List of levels for 92MO

ADOPTED LEVELS, GAMMAS for ⁹²Mo

Author: Coral M. Baglin | Citation: Nucl. Data Sheets 113, 2187 (2012) | Cutoff date: 15-Sep-2012

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-7882 keV 4	S(n)= 12670 keV 7	S(p)= 7458 keV 4	Q(α)= -5604 keV 6
Reference: 2012WA38

References:
A	⁹²Tc ε decay	B	⁶⁴Ni(³²S,2N2PG),
C	⁹⁰Zr(α,2nγ)	D	⁹²Mo(γ,γ’), (pol γ,γ’)
E	⁹²Mo(α,α’γ)	F	⁹²Mo(p,p’γ)
G	⁹²Mo(n,n’), (n,n’γ)	H	⁹²Mo(E,E’)
I	⁹²Mo(p,p’), (pol p,p’)	J	⁹²Mo(d,d’), (pol d,d)
K	⁹²Mo(³He,DP)	L	⁹²Mo(α,α’)
M	⁹⁴Mo(p,t), (pol p,t)	N	⁵⁹Co(³⁷Cl,2P2NG),
O	⁹⁰Zr(³He,n)	P	Coulomb Excitation
Q	⁹⁰Zr(¹²C,¹⁰Be), (¹⁶O,¹⁴C)	R	⁹²Mo(¹⁴C,¹⁴C’), (¹⁴N,¹⁴N’)
S	⁹²Mo(γ,XN), (γ,PN)	T	⁹²Mo(³He,³He’)
U	⁹²Mo(¹⁶O,¹⁶O’)	V	⁹³Ru εp decay
W	⁷⁴Ge(²⁸Si,2α2nγ)	X	⁸²Se(¹⁶O,6nγ)

α new, higher-precision ⁹²Mo mass measurement is available from 2012Ka13.

For theory or systematics see, e.g., 1972Bb08, 1974Gl01, 1977Ha44, 1992Si03, 1992Si14, 1993Ha37, 1999Zh32, 2009Zh11, 2009St05.

Other Reactions:

(HI,xnγ) (1985Ra09): E(¹²C,¹³C)=48 MeV, E(¹⁶O)=56 MeV. Measured 148γ(θ,H,t) in single-crystal Zr; θ=0|’, 90|’. Determined Q=0.34 for 2760, 8⁺ level.

⁶⁴Ni+²⁸Si, E=137 MeV (1990Gu20); ¹⁶O+⁷⁶Se, E=50, 72.2 MeV (1992Ki01): measured high-energy γ spectra and γ(θ) from decay of GDR built on highly-excited high-spin states. Deduced Γ(GDR)=7.6 MeV 1 (1992Ki01), 8.6 MeV 2 (1992Ki01), 12.1 MeV 10 (1990Gu20) for average spins of 9~h, 19.5~h, 33~h, respectively.

Q-value: Note: Current evaluation has used the following Q record -7885 5 12672 11 7459 5 -5605 6 2011AuZZ,2003Au03

Q-value: Q(β^-),S(p),Q(α): from 2011AuZZ; -7870 26, 7462 5, -5607 11, respectively, from 2003Au03.

