List of levels for 34S

Authors: Ninel Nica, Balraj Singh | Citation: Nucl. Data Sheets 113, 1563 (2012) | Cutoff date: 28-May-2012

XREF table: levels populated in reactions labelled with XREF=Y: ²⁸Si(³⁴S,³⁴S’), ³⁴S(p,p’γ), ²⁰⁶Pb(³⁴S,³⁴S’γ): 0, 2128

The following abbreviations are used in the table: ³³S(n,γ) for ³³S(n,γ) E=thermal; ³³S(n,γ),(n,n) for ³³S(n,γ),(n,n):resonances; ³⁰Si(α,γ),(α,n) for ³⁰Si(α,γ),(α,n):resonances

Evidence of rotational behavior in alpha-clusters is shown in 2011No06: ⁴He(²⁸Si,X) E=150 MeV, by measuring Eα, Iα, σ(θ) and resonance energies

³⁴S stable isotope identified in mass spectrographic studies by F.W. Aston, Nature 117 (1926) 893.

Levels: Table: the Γ_γ values are from ³⁰Si(α,γ),(α,n), and the Γ_γ0 values are from ³⁴S(γ,γ’),(pol γ,γ’), unless noted otherwise

Q-value: Note: Current evaluation has used the following Q record -5491.634 4311417.12 310883.3 11-7923.62 6 2011AuZZ

Q-value: S(2n)=20058.76 3, S(2p)=20431.9 3 (2011AuZZ)

Q-value: Values in 2003Au03: Q(β^-)=-5492.01 15, S(n)=11417.11 9, S(p)=10883.3 11, Q(α)=-7923.78 11, S(2n)=20058.73 9, S(2p)=20428.82 12

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
2127.564	2+	318 fs 8	2127.499 20	E2		B(E2)(W.u.)=6.24 16
3304.212	2+	136 fs 7	1176.650 20	M1+E2	-0.16 2	B(E2)(W.u.)=3.8 10, B(M1)(W.u.)=0.052 3
3304.212	2+	136 fs 7	3304.031 20	E2		B(E2)(W.u.)=0.75 4
3916.408	0+	1.12 ps 9	1788.794 20	E2		B(E2)(W.u.)=4.2 7
4074.667	1+	< 17 fs	1947.060 20	M1+E2	+1.3 +9-32	B(E2)(W.u.)>26, B(M1)(W.u.)>0.0039
4114.813	2+	73 fs 6	1987.19 3	M1+E2	-0.40 5	B(E2)(W.u.)=2.3 6, B(M1)(W.u.)=0.0143 23
4114.813	2+	73 fs 6	4114.52 4	E2		B(E2)(W.u.)=0.57 9
4624.404	3-	84 fs 5	4624.2 5	[E3]		B(E3)(W.u.)=18 5
4688.98	4+	88 fs 4	2561.36 5	E2		B(E2)(W.u.)=8.2 14
4876.839	3+	40 fs 15	1572.57 5	M1+E2	-0.09 4	B(E2)(W.u.)=0.8 8, B(M1)(W.u.)=0.060 24
4876.839	3+	40 fs 15	2749.24 5	M1+E2	-0.11 3	B(E2)(W.u.)=0.09 6, B(M1)(W.u.)=0.014 6
4889.756	2+	29 fs 10	4889.30 8	E2		B(E2)(W.u.)=0.35 13
5322.51	2(-)	17 fs 6	3194.74 5	D+Q	-0.17 6
5380.99	1+	< 49 fs	3253.21 6	M1+E2	-1.1 10	B(E2)(W.u.)>0.22, B(M1)(W.u.)>1.2E-5
5679.927	3-		2375.657 20	D+Q	-0.4 LT
5679.927	3-		3552.08 4	D+Q	-0.47 +7-11
5690.7	5-	36.9 ps 15	1001.6 5	E1		B(E1)(W.u.)=9.4E-6 13
	5-	36.9 ps 15	1066.2 5	E2		B(E2)(W.u.)=0.76 12
	5-	36.9 ps 15	3562.7 6	[E3]		B(E3)(W.u.)=1.0 5
6168.86	3-		1479.73 15	D(+Q)	+0.04 +6-3
	3-		2864.56 4	D+Q	-0.23 7
	3-		4040.63 29	D+Q	-0.43 16
6251.22	4+	0.42 ps +49-21	1374.34 20	M1+E2	-3.7 +7-26	B(E2)(W.u.)=12 +8-12, B(M1)(W.u.)=0.0004 +3-4
6342.50	1-		3038.2 3	D+Q	-0.55 65
6478.770	1-		4350.85 9	D+Q	-1.1 9
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
6731	2(+),4(+)		4604	D+Q,Q	+1.8 3
7112	2+		4985	[D+Q]	+0.27 +19-15
7790.7	6-	97 fs 20	1539.6 5	E2		B(E2)(W.u.)=16 6
7790.7	6-	97 fs 20	2099.6 8	M1+E2	-1.8 1	B(E2)(W.u.)=14 4, B(M1)(W.u.)=0.0049 13
8371.1	7-	83 fs 13	2680.5 6	E2		B(E2)(W.u.)=7.4 16
10586	1-		7281	E1		α(N+)=0.00258 4
10651.6	8+	35 fs 17	2147.2 6	E2		B(E2)(W.u.)=27 15
10767	2+		8638	M1+E2	+0.3
10840.64	3-		8711.9	E1+M2	-0.024 17
10930	1-		8801	E1+M2	+0.154 17
10994	2+		8865	M1+E2	+0.078 32
11014	2+		8885	M1+E2	-0.52 22
11107	3-		8978	E1+M2	+0.062 1
11272	2+		9143	M1+E2	+0.18 15
11371	3-		9242	E1+M2	+0.022 6
11457	3-		9328	E1+M2	+0.037 2
11473	1-		9344	E1+M2	-0.13 7
11502.82	(1-)	0.26 keV 5	9373.9	E1+M2	-0.058 16
11706.47	1-	0.79 keV 16	9577.5	E1+M2	-0.080 80
11956	3-		9827	E1+M2	+0.031 4
12141.3	9(+)	173 fs 35	2228.8 6	E2		B(E2)(W.u.)=7.6 20
13341.6	10(+)	180 fs 28	1966.8 9	E2		B(E2)(W.u.)=7.1 23

