040 20	B T W b e	(4+)	< 47 keV
13086	B D T e	(3-)	26 keV 7
13220	B	[3-]	< 0.06 MeV
13230	T	1
13260 50	Q R	6-
13268	B D T U e g	(3-)	49 keV 3
13339	B D M T X e g	(3-)	28.8 keV 13
13410 10	Q	1+,(2-)
13430	N	3-,4-
13490	B D T W e	(3-)	54 keV 5
13540 50	Q R	5-
13588	B D T W X e	(3-)	18 keV 4
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
13655	D	(3-)	74 keV 2
13696	B D T U X e	(4+,3-)	23.6 keV 9
13760 20	b	6+	50 keV 24
13780 10	Q T	1+
13807	B D T X e g	(3-)	47.4 keV 8
13870	B D T e g	(5-,3-)	22.0 keV 11
13896	B D T e	(4+)	22.4 keV 1
13900	T	1
13970 10	Q	1+,(2-)
14000 20	b	(7-)	50 keV 24
14070	B D T e f	(3-)	29.6 keV 7
14131	B D T f	(5-)	15.2 keV 6
14177	B D T X f	(4+)	42.0 keV 11
14234	B D T U f	(3-)	89 keV 2
14290 50	Q R	6-
14429	B D T e f g	(3-)	40 keV 2
14450 10	Q	1+
14542	B D T W f	(4+,5-)	84.5 keV 11
14633	D	(5-)	7.0 keV 9
14730	B	[4+]
14770 10	Q	2-	< 0.08 MeV
14810 20	b	(8+)	91 keV 24
14832	B D T f	(4+)	37.5 keV 5
14878	D	(4+)	25.5 keV 7
14880	T	1
15025	B D T f	(4+)	30.5 keV 11
15040	T	1
15116	B D T W f	(5-)	36 keV 2
15.2E3 1	b	6+	119 keV 24
15230	B D T U W e	(4+,5-)	18 keV 2
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
15344	B D T W e	(5-)	45.9 keV 1
15385	B D T W e	(5-)	24.5 keV 6
15441	B D T W f	(5-)	34.3 keV 3
15527	B D T W e	(5-)	46.8 keV 3
15580	T	1
15600	F
15631	B D T W X	(5-)	29.9 keV 3
15686	B D T U W g	(5-,6+)	35.9 keV 1
15700	T	1
15758	B D T W X g	(6+,5-)	41.0 keV 9
15840	T	1
15847	B D T U W	(4+,5-)	47 keV 2
15894	B D T W	(5-,4+)	28.0 keV 8
15955	B D T W X	(6+)	21.6 keV 5
16052	B D T X	(5-)	54 keV 2
16243	B D T X	(6+)	41.3 keV 8
16250	B	[5-]
16310 70	R	6-
16341	B D T X e	(5-)	86 keV 2
16370	B	[5-]
16430 70	Q	6-
16495	B D T X f	(5-)	64 keV 3
16615	B D T W X	(6+)	60 keV 2
16650 70	R	6-
16691	B D T X	(5-,6+)	23 keV 2
16747	B D T X g	(6+)	45 keV 2
16795	D	(6+)	76 keV 6
16866	B D T X g	(6+)	38.1 keV 6
16920	D	(6+)	35.0 keV 8
16978	B D T X g	(6+)	47 keV 3
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
17080	B D T X g	(6+)	58.0 keV 14
17120 70	R	6-
17180 80	Q	6-
17250	B D T U X g	(5-)	92 keV 14
17393	B D T W e g	(7-)	35 keV 6
17420	B	[7-]
17570	B	[7-]
17656	B D T X g	(7-)	36 keV 2
17688	D	(7-)	26 keV 2
17868	B D T g	(6+,7-)	82 keV 7
17880	B	[7-]
17934	B D T f g	(7-)	48 keV 4
18042	B D T X	(7-)	44 keV 2
18213	B D T U	(7-)	76 keV 7
18400	B	[9-]
18458	B D T f g	(7-)	66 keV 5
18554	B D T W X	(7-)	73.6 keV 14
18660	B D T X	(7-)	74 keV 5