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A B C D E F G H I J K L M N O P Q R T U W X	0+	STABLE
1509.51 3	A B C D E F G H I J K L M N O P Q R T U W X	2+	0.35 ps 2	1509.50 3	100	E2	0.0	0+
2282.61 5	A B C F G H I J K L M N W X	4+	> 3.4 ps	773.09 3	100	E2	1509.51	2+
2519.53 21	D F G K M O	0+	> 3.4 ps	1010.02 20	100	[E2]	1509.51	2+
2526.96 6	A B C F G H I J K L N X	5-	1.55 ns 4	244.39 9	100	(E1(+M2))	2282.61	4+
2612.41 6	A C F G H I L N W X	6+	1.53 ns 4	85.38 14 329.82 5	13.5 16 100.0 5	(E1) E2	2526.96 2282.61	5- 4+
2634.2 15 ?	D	(1)		2634.2 15 ?	100	(D)	0.0	0+
2760.52 14	A C G H I N W X	8+	190 ns 3	148.14 13	100	E2	2612.41	6+
2838.6 5 ?	D	(1)		2838.6 5 ?	100	(D)	0.0	0+
2849.81 5	E F G H I J K L M R	3-	0.27 ps +10-5	567.3 2 1340.26 4	3.3 5 100 5	[E1] (E1+M2)	2282.61 1509.51	4+ 2+
2922.6 6 ?	D	(1)		2922.6 6 ?	100	(D)	0.0	0+
3006.96 8	C F G I	(4,5)-		157.03 11 480.01 8	1.0 5 100 6	D+Q	2849.81 2526.96	3- 5-
3063.63 7	C F G I	(4-)		213.85 11 536.88 19	7.3 7 100 7	D+Q	2849.81 2526.96	3- 5-
3091.35 6	D E F G H I J L M	2+	27 fs 3	1581.83 7 3091.30 8	21.6 19 100.0 25	(E2+M1) E2	1509.51 0.0	2+ 0+
3368.68 7	C F G H I	(4+)	> 3.4 ps	305.06 3 361.65 11 842.1 2 ? 1085.88 11 1858.5 7	100 5 27.5 21 106 6 23.2 21 4.8 12	D+Q D+Q (M1+E2) (E2)	3063.63 3006.96 2526.96 2282.61 1509.51	(4-) (4,5)- 5- 4+ 2+
3380.4 8	W	(6-)		1097.9	100	M2	2282.61	4+
3384.5 8 ?	D	(1)		3384.4 8 ?	100	(D)	0.0	0+
3542.31 7	D F G H I M	2+	35 fs 16	2032.80 6 3541.96 24	100 4 14.1 15	E2+M1 E2	1509.51 0.0	2+ 0+
3579.81 6	F G H I L	3-	> 0.21 ps	1052.88 8 1297.22 9 2070.21 9	100 5 87 5 ≈33	(E2) (E1)	2526.96 2282.61 1509.51	5- 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3621.06 7	F G I	(LE4)	> 0.21 ps	2111.53 6	100		1509.51	2+
3624.13 17	B C G H I N W X	7-		243.8 1097.10 16	100	(M1) (E2)	3380.4 2526.96	(6-) 5-
3651.8 11 ?	D	(1)		3651.7 11 ?	100	(D)	0.0	0+
3688.77 7	F G	1(-),2,3	> 0.69 ps	838.9 2 2179.24 6	15.8 15 100 4	D(+Q)	2849.81 1509.51	3- 2+
3692 7	I	4+
3753.2 8	C			385 1 689 1			3368.68 3063.63	(4+) (4-)
3757.25 10	C G I			1230.28 8	100		2526.96	5-
3814.58 8	F G I	2,3	> 0.48 ps	234.83 13 750.8? 807.7? 964.59 11 2305.20 12	91 9 36.1 12 94 9 100 6	D(+Q) D(+Q)	3579.81 3063.63 3006.96 2849.81 1509.51	3- (4-) (4,5)- 3- 2+
3841.87 12	F G I M	0+	> 0.21 ps	2332.33 11	100	[E2]	1509.51	2+
3871.5 10	C	(LE4)		2362 1	100		1509.51	2+
3876.62 9	F G H I	4+		1593.76 13 2367.22 10	33 3 100 4	(E2)	2282.61 1509.51	4+ 2+
3926.36 9	D F G H I L M	2+	10.6 fs 12	1643.9 5 2416.86 12 3926.22 13	13.6 13 54.8 24 100 11	D+Q (E2)	2282.61 1509.51 0.0	4+ 2+ 0+
3944.92 13	D F G I	1	6 fs 4	3944.83 13	100	D	0.0	0+
3953.2 4 ?	G I			1340.8 4 ?	100		2612.41	6+
3963.19 16	F G I	4+	> 0.21 ps	594.9? 899.3 5 1113.2 3 2453.77 20	100 8 55 6 49 6		3368.68 3063.63 2849.81 1509.51	(4+) (4-) 3- 2+
3964.3 13 ?	D	(2)		3964.2 13 ?	100	(Q)	0.0	0+
4019.31 11	G H I			1492.33 9	100		2526.96	5-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4115.81 10	G H I	3(-),4		747.7 9 1266.06 13 1589.00 19 1832.99 15	19 5 100 8 23 4 45 5	D+Q D(+Q)	3368.68 2849.81 2526.96 2282.61	(4+) 3- 5- 4+
4140 5	M	4+
4148.08 15	D G I L	1(-)		1864.86 23 ? 2638.53 16 4148.0 4	67 14 80 8 100 14	D (E1)	2282.61 1509.51 0.0	4+ 2+ 0+