Q(β-)=-5491.60 keV 4	S(n)= 11417.16 keV 4	S(p)= 10883.3 keV 11	Q(α)= -7923.65 keV 5
Reference: 2012WA38

References:
A	³⁴P β^- decay (12.43 S)	B	³⁴Cl ε decay (1.5266 S)
C	³⁴Cl ε decay (31.99 M)	D	²⁴Mg(¹⁶O,α2pγ)
E	³⁰Si(α,γ),(α,n):Resonances	F	³¹P(α,p)
G	³¹P(α,pγ)	H	³²S(t,p)
I	³²S(t,pγ)	J	³²S(α,²He)
K	³³S(n,γ) E=THERMAL	L	³³S(n,γ),(n,n):Resonances
M	³³S(d,p)	N	³⁴S(γ,γ’),(pol γ,γ’)
O	³⁴S(E,E’)	P	³⁴S(π⁺,π⁺’),(π^-,π^-’),
Q	³⁴S(n,n),(n,n’)	R	³⁴S(p,p’),(pol p,p’)
S	³⁴S(pol d,d),(pol d,d’)	T	³⁴S(α,α),(α,α’),(α,α’γ)
U	³⁵Cl(γ,p)	V	³⁵Cl(n,d)
W	³⁵Cl(d,³He)	X	³⁵Cl(t,αγ)
Y	²⁸Si(³⁴S,³⁴S’)	Z	³⁴S(p,p’γ)
a	²⁰⁶Pb(³⁴S,³⁴S’γ)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - GS band
0.0	0+	STABLE
2127.564 13	2+	318 fs 8	2127.499 20	100	E2	0.0	0+
4688.98 5	4+	88 fs 4	573.4 11 ? 615.7 12 ? 774.5 12 ? 1384.4 8 ? 2561.36 5 4687.3 7 ?	<3 <4 <7 <2 100 11 <1	E2	4114.813 4074.667 3916.408 3304.212 2127.564 0.0	2+ 1+ 0+ 2+ 2+ 0+
8503.8 7	6+	28 fs 7	2812.7 9 3813.6 7	100 18 51 10	D	5690.7 4688.98	5- 4+
10651.6 8	8+	35 fs 17	2147.2 6 2280.4 10	100 21 100 21	E2 D	8503.8 8371.1	6+ 7-
13960.5 11	(10+)		3308.8 8	100		10651.6	8+
16649.1 14	(10,11,12+)		2688.4 8	100		13960.5	(10+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - γ cascade based on 3-, 4624
4624.404 16	3-	84 fs 5
5690.7 6	5-	36.9 ps 15	1001.6 5 1066.2 5 3562.7 6	100 10 83 10 2.9 12	E1 E2 [E3]	4688.98 4624.404 2127.564	4+ 3- 2+
8371.1 7	7-	83 fs 13	580.3 6 2680.5 6	2 1 100 10	D E2	7790.7 5690.7	6- 5-
13320.2 11	(9-)		2920.1 10 4949.3 18	26 16 100 21		10399.8 8371.1	8(-) 7-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - γ cascade based on 3-, 5680
5679.927 17	3-
6251.68 9	4-		571.7 6 1627.2 10	42 16 100 37	D	5679.927 4624.404	3- 3-
7790.7 7	6-	97 fs 20	1539.6 5 2099.6 8	19 4 100 11	E2 M1+E2	6251.68 5690.7	4- 5-
10399.8 7	8(-)		986.8 9 2028.8 6 2608.6 6	11 6 46 10 100 14	Q	9413.9 8371.1 7790.7	6(-) 7- 6-
15281.0 18	(10)		4880.8 16	100		10399.8	8(-)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	<r²>^1/2=3.2847 fm 21 (2004An14 evaluation and its 2008 update on webpage: http://cdfe.sinp.msu.ru). E(level): GS band.