18736	B D T W g	(7-)	75 keV 6
18803	B D T	(8+,7-)	46 keV 3
18810	B	[7-]
18986	B D T	(8+,7-)	34 keV 2
19119	B D T U	(8+,7-)	84 keV 7
19190	B	[7-]
19248	B D T U e	(8+)	54 keV 10
19250	B	[7-]
19442	B D T W	(7-,8+)	72 keV 2
19450	B	[7-]
19551	B D T X	(8+)	75 keV 18
19653	B D T X	(8+)	54 keV 2
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
19747	B D T	(8+,7-)	79 keV 9
20200	B	[8+]
20270	B	[8+]
20275	B D U e	(7-,8+)	44 keV 4
20381	B D T U f	(8+)	72 keV 17
20485	B D U W e	(8+)	84 keV 4
20610	B	[8+]
20680	B	[8+]
20703	B D U W g	(8+)	37 keV 4
20800	B	[8+]
20835	B D U X	(8+)	59 keV 2
20950	B	[8+]
21050	B	[9-]
21212	B D T U	(9-)	69 keV 3
21395	B D T U e f	(9-)	70 keV 5
21457	B D T U f	(9-)	45 keV 4
21532	B D T U W	(9-)	39 keV 10
21720	B	[9-]
21783	B D T U	(8+,9-)	53 keV 2
22000	B	[9-]
22135	B D T U g	(9-)	74 keV 4
22205	B D U f	(9-)	54 keV 9
22308	B D T U e	(9-)	47 keV 14
22355	B D U e	(8+)	24 keV 5
22590	B	[9-]
22710	B	[9-]
22846	B D T U	(9-)	51 keV 5
22964	B D U e	(10+,9-)	58 keV 3
23226	B D T U X e	(9-)	74 keV 16
23296	B D U X e	(9-)	52 keV 7
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
23430	B	[9-]
23493	B D U W e g	(10+)	93 keV 12
23.86E3	D	7-	≈ 0.1 MeV
24.93E3	D	8+	≈ 0.1 MeV
26.90E3	D	11-	≈ 0.2 MeV
27.25E3	D	9-	0.08 MeV
27.44E3	D	8+	0.04 MeV
27.69E3	D	9-	0.15 MeV
27.82E3	D	9-	0.11 MeV
28.04E3	D	10+	0.04 MeV
28.17E3	D	10+	0.07 MeV
28.30E3	D	8+	0.08 MeV
28.48E3	D	10+	0.17 MeV
28.67E3	D	10+	0.22 MeV
28.97E3	D	10+	0.19 MeV
29.25E3	D	9-	0.13 MeV
29.66E3	D	10+	0.16 MeV
29.88E3	D	10+	0.20 MeV
29.91E3	D	10+	0.16 MeV
30.26E3	D	9-	0.17 MeV
30.37E3	D	10+	0.13 MeV
30.61E3	D	11-	0.25 MeV
30.89E3	D	12+	0.14 MeV
31.19E3	D	12+	0.20 MeV
31.71E3	D	9-	0.22 MeV
31.98E3	D	12+	0.22 MeV
32.7E3	D		≈ 0.3 MeV
33.5E3	D		≈ 0.2 MeV

E(level): From least-squares fit to Eγ data for levels populated in γ-ray studies. For others, weighted averages are taken when possible

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
3778.4	0+	0.89 ps 9	1548.8 15	[E2]		B(E2)(W.u.)=11.8 12
4281.8	2+	42 fs 4	2052.6 15	E2+M1	-26 16	B(E2)(W.u.)=7.9 9, B(M1)(W.u.)=1.2E-5 +15-12
4459.1	4+	124 fs 27	2229.4 12	E2		B(E2)(W.u.)=14 3
4695.3	1+	286 fs 74	2466.0 15	M1(+E2)	-0.08 10	B(E2)(W.u.)=(0.014 +35-14), B(M1)(W.u.)=(0.0031 8)
4695.3	1+	286 fs 74	4694.0 25	[M1]		B(M1)(W.u.)=0.00029 8
5006.2	3-	0.52 ps 3	2776.2 12	E1(+M2)	0.00 5	B(E1)(W.u.)=(5.8E-5 4)
5006.2	3-	0.52 ps 3	5005.4	E3		B(E3)(W.u.)=16 3