4150.36 9	G I L	4(+),5(-)		1300.91 14 1623.15 17 1867.58 12	13 3 30 4 100 6	D+Q D(+Q)	2849.81 2526.96 2282.61	3- 5- 4+
4159.47 15	G H I	5-		1309.7 8 1632.49 14	16 5 100 9	D(+Q)	2849.81 2526.96	3- 5-
4187.20 18	G H I	(6+)		1122.9 9 1574.6 6 1904.61 18	27 11 24 7 100 7	Q	3063.63 2612.41 2282.61	(4-) 6+ 4+
4241.29 16	G	5,6,7		1628.87 14	100	D(+Q)	2612.41	6+
4251.0 3	B C G N W X	9-		626.8 2	100	E2	3624.13	7-
4280.73 14	G I			912.04 12 1998.3 5	100 8 15 5		3368.68 2282.61	(4+) 4+
4300 5	L M	2+
4307.44 10	G	2,3		1215.8 7 1457.57 13 2797.94 13	27 8 ≈96 100 12	D(+Q) D(+Q)	3091.35 2849.81 1509.51	2+ 3- 2+
4315.2 4	G H I L	5-		1703.3 4 1787.3 5	100 8 86 9		2612.41 2526.96	6+ 5-
4328.5 10 ?	C G L			1568 1 ?	100		2760.52	8+
4345.78 19	G H I			1339.1 5 2063.1 2	100 10		3006.96 2282.61	(4,5)- 4+
4429.51 11	G I	3		1579.27 22 2147.08 14 2919.84 23	95 11 100 11 42 9	D(+Q) D+Q	2849.81 2282.61 1509.51	3- 4+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4436.05 13	G	3,4,5		1371.91 24 2153.59 14	47 12 100 10	D+Q	3063.63 2282.61	(4-) 4+
4436.42 16	G			1429.45 14	100		3006.96	(4,5)-
4455.01 15	G	(3,4,5)		1391.31 16 2172.50 23	100 18 75 10		3063.63 2282.61	(4-) 4+
4477.80 18	G	3(-),4(+),5		1951.4 10 2195.15 17	19 8 100 7	D+Q	2526.96 2282.61	5- 4+
4483.36 22	G			1956.37 21	100		2526.96	5-
4486.0 3	B C N W X	11-	8.74 ns 18	234.9 2	100	E2	4251.0	9-
4493.92 17	D G H I M	2+		2984.29 17 4494.7 6	100 10 ≤43	D+Q (E2)	1509.51 0.0	2+ 0+
4509.6 10	E L	4+		3000	100		1509.51	2+
4544.40 17	G			2261.76 16	100		2282.61	4+
4554 7	H I	7-
4573.3 3	G	(LE4)		3063.75 25	100		1509.51	2+
4589.64 23	D G H I L	2(+)		3080.05 24 4589.7 7	92 13 100 19	Q	1509.51 0.0	2+ 0+
4630.65 19	G	(2+,3,4+)		2348.6 11 3121.07 19	13 5 100 16		2282.61 1509.51	4+ 2+
4633.73 10	D G H I	(1-)	3.7 fs 6	3124.7 8 4633.6 1	11 9 100 9	(E1) (E1)	1509.51 0.0	2+ 0+
4652.7 3	G I	(LE4)		1802.8 6 3143.1 3	29 14 100 18		2849.81 1509.51	3- 2+
4663.2 6	D	1		4663.1 6	100	D	0.0	0+
4685.1 3	G H I	(6-)		1677.5 13 2158.1 3	86 21 100 20	D+Q	3006.96 2526.96	(4,5)- 5-
4702.73 24	G	(LE4)		1612.5 11 3193.11 24	31 13 100 14		3091.35 1509.51	2+ 2+
4725.2 3	G H I	4+		1661.4 3 2443.8 10	≤291 100 16		3063.63 2282.61	(4-) 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4734.3 4 ?	G			1365.6 3 ?	100		3368.68	(4+)
4781.51 21	G I	(2,3+,4+)		3271.94 20	100		1509.51	2+
4848.3 10	W	(10+)		2087.8	100	Q	2760.52	8+
4874 7	H I
4893.3 3	G H I	4+		3383.7 3	100		1509.51	2+
4917.9 5	A H	7+		2157.0 6 2305.8 6	100 8 77 7		2760.52 2612.41	8+ 6+
4924 7	I L M	3-
4936.1 6	D	(1)		4936.0 6	100	(D)	0.0	0+
4944.7 10	D	(1)		4944.6 10	100	(D)	0.0	0+
4948.7 3	G	(3,4+)		1940.8 6 2666.1 5 3439.8 5	100 21 41 18 22 6		3006.96 2282.61 1509.51	(4,5)- 4+ 2+
4970.7 5	D G H I L	(1,2+)		3461.1 5	100	(D)	1509.51	2+
4979	H	4
5003.6 4	D G I	(2)+	22 fs 15	3493.78 24 ? 5003.5 4	45 33 100 33	(M1) (E2)	1509.51 0.0	2+ 0+
5007	H I	(1-)
5076.6 3	G I L M	4+		2793.5 18 3567.0 3	17 10 ≈100		2282.61 1509.51	4+ 2+
5088 6	H I L M	4+
5121.7 4	C N W X	(10+)	< 0.7 ps	2361.4 3	100	(E2)	2760.52	8+
5150 5	M	0+
5151.3 4	C	(10-,11-,12-)		665.3 2	100	(M1)	4486.0	11-
5174 7	I
5190 7	I
5271 7	I