2127.564	2+	318 fs 8	μ=+1.00 16 (1979Za01,1989Ra17,2011StZZ), Q=+0.04 3 (1980Ba40,1981Sp07,2011StZZ), B(E2)=0.0204 5 β₂(p,p’)=0.28 1 (1985Al03); 0.24 2 (1999Ma63 by reanalysing 1985Al03 data with Becchetti-Greenless optical potential). E(level): GS band.
4624.404	3-	84 fs 5	Adopted B(E3)=0.008 2 (2002Ki06 evaluation). E(level): γ cascade based on 3-, 4624.
4688.98	4+	88 fs 4	E(level): GS band.
5679.927	3-		E(level): γ cascade based on 3-, 5680.
5690.7	5-	36.9 ps 15	E(level): γ cascade based on 3-, 4624.
6251.68	4-		E(level): γ cascade based on 3-, 5680.
7790.7	6-	97 fs 20	E(level): γ cascade based on 3-, 5680.
8371.1	7-	83 fs 13	E(level): γ cascade based on 3-, 4624.
8503.8	6+	28 fs 7	XREF: J(8450). E(level): GS band.
10399.8	8(-)		E(level): γ cascade based on 3-, 5680.
10651.6	8+	35 fs 17	E(level): GS band.
10800	1+		Can be same level as 10803.
10803	(1,2+)		Γ_γ0=0.60 11 Can be same level as 10800.
11417.223	1+,2+		Observed deexcitation intensity is 83% 2, other 17% intensity of the primary γ rays is unaccounted.
11434.23	2-	0.049 keV 10	Γ_γ=0.90 5, Γ_n=39.1 8 All data are from ³³S(n,γ),(n,n).
11440.36	3-	0.0198 keV 10	Γ_γ=1.44 10, Γ_n=16.0 9, Γ_α=2.5 3 All data are from ³³S(n,γ),(n,n).
11485.90	1-		Γ_γ=0.6 EV, Γ_n=65 10, Γ_α=0.11 6 Γ_n and Γα from ³³S(n,γ),(n,n); Γ_γ from ³⁰Si(α,γ),(α,n).
11502.82	(1-)	0.26 keV 5	All data are from ³³S(n,γ),(n,n).
11543.84	1-	0.20 keV 4	Γ_γ=1.0 EV Γ from ³³S(n,γ),(n,n) and Γ_γ from ³⁰Si(α,γ),(α,n).
11614.26	3-	2.1 keV 8	Γ_γ=2.17 20, Γ_n=2.09 8, Γ_α=14 5 All data are from ³³S(n,γ),(n,n).
11633.67	0+	5.3 keV 10	Γ_n=4.4 9, Γ_α=0.9 3 All data are from ³³S(n,γ),(n,n).
11668.93	2-	0.40 keV 8	Γ_γ=2.4 2, Γ_n=0.67 6 All data are from ³³S(n,γ),(n,n).
13320.2	(9-)		E(level): γ cascade based on 3-, 4624.
13960.5	(10+)		E(level): GS band.
E(level)	J^π(level)	T_1/2(level)	Comments
15281.0	(10)		E(level): γ cascade based on 3-, 5680.
16649.1	(10,11,12+)		E(level): GS band.