5412.6	3+	148 fs 19	3181.8	E2+M1	+7.6 19	B(E2)(W.u.)=1.6 3, B(M1)(W.u.)=7.E-5 4
5548.5	2+	57 fs 8	3318.5	E2+M1	-5.2 21	B(E2)(W.u.)=2.3 3, B(M1)(W.u.)=0.00022 18
6222.9	2-	66 fs 12	3993.0 20	E1+M2	-0.07 3	B(E1)(W.u.)=0.00015 3, B(M2)(W.u.)=0.21 19
6621.7	4-	0.36 ps 6	1209.1	E1		B(E1)(W.u.)=5.E-6 5
	4-	0.36 ps 6	1615.2	E2+M1	2.9 8	B(E2)(W.u.)=15 3, B(M1)(W.u.)=0.0011 6
	4-	0.36 ps 6	2162.2	E1(+M2)	-0.06 2	B(E1)(W.u.)=(4.4E-5 8), B(M2)(W.u.)=(0.15 11)
	4-	0.36 ps 6	4390.6	M2+E3	-0.41 8	B(E3)(W.u.)=8 3, B(M2)(W.u.)=0.13 3
6761.6	5-	260 fs 35	1755.3	[E2]		B(E2)(W.u.)=14 3
6761.6	5-	260 fs 35	2302.3	E1+M2	-0.6	B(E1)(W.u.)=3.3E-5 16, B(M2)(W.u.)=10 5
6851.5	4+	66 fs 17	2570.8	E2		B(E2)(W.u.)=8 3
7115.3	2+	1.73 fs 35	4884.2	M1+E2	-0.38 3	B(E2)(W.u.)=2.0 5, B(M1)(W.u.)=0.079 17
7484.0	2+	4.9 fs 12	7483.2 5	E2		B(E2)(W.u.)=0.49 11
7566.8	5+	150 fs 32	3108.4 12	E2+M1	-9.7 15
8270.3	3-,5-	< 60 fs	3264	M1+E2	-1.5 14
8346.4	4+	< 28 fs	3886.1 15	M1+E2	-1.3 4
9023.8	4-	0.27 ps 6	2262	M1+E2	-1.5 10
9023.8	4-	0.27 ps 6	2402	M1+E2	+4.3 10
9207.55	1+	4.2 fs 14	9206.1 7	M1		B(M1)(W.u.)=0.0022 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
9289.0	1+		7057.0	M1(+E2)	0.01 1
9463.4	5-,7-	< 70 fs	2701	M1+E2	-0.82 25
9634.6	4-,6+	0.09 ps 6	3015.3	M1+E2	-1.1 3
10221.2	3-	0.056 keV 10	3105.6	E1+M2	+0.233 17
	3-	0.056 keV 10	5214.1	D(+Q)	-0.06 6
	3-	0.056 keV 10	5524.7	M2+E3	-0.22 7
	3-	0.056 keV 10	5761.0	D+Q	-0.09 2
	3-	0.056 keV 10	7988.8	E1+M2	-0.70 5
10256.1	4-	0.035 keV 4	3634.2	M1+E2	-0.9 3
	4-	0.035 keV 4	5249.0	M1+E2	+0.2 1
	4-	0.035 keV 4	5795.9	E1+M2	-0.9 3
10396.7	4-	0.012 keV 2	3774.7	M1+E2	+0.9 3
10396.7	4-	0.012 keV 2	5389.5	M1+E2	+0.2 1
10806	2		8574	D+Q	-0.19 6
10841	2	≈ 0.4 keV	6560	D+Q	+0.54 15
10841	2	≈ 0.4 keV	8609	D+Q	+0.60 12

E(level)	J^π(level)	T_1/2(level)	Comments
0	0+	STABLE	<r²>^1/2=3.2611 fm 18 (2008 update of 2004An14 evaluation by I. Angeli: available at http://cdfe.sinp.msu.ru.).
6582	(2+,3-)		XREF: V(?).
8499.3	1-	1.30 fs 24	XREF: V(8489).
9235.2	1-	< 60 fs	The γ-rays reported in ²⁹Si(α,nγ) do not match those from ²⁸Si(α,γ) we report here the older values but clearly more investigation is necessary. E(level): The γ-rays reported in ²⁹Si(α,nγ) do not match those from ²⁸Si(α,γ) we report here the older values but clearly more investigation is necessary.
10369	(0+)	5.8 keV	XREF: B(10250).
10500	(0+)	1.7 keV	XREF: B(10380).