5283.0 21	D	(1)		5282.8 21	100	(D)	0.0	0+
5289 7	I	(5-)
5312.6 10	C			2552 1	100		2760.52	8+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5316 6	I L M	3-
5331.7 9	D	(1)		5331.5 9	100	(D)	0.0	0+
5353 7	I
5388 7	I
5432 7	I
5451.6 9	D I	(1)		5451.4 9	100	(D)	0.0	0+
5462.9 5	A	(7,8)+		2702.4 6 2850.3 6	100 16 91 16		2760.52 2612.41	8+ 6+
5467 7	I	(4+)
5517 7 ?	I
5527.4 5	D	(1)		5527.2 5	100	(D)	0.0	0+
5601 7	I M
5611.2 15	W			762.9	100		4848.3	(10+)
5623.8 10	D	(1)		5623.6 10	100	(D)	0.0	0+
5629.9 19	D	1		5629.7 19	100	D	0.0	0+
5631 7	I L M	(2+,3-)
5658 7	I L
5679 7	I L
5703.4 4	D	1		5703.2 4	100	D	0.0	0+
5710 7	I
5745 7	I L
5784 7	I L	(3-,2+)
5789.1 3	D	1		5788.9 3	100	D	0.0	0+
5801.3 7	D	(1)		5801.1 7	100	(D)	0.0	0+
5806 7	I	(0+)
5841.7 11	D	1		5841.5 11	100	D	0.0	0+
5844 7	I M	3-
5861.9 4	C N W X	(12+)	35 ps 3	740.3 2 1374.7	100 14 36 14	E2 E1	5121.7 4486.0	(10+) 11-
5894 7	I L	(3-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5950 7	I M	5-
5981.4 4	D	1		4473.2 11 ? 5981.2 4	100	(D) D	1509.51 0.0	2+ 0+
6100 25	M	(2+,4+)
6125.92 20	D	1(-)		6125.7 2	100	(E1)	0.0	0+
6184.3 25	D	(2)		6184.1 25	100	(Q)	0.0	0+
6191.52 20	D	1-		6191.3 2	100	E1	0.0	0+
6300.2 3	D	1-		6300.0 3	100	E1	0.0	0+
6329.9 11	D	(1)		6329.7 11	100	(D)	0.0	0+
6362.7 6	D	(1)		6362.5 6	100	(D)	0.0	0+
6377.6 3	D	1-		4868.8 10 ? 6377.4 3	100	(D) E1	1509.51 0.0	2+ 0+
6400.0 15	W			1551.6	100		4848.3	(10+)
6524.45 20	D	1-		6524.2 2	100	E1	0.0	0+
6550.3 4	C N W X	(12-)	< 0.7 ps	2064.1 3	100	M1	4486.0	11-
6566.2 6	D	1		6565.9 6	100	D	0.0	0+
6606.4 3	D	1-		6606.1 3	100	E1	0.0	0+
6608.5 11	W			2122.4	100		4486.0	11-
6645.6 5	D	1(-)		6645.3 5	100	(E1)	0.0	0+
6661.5 5	C N W X	(13-)	22 ps 3	111.2 2 800.7	100 9 9 4	(M1+E2) D	6550.3 5861.9	(12-) (12+)
6718.5 9	D	(2-)		6718.2 9	100	(M2)	0.0	0+
6761.4 4	D	1(-)		6761.1 4	100	(E1)	0.0	0+
6787.3 4	D	1-		6787.0 4	100	E1	0.0	0+
6818.1 4	D	1-		6817.8 4	100	E1	0.0	0+
6883.1 4	D	1-		6882.8 4	100	E1	0.0	0+
6995.89 20	D	1-	0.38 fs 5	5487.0 10 ? 6995.6 2	6 9 100 9	(E1) E1	1509.51 0.0	2+ 0+
7031.3 3	D	1-	0.57 fs 12	5519.8 17 ? 7031.0 3	8 11 100 11	(E1) E1	1509.51 0.0	2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7069.6 4	D	1-		7069.3 4	100	E1	0.0	0+
7076.9 12	D	1		7076.6 12	100	D	0.0	0+
7134.1 10	W	(14+)		471.9	100	E1	6661.5	(13-)
7239.7 11	D	1(-)		7239.4 11	100	(E1)	0.0	0+
7271.7 5	D	-		7271.4 5	100		0.0	0+
7279.0 11	D	(2)		7278.7 11	100	(Q)	0.0	0+
7312.4 5	C N W X	(14-)	< 1.4 ps	650.9 2	100	M1	6661.5	(13-)
7384.3 6	D	1		7384.0 6	100	D	0.0	0+
7394.4 4	D	1		7394.1 4	100	D	0.0	0+
7422.5 11	D			7422.2 11	100		0.0	0+
7447.2 16	D			7446.9 16	100		0.0	0+
7469.1 4	D	1(-)	0.7 fs 3	4950.7 14 ? 7468.8 4	52 24 100 24	(E1) (E1)	2519.53 0.0	0+ 0+
7486.6 5	D	1(-)		7486.3 5	100	(E1)	0.0	0+
7518.4 6	D	1-		7518.1 6	100	E1	0.0	0+
7573.6 7	D	1		7573.3 7	100	D	0.0	0+
7604.4 7	D	(1)		7604.1 7	100	(D)	0.0	0+
7619.5 9	D	(1)		7619.2 9	100	(D)	0.0	0+
7681.1 5	D	1-		7680.8 5	100	E1	0.0	0+
7711.3 5	D	1		7711.0 5	100	D	0.0	0+
7731.7 5	D	1-		7731.4 5	100	E1	0.0	0+
7782.3 9	D	1		7781.9 9	100	D	0.0	0+
7784.0 6	D	(2)		7783.6 6	100	(Q)	0.0	0+
7787.6 10	D	(1)		7787.2 10	100	(D)	0.0	0+
7808.1 11	D	1		7807.7 11	100	D	0.0	0+