E(level)	E(gamma)	Comments
2127.564	2127.499	M(γ): from ³¹P(α,pγ), ²⁴Mg(¹⁶O,α2pγ)
3304.212	3304.031	M(γ): Q ΔJ=2 γ (³¹P(α,pγ))
3916.408	1788.794	M(γ): d,Q ΔJ=0,1,2 γ, d,E2 based on RUL (³¹P(α,pγ)); d excluded based on level scheme
3916.408	3916.2	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
4074.667	770.428	M(γ): d γ based on RUL
	1947.060	M(γ): D+Q ΔJ=1 γ, M1⁺E2 based on RUL (³¹P(α,pγ))
	4074.418	M(γ): d ΔJ=1 γ (³¹P(α,pγ))
4114.813	1987.19	M(γ): D+Q ΔJ=0 γ, M1⁺E2 based on RUL (³¹P(α,pγ))
4114.813	4114.52	M(γ): Q ΔJ=2 γ, E2 based on RUL (³¹P(α,pγ))
4624.404	509.6	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
	1320.169	M(γ): from ³¹P(α,pγ) and ²⁴Mg(¹⁶O,α2pγ)
	2496.726	M(γ): from ³¹P(α,pγ) and ²⁴Mg(¹⁶O,α2pγ)
4688.98	573.4	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
	615.7	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
	774.5	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
	1384.4	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
	2561.36	M(γ): Q ΔJ=2 γ, E2 based on RUL (³¹P(α,pγ))
	4687.3	E(γ): from ΔE_levels I(γ): from ³¹P(α,pγ)
4876.839	1572.57	M(γ): D+Q ΔJ=1 γ, M1⁺E2 based on RUL (³¹P(α,pγ))
4876.839	2749.24	M(γ): D+Q ΔJ=1 γ, M1⁺E2 based on RUL (³¹P(α,pγ))
4889.756	4889.30	M(γ): Q ΔJ=2 γ, E2 based on RUL (³¹P(α,pγ))
5228.175	1153.492	M(γ): d ΔJ=1 γ (³¹P(α,pγ))
5322.51	3194.74	M(γ): D+Q ΔJ=0 γ (³¹P(α,pγ))
5380.99	3253.21	M(γ): D+Q ΔJ=1 γ, M1⁺E2 based on RUL (³¹P(α,pγ))
5380.99	5380.59	M(γ): d ΔJ=1 γ (³¹P(α,pγ))
E(level)	E(gamma)	Comments
5679.927	2375.657	M(γ): D+Q γ (³¹P(α,pγ))
5679.927	3552.08	M(γ): D+Q γ (³¹P(α,pγ))
5690.7	1001.6	M(γ): d(+Q) ΔJ=1 γ, E1 from polarization measurement (³¹P(α,pγ))
5690.7	1066.2	M(γ): Q ΔJ=2 γ, E2 from polarization measurement (³¹P(α,pγ))
5847.53	2543.13	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
5998.10	5997.30	M(γ): Q ΔJ=2 γ (³¹P(α,pγ))
6121.49	2817.76	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity M(γ): Q ΔJ=0 γ (³¹P(α,pγ))
6168.86	1479.73	M(γ): d(+Q) ΔJ=1 γ (³¹P(α,pγ))
	1544.41	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	2864.56	M(γ): D+Q ΔJ=1 γ (³¹P(α,pγ))
	4040.63	M(γ): D+Q ΔJ=1 γ (³¹P(α,pγ))
6251.22	1374.34	M(γ): D+Q ΔJ=1 γ, M1⁺E2 based on RUL (³¹P(α,pγ))
6251.68	571.7	M(γ): d, ΔJ=1 γ from ²⁴Mg(¹⁶O,α2pγ) (angular distribution and R(ADO))
6342.50	3038.2	M(γ): D+Q ΔJ=1 γ (³¹P(α,pγ))
6342.50	6341.6	M(γ): d ΔJ=1 γ (³¹P(α,pγ))
6421.42	1544.41	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity M(γ): d ΔJ=1 γ (³¹P(α,pγ))
6421.42	1732.39	M(γ): d ΔJ=0 γ (³¹P(α,pγ))
6478.770	4350.85	M(γ): D+Q ΔJ=1 γ (³¹P(α,pγ))
6639	959.9	M(γ): d ΔJ=1 γ (³¹P(α,pγ) and RUL)
6731	4604	M(γ): D+Q ΔJ=0 γ, or Q ΔJ=2 γ
6828.85	2207	E(γ): from ³¹P(α,pγ)
	2714	E(γ): from ³¹P(α,pγ)
	6830	E(γ): from ³¹P(α,pγ) M(γ): Q ΔJ=2 γ (³¹P(α,pγ))
6864	2241.6	M(γ): Q ΔJ=2 (³¹P(α,pγ))
7110.45	989.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
E(level)	E(gamma)	Comments
7112	7112	M(γ): Q, ΔJ=2 γ (³¹P(α,pγ))
7219.28	5091.3	E(γ): from ³¹P(α,pγ) (ΔE_levels)
7219.28	7218.48	M(γ): Q, ΔJ=2 γ (³¹P(α,pγ))
7248	1560	E(γ): from ³¹P(α,pγ) M(γ): (d) ΔJ=1 γ based on RUL
7467.72	989.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
8138.10	1795.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
8175.1	2945.8	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
8503.8	3813.6	E(γ): from ²⁴Mg(¹⁶O,α2pγ)
8656	8655	E(γ): from ΔE_levels
8702.35	2945.8	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
8805.66	2326.2	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
8970.7	1180	E(γ): from ²⁴Mg(¹⁶O,α2pγ)
8970.7	3280.0	E(γ): from ²⁴Mg(¹⁶O,α2pγ)
9479	9478	E(γ): from ΔE_levels (measured by ³⁴S(γ,γ’),(pol γ,γ’))
9546.09	2326.2	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
9665.74	2817.76	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
9706	9705	E(γ): from ΔE_levels (measured by ³⁴S(γ,γ’),(pol γ,γ’))
9868	9866	E(γ): from ΔE_levels (measured by ³⁴S(γ,γ’),(pol γ,γ’))
9912.8	1178	E(γ): from ²⁴Mg(¹⁶O,α2pγ)
	1541.5	E(γ): from ²⁴Mg(¹⁶O,α2pγ)
	2122.9	E(γ): from ²⁴Mg(¹⁶O,α2pγ)
9933.35	1795.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
9933.35	9932.1	M(γ): From ³⁰Si(α,γ),(α,n)
9981	7852	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
9981	9979	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
E(level)	E(gamma)	Comments
10097	7968	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10097	10095	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10169	8040	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10169	10167	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10248	8119	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10248	10246	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10407	8278	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10407	10405	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10493	8364	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10493	10491	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10586	7281	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10586	8457	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10625	8496	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10625	10623	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10650.11	5268.9	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