10570	(0+)	1.2 keV	XREF: B(10460).
10658	(1-)	2.3 keV	XREF: B(10530).
10745	(0+)	8.9 keV	XREF: B(10650).
10816	(3-,5-)	4.7 keV	XREF: B(10700).
10868	(2+)	7.7 keV	XREF: B(10780).
10956	(0+)	2.9 keV	XREF: B(10880).
11107	(2+)	67.4 keV	XREF: B(10950).
11130	(0+)	1.8 keV	XREF: B(11050).
11253.9	(3-)	1.1 keV	XREF: B(11250).
11410	(3-)	1.9 keV	XREF: B(11380).
11629	(1,2+,3-)	5.7 keV	XREF: B(11410).
11690	(3-)	1.2 keV	XREF: B(11570).
11848	(3-)	10.4 keV	XREF: B(11650).
11955	(2+,3-)	3.2 keV	XREF: B(11800).
12030			XREF: C(12037).
12050	(2+,3-)		XREF: B(11940).
12160	(3+,2+)	22 keV	XREF: B(12170).
12198	(3-)	6.4 keV	XREF: B(12000).
12426	3,2	13.9 keV	XREF: B(12440).
E(level)	J^π(level)	T_1/2(level)	Comments
12650	1+	< 0.10 MeV	XREF: B(12650).
12710	(5-,3-)	5 keV	XREF: B(12730). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
12770	(2+)	10 keV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
12830	(3-)	1 keV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
12860	(3-)	38 keV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
12910	(3-)	8 keV	XREF: B(12880). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
12930	(3-)	29 keV 5	XREF: B(12930). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13040	(4+)	< 47 keV	XREF: B(13050).
13086	(3-)	26 keV 7	XREF: B(13110). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13268	(3-)	49 keV 3	XREF: B(13270). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13339	(3-)	28.8 keV 13	XREF: B(13360)d(13370).
13490	(3-)	54 keV 5	XREF: B(13500). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13588	(3-)	18 keV 4	XREF: B(13560). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13655	(3-)	74 keV 2	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13696	(4+,3-)	23.6 keV 9	XREF: B(13620). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13807	(3-)	47.4 keV 8	XREF: B(13670). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13870	(5-,3-)	22.0 keV 11	XREF: B(13790). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
13896	(4+)	22.4 keV 1	XREF: B(13830). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14070	(3-)	29.6 keV 7	XREF: B(14030). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14131	(5-)	15.2 keV 6	XREF: B(14110). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14177	(4+)	42.0 keV 11	XREF: B(14160). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14234	(3-)	89 keV 2	XREF: B(14220). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14429	(3-)	40 keV 2	XREF: B(14370). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14542	(4+,5-)	84.5 keV 11	XREF: B(14550). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14633	(5-)	7.0 keV 9	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
E(level)	J^π(level)	T_1/2(level)	Comments
14832	(4+)	37.5 keV 5	XREF: B(14810). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
14878	(4+)	25.5 keV 7	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15025	(4+)	30.5 keV 11	XREF: B(14980). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15116	(5-)	36 keV 2	XREF: B(15140). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15230	(4+,5-)	18 keV 2	XREF: B(15230). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15344	(5-)	45.9 keV 1	XREF: B(15330). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15385	(5-)	24.5 keV 6	XREF: B(15380). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15441	(5-)	34.3 keV 3	XREF: B(15440). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15527	(5-)	46.8 keV 3	XREF: B(15530). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15631	(5-)	29.9 keV 3	XREF: B(15610). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15686	(5-,6+)	35.9 keV 1	XREF: B(15720). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15758	(6+,5-)	41.0 keV 9	XREF: B(15760). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15847	(4+,5-)	47 keV 2	XREF: B(15820). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15894	(5-,4+)	28.0 keV 8	XREF: B(15890). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
15955	(6+)	21.6 keV 5	XREF: B(15960). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16052	(5-)	54 keV 2	XREF: B(16060). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16243	(6+)	41.3 keV 8	XREF: B(16160). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16341	(5-)	86 keV 2	XREF: B(16330). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16495	(5-)	64 keV 3	XREF: B(16480). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16615	(6+)	60 keV 2	XREF: B(16650). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16691	(5-,6+)	23 keV 2	XREF: B(16690). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16747	(6+)	45 keV 2	XREF: B(16780). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16795	(6+)	76 keV 6	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16866	(6+)	38.1 keV 6	XREF: B(16870). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
16920	(6+)	35.0 keV 8	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
E(level)	J^π(level)	T_1/2(level)	Comments