7831.4 13	D			7831.0 13	100		0.0	0+
7837.7 15	D	(2)		7837.3 15	100	(Q)	0.0	0+
7856.6 5	D	1-		7856.2 5	100	E1	0.0	0+
7877.6 10	D	(1)	0.34 fs 20	4954.2 12 ? 7877.2 10	100 14 43 14	(D) (D)	2922.6 0.0	(1) 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7881.8 5	D	1		7881.4 5	100	D	0.0	0+
7894.3 7	D	1		7893.9 7	100	D	0.0	0+
7919.4 10	D	(1)		7919.0 10	100	(D)	0.0	0+
7931.4 9	D	1		7931.0 9	100	D	0.0	0+
7950.4 4	D I	1(+)	0.70 MeV 5	7950.0 4	100	(M1)	0.0	0+
7963.3 7	D			7962.9 7	100		0.0	0+
8007.0 14	D	1-		8006.6 14	100	E1	0.0	0+
8042.0 12	D	1	0.66 fs 18	6532.2 8 ? 8041.6 12	33 19 100 19	D D	1509.51 0.0	2+ 0+
8063.4 11	D	1(-)		8063.0 11	100	(E1)	0.0	0+
8088.1 10	D	(2)		8087.7 10	100	(Q)	0.0	0+
8096.4 10	D	1		8096.0 10	100	D	0.0	0+
8168.4 5	D	1-		8168.0 5	100	E1	0.0	0+
8211.0 11	D	1	0.42 fs 12	6701.2 15 ? 8210.6 11	37 18 100 18	(D) D	1509.51 0.0	2+ 0+
8220.8 10	D	(1)		8220.4 10	100	(D)	0.0	0+
8221.2 12	N W	(14)		1559.7	100	D	6661.5	(13-)
8229.9 7	D	1-		8229.5 7	100	E1	0.0	0+
8319.5 6	D	1		8319.1 6	100	D	0.0	0+
8355.1 16	D	1		8354.7 16	100	D	0.0	0+
8381.7 8	D	(1)		8381.3 8	100	(D)	0.0	0+
8387.4 6	N W X	(15+)	< 1.4 ps	1075.0 3	100	E1	7312.4	(14-)
8422.2 9	D	(-)		8421.8 9	100		0.0	0+
8486.5 14	D	1		8486.1 14	100	D	0.0	0+
8501.0 17	D	1		8500.6 17	100	D	0.0	0+
8553.0 13	D	1		8552.6 13	100	D	0.0	0+
8594.7 11	W			1933.2	100		6661.5	(13-)
8606.6 8	D	(1)		8606.2 8	100	(D)	0.0	0+
8660.4 3	D	1-		8660.0 3	100	E1	0.0	0+
8695.2 14	D	1		8694.8 14	100	D	0.0	0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8763.4 5	D	1		8763.0 5	100	D	0.0	0+
8774.4 4	D	1-		8774.0 4	100	E1	0.0	0+
8791.5 8	D	(1)		8791.0 8	100	(D)	0.0	0+
8819.8 6	D	1		8819.3 6	100	D	0.0	0+
8834.3 20	D	(1)		8833.8 20	100	(D)	0.0	0+
8902.5 9	D	1		8902.0 9	100	D	0.0	0+
8924.0 7	N W X	(16+)	< 1.4 ps	536.6 3	100	(M1)	8387.4	(15+)
8926.3 15	D	(1)		8925.8 15	100	(D)	0.0	0+
8955.5 6	D	1(-)		8955.0 6	100	(E1)	0.0	0+
9.00E3 10	I	(1+)	1.1 MeV 1
9022.1 8	D			9021.6 8	100		0.0	0+
9096.6 6	D	1-		9096.1 6	100	E1	0.0	0+
9126.5 10	D	1		9126.0 10	100	D	0.0	0+
9187.0 8	D	1		9186.5 8	100	D	0.0	0+
9206.4 8	D	1(-)		9205.9 8	100	(E1)	0.0	0+
9237.4 8	D	1		9236.9 8	100	D	0.0	0+
9280.2 23	D	(2)		9279.7 23	100	(Q)	0.0	0+
9296 3	D	(2)		9295 3	100	(Q)	0.0	0+
9337.6 8	D	1		9337.1 8	100	D	0.0	0+
9359.3 10	W	(15+)		2047.6 2224.5	100 10 53 19	D M1	7312.4 7134.1	(14-) (14+)
9360.9 7	D	1		9360.4 7	100	D	0.0	0+
9418.9 12	D	(-)		9418.4 12	100		0.0	0+
9443.2 8	D	1		9442.7 8	100	D	0.0	0+
9481.0 8	N W X	(17+)	< 1.4 ps	557.0 3	100	M1	8924.0	(16+)
9502.8 8	D	1		9502.3 8	100	D	0.0	0+
9559.3 13	D	(1)		9558.8 13	100	(D)	0.0	0+
9592.3 10	D	(1-)		9591.8 10	100	(E1)	0.0	0+
9646.7 13	D	(1)		9646.2 13	100	(D)	0.0	0+
9691 3	D			9690 3	100		0.0	0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9710.6 11	D	1		9710.0 11	100	D	0.0	0+
9827.0 17	D	1		9826.4 17	100	D	0.0	0+
9843.0 10	D	(1)		9842.4 10	100	(D)	0.0	0+
10020.3 14	W	(16+)		660.7	100	M1	9359.3	(15+)
10102.9 13	N W	(18+)		621.9	100	M1	9481.0	(17+)
10579.2 17	W	(17+)		559.2	100	M1	10020.3	(16+)
11215.5 20	W	(18+)		636.3	100	D	10579.2	(17+)
14.13E+03 20	L T	2+	4.6 MeV 3
16.22E+03 20	L	0+	4.8 MeV 3
16.65E+3 5	S	1-	4.14 MeV