10670	7365	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
	8541	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	10668	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10767	8638	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10767	10765	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
10791	7486	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	8662	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	10789	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10930	8801	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
10994	8865	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
E(level)	E(gamma)	Comments
11014	8885	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11087	7782	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	8958	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11085	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11107	8978	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11141	7836	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9012	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11139	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11165	7860	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9036	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11163	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11220	X	I(γ): From ³⁰Si(α,γ),(α,n)
	7915	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9091	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11218	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11233	7928	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9104	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11231	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11272	9143	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11314	8009	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9185	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11312	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11323	8018	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9194	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11321	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
E(level)	E(gamma)	Comments
11357	8052	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9228	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11355	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11371	8066	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9242	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
	11369	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
11380	X	I(γ): From ³⁰Si(α,γ),(α,n)
	8075	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9251	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11378	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11417.223	2543.13	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
11419	8114	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9290	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11417	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11457	9328	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11473	9344	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11485.90	X	I(γ): From ³⁰Si(α,γ),(α,n)
	8180.7	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9357.0	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11483.9	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11502.82	9373.9	M(γ): From ³⁰Si(α,γ),(α,n)
11543.84	X	I(γ): From ³⁰Si(α,γ),(α,n)
	8238.6	I(γ): From ³⁰Si(α,γ),(α,n)
	9414.9	I(γ): From ³⁰Si(α,γ),(α,n)
	11541.8	I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
E(level)	E(gamma)	Comments
11642	X	I(γ): From ³⁰Si(α,γ),(α,n)
	8337	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	9513	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n)
	11640	E(γ): From ³⁰Si(α,γ),(α,n) I(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11706.47	9577.5	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11921	9792	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11931	11929	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
11956	9827	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
12033	12031	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
12099	12097	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)
12193	12191	E(γ): From ³⁰Si(α,γ),(α,n) M(γ): From ³⁰Si(α,γ),(α,n)