16978	(6+)	47 keV 3	XREF: B(16970). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17080	(6+)	58.0 keV 14	XREF: B(17060). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17250	(5-)	92 keV 14	XREF: B(17260). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17393	(7-)	35 keV 6	XREF: B(17350). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17656	(7-)	36 keV 2	XREF: B(17690). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17688	(7-)	26 keV 2	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17868	(6+,7-)	82 keV 7	XREF: B(17800). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
17934	(7-)	48 keV 4	XREF: B(17940). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18042	(7-)	44 keV 2	XREF: B(18060). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18213	(7-)	76 keV 7	XREF: B(18220). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18458	(7-)	66 keV 5	XREF: B(18470). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18554	(7-)	73.6 keV 14	XREF: B(18560). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18660	(7-)	74 keV 5	XREF: B(18660). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18736	(7-)	75 keV 6	XREF: B(18750). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18803	(8+,7-)	46 keV 3	XREF: B(18890). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
18986	(8+,7-)	34 keV 2	XREF: B(18980). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
19119	(8+,7-)	84 keV 7	XREF: B(19120). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
19248	(8+)	54 keV 10	XREF: B(19320). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
19442	(7-,8+)	72 keV 2	XREF: B(19500). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
19551	(8+)	75 keV 18	XREF: B(19610). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
19653	(8+)	54 keV 2	XREF: B(19690). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
19747	(8+,7-)	79 keV 9	XREF: B(19800). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
20275	(7-,8+)	44 keV 4	XREF: B(20320). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
20381	(8+)	72 keV 17	XREF: B(20410). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
20485	(8+)	84 keV 4	XREF: B(20530). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
E(level)	J^π(level)	T_1/2(level)	Comments
20703	(8+)	37 keV 4	XREF: B(20750). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
20835	(8+)	59 keV 2	XREF: B(20860). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
21212	(9-)	69 keV 3	XREF: B(21280). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
21395	(9-)	70 keV 5	XREF: B(21430). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
21457	(9-)	45 keV 4	XREF: B(21490). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
21532	(9-)	39 keV 10	XREF: B(21590). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
21783	(8+,9-)	53 keV 2	XREF: B(21810). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
22135	(9-)	74 keV 4	XREF: B(22170). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
22205	(9-)	54 keV 9	XREF: B(22240). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
22308	(9-)	47 keV 14	XREF: B(22310). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
22355	(8+)	24 keV 5	XREF: B(22390). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
22846	(9-)	51 keV 5	XREF: B(22810). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
22964	(10+,9-)	58 keV 3	XREF: B(23030). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
23226	(9-)	74 keV 16	XREF: B(23160). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
23296	(9-)	52 keV 7	XREF: B(23260). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
23493	(10+)	93 keV 12	XREF: B(23750?). J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
23.86E3	7-	≈ 0.1 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
24.93E3	8+	≈ 0.1 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
26.90E3	11-	≈ 0.2 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
27.25E3	9-	0.08 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
27.44E3	8+	0.04 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
27.69E3	9-	0.15 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
27.82E3	9-	0.11 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
28.04E3	10+	0.04 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
28.17E3	10+	0.07 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
E(level)	J^π(level)	T_1/2(level)	Comments
28.30E3	8+	0.08 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
28.48E3	10+	0.17 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
28.67E3	10+	0.22 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
28.97E3	10+	0.19 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
29.25E3	9-	0.13 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
29.66E3	10+	0.16 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
29.88E3	10+	0.20 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
29.91E3	10+	0.16 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
30.26E3	9-	0.17 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
30.37E3	10+	0.13 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
30.61E3	11-	0.25 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
30.89E3	12+	0.14 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
31.19E3	12+	0.20 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
31.71E3	9-	0.22 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.
31.98E3	12+	0.22 MeV	J^π(level): From L(α,α) for resonances (2003Ka07,2010Lo12); R-matrix analysis in 2010Lo12.