E(level): From least-squares fit to adopted Eγ, except as noted, whenever deexciting gammas have been observed; from cross-referenced reactions otherwise.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - π=+, ΔJ=2 sequence.
0.0	0+	STABLE
1509.51 3	2+	0.35 ps 2	1509.50 3	100	E2	0.0	0+
2282.61 5	4+	> 3.4 ps	773.09 3	100	E2	1509.51	2+
2612.41 6	6+	1.53 ns 4	85.38 14 329.82 5	13.5 16 100.0 5	(E1) E2	2526.96 2282.61	5- 4+
2760.52 14	8+	190 ns 3	148.14 13	100	E2	2612.41	6+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - π=-, ΔJ=2 sequence.
2526.96 6	5-	1.55 ns 4
3624.13 17	7-		243.8 1097.10 16	100	(M1) (E2)	3380.4 2526.96	(6-) 5-
4251.0 3	9-		626.8 2	100	E2	3624.13	7-
4486.0 3	11-	8.74 ns 18	234.9 2	100	E2	4251.0	9-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - sequence based on 12-.
6550.3 4	(12-)	< 0.7 ps
6661.5 5	(13-)	22 ps 3	111.2 2 800.7	100 9 9 4	(M1+E2) D	6550.3 5861.9	(12-) (12+)
7312.4 5	(14-)	< 1.4 ps	650.9 2	100	M1	6661.5	(13-)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1509.51	2+	0.35 ps 2	1509.50 3	E2			B(E2)(W.u.)=8.4 5
2282.61	4+	> 3.4 ps	773.09 3	E2			B(E2)(W.u.)<24
2519.53	0+	> 3.4 ps	1010.02 20	[E2]			B(E2)(W.u.)<6.4
2526.96	5-	1.55 ns 4	244.39 9	(E1(+M2))	0.05 LT	0.0098	B(E1)(W.u.)=1.45E-5 4, B(M2)(W.u.)<2.9, α=0.0098
2612.41	6+	1.53 ns 4	85.38 14	(E1)		0.200	B(E1)(W.u.)=4.0E-5 5, α=0.200
2612.41	6+	1.53 ns 4	329.82 5	E2		0.01761	B(E2)(W.u.)=3.26 11, α=0.01761
2760.52	8+	190 ns 3	148.14 13	E2		0.291	B(E2)(W.u.)=1.311 22, α=0.291
2849.81	3-	0.27 ps +10-5	567.3 2	[E1]			B(E1)(W.u.)=0.00022 +6-9
2849.81	3-	0.27 ps +10-5	1340.26 4	(E1+M2)	-0.015 10		B(E1)(W.u.)=0.00049 +10-19, B(M2)(W.u.)=0.3 +4-3
3006.96	(4,5)-		480.01 8	D+Q	-0.10 4
3063.63	(4-)		536.88 19	D+Q	+14 3
3091.35	2+	27 fs 3	1581.83 7	(E2+M1)	+0.63 11		B(E2)(W.u.)=4.3 13, B(M1)(W.u.)=0.026 5
3091.35	2+	27 fs 3	3091.30 8	E2			B(E2)(W.u.)=2.5 3
3368.68	(4+)	> 3.4 ps	361.65 11	D+Q	-0.44 15		B(E2)(W.u.)<29, B(M1)(W.u.)<0.013
	(4+)	> 3.4 ps	1085.88 11	(M1+E2)			B(E2)(W.u.)<0.12, B(M1)(W.u.)<0.00052
	(4+)	> 3.4 ps	1858.5 7	(E2)			B(E2)(W.u.)<0.0056
3542.31	2+	35 fs 16	2032.80 6	E2+M1	-1.7 +9-26		B(E2)(W.u.)=12 7, B(M1)(W.u.)=0.017 16
3542.31	2+	35 fs 16	3541.96 24	E2			B(E2)(W.u.)=0.15 7
3579.81	3-	> 0.21 ps	1052.88 8	(E2)			B(E2)(W.u.)<38
3579.81	3-	> 0.21 ps	1297.22 9	(E1)			B(E1)(W.u.)<0.00029
3624.13	7-		243.8	(M1)		0.0229	α=0.0229
3841.87	0+	> 0.21 ps	2332.33 11	[E2]			B(E2)(W.u.)<1.6
3926.36	2+	10.6 fs 12	3926.22 13	(E2)			B(E2)(W.u.)=1.38 24
4115.81	3(-),4		1266.06 13	D+Q	+0.07 4
4115.81	3(-),4		1832.99 15	D(+Q)	+0.4 5
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
4150.36	4(+),5(-)		1623.15 17	D+Q	-0.9 +4-8
4150.36	4(+),5(-)		1867.58 12	D(+Q)	-0.08 12
4159.47	5-		1632.49 14	D(+Q)	+0.3 +4-3
4429.51	3		1579.27 22	D(+Q)	+0.3 +1-4
4486.0	11-	8.74 ns 18	234.9 2	E2		0.0562	B(E2)(W.u.)=3.47 8, α=0.0562
4633.73	(1-)	3.7 fs 6	3124.7 8	(E1)			B(E1)(W.u.)=2.9E-4 25
4633.73	(1-)	3.7 fs 6	4633.6 1	(E1)			B(E1)(W.u.)=0.00081 18
5003.6	(2)+	22 fs 15	3493.78 24	(M1)			B(M1)(W.u.)=0.007 +8-7
5003.6	(2)+	22 fs 15	5003.5 4	(E2)			B(E2)(W.u.)=0.23 19
5121.7	(10+)	< 0.7 ps	2361.4 3	(E2)			B(E2)(W.u.)>0.45
5861.9	(12+)	35 ps 3	740.3 2	E2			B(E2)(W.u.)=2.2 5
5861.9	(12+)	35 ps 3	1374.7	E1			B(E1)(W.u.)=1.0E-6 4
6550.3	(12-)	< 0.7 ps	2064.1 3	M1			B(M1)(W.u.)>0.0036
6661.5	(13-)	22 ps 3	111.2 2	(M1+E2)		0.5	α=0.5 4
6995.89	1-	0.38 fs 5	5487.0 10	(E1)			B(E1)(W.u.)=0.0003 +5-3
6995.89	1-	0.38 fs 5	6995.6 2	E1			B(E1)(W.u.)=0.0024 5
7031.3	1-	0.57 fs 12	5519.8 17	(E1)			B(E1)(W.u.)=0.0003 +4-3
7031.3	1-	0.57 fs 12	7031.0 3	E1			B(E1)(W.u.)=0.0016 5
7312.4	(14-)	< 1.4 ps	650.9 2	M1			B(M1)(W.u.)>0.057
7469.1	1(-)	0.7 fs 3	4950.7 14	(E1)			B(E1)(W.u.)=0.0013 9
7469.1	1(-)	0.7 fs 3	7468.8 4	(E1)			B(E1)(W.u.)=0.0007 4
8387.4	(15+)	< 1.4 ps	1075.0 3	E1			B(E1)(W.u.)>0.00019
8924.0	(16+)	< 1.4 ps	536.6 3	(M1)			B(M1)(W.u.)>0.10

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	<r²>^1/2(charge)=4.3156 fm 11 (2004An14). E(level): <r²>^1/2(charge)=4.3156 fm 11 (2004An14). From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator. π=+, ΔJ=2 sequence.
1509.51	2+	0.35 ps 2	μ=+2.3 3 E(level): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator. π=+, ΔJ=2 sequence.
2282.61	4+	> 3.4 ps	E(level): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator. π=+, ΔJ=2 sequence.
2526.96	5-	1.55 ns 4	E(level): π=-, ΔJ=2 sequence.
2612.41	6+	1.53 ns 4	E(level): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator. π=+, ΔJ=2 sequence.
2634.2	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). From (α,2nγ). Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. J^π(level): From resonance fluorescence.
2760.52	8+	190 ns 3	Q=-0.34, μ=+11.30 5 E(level): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator. π=+, ΔJ=2 sequence.
2838.6	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). From (α,2nγ). Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. J^π(level): From resonance fluorescence.
2849.81	3-	0.27 ps +10-5	B(E3)=0.0760 25 (1987MiZL) For summary of B(E3)\|^ data, see 1989Sp01; recommended value is 0.070 24 based on b₃ from angular distribution in (p,p’). This corresponds to 5.3% 18 of energy-weighted E3 sum rule. E(level): For summary of B(E3)\|^ data, see 1989Sp01; recommended value is 0.070 24 based on b₃ from angular distribution in (p,p’). This corresponds to 5.3% 18 of energy-weighted E3 sum rule.
2922.6	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). From (α,2nγ). Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. J^π(level): From resonance fluorescence.
3091.35	2+	27 fs 3	XREF: J(3120). E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
3384.5	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). From (α,2nγ). Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. J^π(level): From resonance fluorescence.
3624.13	7-		E(level): π=-, ΔJ=2 sequence.
3651.8	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). From (α,2nγ). Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. J^π(level): From resonance fluorescence.
3757.25			XREF: I(3765).
3926.36	2+	10.6 fs 12	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
3944.92	1	6 fs 4	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
3964.3	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
4251.0	9-		E(level): π=-, ΔJ=2 sequence.
4486.0	11-	8.74 ns 18	μ=+13.9 3 E(level): π=-, ΔJ=2 sequence.
4589.64	2(+)		B(E2)=0.052 12 (1987MiZL) XREF: I(4598).
4633.73	(1-)	3.7 fs 6	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
4663.2	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
4936.1	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
4944.7	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
E(level)	J^π(level)	T_1/2(level)	Comments
4970.7	(1,2+)		XREF: I(4964).
5003.6	(2)+	22 fs 15	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5007	(1-)		BE1=0.0005 4 (1987MiZL) XREF: H(5007).
5088	4+		Predominant configuration=((π 1g_9/2)^-1(π 2d_5/2)). E(level): Predominant configuration=((π 1g_9/2)^-1(π 2d_5/2)).
5283.0	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5331.7	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5451.6	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5467	(4+)		L(p,p’)=(4). E(level): L(p,p’)=(4).
5527.4	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5623.8	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5629.9	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5703.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5789.1	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5801.3	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5841.7	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
5981.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6125.92	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6184.3	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6191.52	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6300.2	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6329.9	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6362.7	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6377.6	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6524.45	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6550.3	(12-)	< 0.7 ps	E(level): sequence based on 12-. From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
E(level)	J^π(level)	T_1/2(level)	Comments
6566.2	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6606.4	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6645.6	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6661.5	(13-)	22 ps 3	E(level): sequence based on 12-. From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
6718.5	(2-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6761.4	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6787.3	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6818.1	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6883.1	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
6995.89	1-	0.38 fs 5	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7031.3	1-	0.57 fs 12	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7069.6	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7076.9	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7239.7	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7271.7	-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7279.0	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7312.4	(14-)	< 1.4 ps	E(level): sequence based on 12-. From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
7384.3	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7394.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7469.1	1(-)	0.7 fs 3	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7486.6	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7518.4	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7573.6	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7604.4	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7619.5	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
E(level)	J^π(level)	T_1/2(level)	Comments
7681.1	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7711.3	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7731.7	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7782.3	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7784.0	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7787.6	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7808.1	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7837.7	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7856.6	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7877.6	(1)	0.34 fs 20	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7881.8	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7894.3	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7919.4	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7931.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
7950.4	1(+)	0.70 MeV 5	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8007.0	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8042.0	1	0.66 fs 18	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8063.4	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8088.1	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8096.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8168.4	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8211.0	1	0.42 fs 12	E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8220.8	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8221.2	(14)		E(level): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
8229.9	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
E(level)	J^π(level)	T_1/2(level)	Comments
8319.5	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8355.1	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8381.7	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8387.4	(15+)	< 1.4 ps	E(level): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
8422.2	(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8486.5	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8501.0	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8553.0	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8606.6	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8660.4	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8695.2	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8763.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8774.4	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8791.5	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8819.8	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8834.3	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8902.5	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8924.0	(16+)	< 1.4 ps	E(level): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
8926.3	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
8955.5	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9096.6	1-		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9126.5	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9187.0	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9206.4	1(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9237.4	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
E(level)	J^π(level)	T_1/2(level)	Comments
9280.2	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9296	(2)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9337.6	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9360.9	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9418.9	(-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9443.2	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9481.0	(17+)	< 1.4 ps	E(level): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
9502.8	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9559.3	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9592.3	(1-)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9646.7	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9710.6	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9827.0	1		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
9843.0	(1)		E(level): From ⁷⁴Ge(²⁸Si,2α2nγ). J^π(level): From resonance fluorescence.
10102.9	(18+)		E(level): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set.
14.13E+03	2+	4.6 MeV 3	GQR; E=14550, Γ=5.0 MeV 4 in (³He,³He’). E(level): GQR; E=14550, Γ=5.0 MeV 4 in (³He,³He’).
16.22E+03	0+	4.8 MeV 3	GMR. E(level): GMR.
16.65E+3	1-	4.14 MeV	GDR; Γ from (γ,xn). Not a discrete state. E(level): GDR; Γ from (γ,xn). Not a discrete state.