E(level)	E(gamma)	Comments
2230.57	2230.49	E(γ): from ³²S(γ,γ’)
4281.8	4281.5	E(γ): from ³²S(γ,γ’)
5796.8	5796.3	E(γ): from ³²S(γ,γ’)
6851.5	2393.1	M(γ): from ²⁹Si(α,nγ)
7484.0	5252.8	E(γ): from ³²S(γ,γ’)
7484.0	7483.2	E(γ): from ³²S(γ,γ’)
8125.40	5894.32	E(γ): from ³²S(γ,γ’)
8125.40	8124.12	E(γ): from ³²S(γ,γ’)
8499.3	4212	E(γ): From ²⁸Si(α,γ)
	4716	E(γ): From ²⁸Si(α,γ)
	6267.9	E(γ): from ³²S(γ,γ’). From ²⁸Si(α,γ)
	8494.4	E(γ): from ³²S(γ,γ’). From ²⁸Si(α,γ)
8687.6	4909	E(γ): From ²⁸Si(α,γ)
	6459	E(γ): From ²⁸Si(α,γ)
	8687	E(γ): From ²⁸Si(α,γ)
8861	5080	E(γ): From ²⁸Si(α,γ)
	6630	E(γ): From ²⁸Si(α,γ)
	8858	E(γ): From ²⁸Si(α,γ)
9023.8	4008	E(γ): From ²⁸Si(α,γ)
	4742	E(γ): From ²⁸Si(α,γ)
	6791	E(γ): From ²⁸Si(α,γ)
9065	3654	E(γ): From ²⁸Si(α,γ)
	4604	E(γ): From ²⁸Si(α,γ)
	4784	E(γ): From ²⁸Si(α,γ)
9207.55	6975.0	E(γ): from ³²S(γ,γ’)
E(level)	E(gamma)	Comments
9235.2	9234	E(γ): From ²⁸Si(α,γ)
9466.0	3675	E(γ): From ²⁸Si(α,γ)
	4455	E(γ): From ²⁸Si(α,γ)
	5005	E(γ): From ²⁸Si(α,γ)
10791.3	3260	E(γ): From ²⁸Si(α,γ)
10806	5395	E(γ): From ²⁸Si(α,γ)
	5795	E(γ): From ²⁸Si(α,γ)
	6105	E(γ): From ²⁸Si(α,γ)
	6525	E(γ): From ²⁸Si(α,γ)
	8574	E(γ): From ²⁸Si(α,γ)
	10802	E(γ): From ²⁸Si(α,γ)
10832	5421	E(γ): From ²⁸Si(α,γ)
	5821	E(γ): From ²⁸Si(α,γ)
	8600	E(γ): From ²⁸Si(α,γ)
	10828	E(γ): From ²⁸Si(α,γ)
10841	5430	E(γ): From ²⁸Si(α,γ)
	5830	E(γ): From ²⁸Si(α,γ)
	6560	E(γ): From ²⁸Si(α,γ)
10851	6570	E(γ): From ²⁸Si(α,γ)
	8618	E(γ): From ²⁸Si(α,γ)
	10847	E(γ): From ²⁸Si(α,γ)
10941	8708	E(γ): From ²⁸Si(α,γ)
10941	10937	E(γ): From ²⁸Si(α,γ)
10998	4577	E(γ): From ²⁸Si(α,γ)
	5987	E(γ): From ²⁸Si(α,γ)
	6537	E(γ): From ²⁸Si(α,γ)
E(level)	E(gamma)	Comments
11052	4611	E(γ): From ²⁸Si(α,γ)
	6041	E(γ): From ²⁸Si(α,γ)
	6590	E(γ): From ²⁸Si(α,γ)
11078	11074	E(γ): From ²⁸Si(α,γ)
11107	6099	E(γ): From ²⁸Si(α,γ)
11107	8877	E(γ): From ²⁸Si(α,γ)
11750	7464	E(γ): From ²⁸Si(α,γ)
11750	11741	E(γ): From ²⁸Si(α,γ)
11783	11780	E(γ): From ²⁸Si(α,γ)
11806	4682	E(γ): From ²⁸Si(α,γ) I(γ): intensity seen in only one part of the doublet
11806	11798	E(γ): From ²⁸Si(α,γ)
12030	4520	E(γ): From ²⁸Si(α,γ)
	4900	E(γ): From ²⁸Si(α,γ)
	9788	E(γ): From ²⁸Si(α,γ)
	12016	E(γ): From ²⁸Si(α,γ)