E(level)	E(gamma)	Comments
1509.51	1509.50	E(γ): other Eγ: 1509.58 13 in (α,2nγ), 1509.47 3 in (p,p’γ), 1509.68 15 in (³²S,2p2nγ). M(γ): from Coulomb excitation; Q from γ(θ) in (α,2nγ).
2282.61	773.09	E(γ): weighted average of 773.09 3 in (n,n’γ), 773.05 12 in (α,2nγ), 773.10 8 in (p,p’γ), 772.97 15 in (³²S,2p2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
2519.53	1010.02	E(γ): unweighted average of 1010.22 7 in (p,p’γ) and 1009.82 3 in (n,n’γ).
2526.96	244.39	E(γ): unweighted average of 244.30 5 in (n,n’γ) and 244.47 7 in (p,p’γ). Others: 244.5 2 in (α,2nγ), 243.6 3 in (³⁷Cl,2p2nγ), 243.7 6 in ε decay. M(γ): d(+Q) from (n,n’γ); Δπ=yes from level scheme.
2612.41	85.38	E(γ): weighted average of 85.25 20 in (n,n’γ), 85.5 2 in (α,2nγ). Others: 84.3 3 in (³⁷Cl,2p2nγ), 85.0 5 in ε decay, 84.6 from (¹⁶O,6nγ). I(γ): unweighted average of 11.9 3 in (α,2nγ), 15.1 10 in ε decay. M(γ): E1 or M1 from RUL; adopted Δπ=yes.
2612.41	329.82	E(γ): weighted average of 329.83 5 in (n,n’γ), 329.76 12 in (α,2nγ). Others: 329.1 3 in (³⁷Cl,2p2nγ), 329.3 3 in ε decay, 330.9 4 in (p,p’γ). I(γ): from (α,2nγ). M(γ): Q from (α,2nγ); not M2 from RUL.
2634.2	2634.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
2760.52	148.14	M(γ): stretched Q from γ(θ) in (³⁷Cl,2p2nγ); not M2 from α(exp)=0.24 10 in (α,2nγ).
2838.6	2838.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
2849.81	1340.26	M(γ): D+Q from γ(θ) in (p,p’γ) and (n,n’γ); adopted Δπ=yes.
2922.6	2922.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
3006.96	480.01	E(γ): weighted average of 479.95 11 from (n,n’γ), 480.12 14 from (p,p’γ) and 480.0 2 from (α,2nγ).
3063.63	536.88	E(γ): unweighted average of 537.07 4 in (p,p’γ) and 536.69 2 in (n,n’γ).
3091.35	1581.83	I(γ): unweighted average of 19.7 11 in (n,n’γ) and 23.5 25 in (p,p’γ).
3091.35	3091.30	I(γ): from (p,p’γ). M(γ): Q to 0⁺ from γ(θ) in (p,p’γ); not M2, from RUL.
3368.68	361.65	M(γ): D+Q from γ(θ) in (n,n’γ); adopted Δπ=no.
	1085.88	M(γ): D+Q from γ(θ) in (p,p’γ) and (n,n’γ); adopted Δπ=no.
	1858.5	M(γ): Q from (n,n’γ); adopted Δπ=no.
3380.4	1097.9	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
3384.5	3384.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
3542.31	2032.80	M(γ): D+Q from γ(θ) in (n,n’γ); Δπ=no from RUL.
3542.31	3541.96	M(γ): Q from γ(θ) in (n,n’γ); E1, M1 or E2 from RUL.
3579.81	1052.88	M(γ): Q from γ(θ) in (p,p’γ); adopted Δπ=no.
3624.13	1097.10	M(γ): yrast cascade γ, mult=Q to 5-, from (α,2nγ), (³²S,2n2pγ).
3651.8	3651.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
E(level)	E(gamma)	Comments
3753.2	385	E(γ): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator.
3753.2	689	E(γ): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator.
3814.58	750.8	E(γ): from (p,p’γ).
3814.58	807.7	E(γ): tentative placement from (p,p’γ). Eγ=807.7 3, branching=36.1 12 from (n,n’γ) if correctly placed.
3871.5	2362	E(γ): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator.
3876.62	2367.22	M(γ): Q from γ(θ) in (n,n’γ); Δπ=no from level scheme.
3926.36	3926.22	M(γ): Q from (γ,γ’); not M2 from RUL.
3944.92	3944.83	I(γ): % photon branching=78 28 from (γ,γ’). However, no other γ is known to deexcite this level. M(γ): from (γ,γ’) and (n,n’γ).
3963.19	594.9	E(γ): from (p,p’γ).
	899.3	I(γ): from (p,p’γ).
	1113.2	I(γ): from (p,p’γ).
	2453.77	I(γ): from (p,p’γ).
3964.3	3964.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4148.08	4148.0	M(γ): d from (n,n’γ); Δπ=(yes) from (γ,γ’).
4251.0	626.8	E(γ): From (α,2nγ).. Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. M(γ): Q yrast decay γ ray to 7-, from (α,2nγ), (³²S,2n2pγ). Electric from positive IPDCO in (²⁸Si,2α2nγ).
4328.5	1568	E(γ): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator.
4477.80	2195.15	M(γ): γ(θ) in (n,n’γ) excludes pure Q or pure d, ΔJ=0.
4486.0	234.9	E(γ): From (α,2nγ).. Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
4493.92	4494.7	E(γ): From (γ,γ’). M(γ): Q from γ(θ) in (γ,γ’); Δπ=no from level scheme.. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4509.6	3000	E(γ): from (α,α’γ).
4633.73	3124.7	E(γ): from (γ,γ’). Eγ=3121.07 19 from (n,n’γ) is too low for this placement, suggesting the presence of a second level near 4630 keV (as adopted here).. From (γ,γ’). I(γ): from (γ,γ’). M(γ): (d) from (γ,γ’); Δπ=(yes) from level scheme.. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4633.73	4633.6	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) from (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4663.2	4663.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4848.3	2087.8	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
4917.9	2157.0	E(γ): From ⁹²Tc ε decay. I(γ): From ⁹²Tc ε decay.
4917.9	2305.8	E(γ): From ⁹²Tc ε decay. I(γ): From ⁹²Tc ε decay.
E(level)	E(gamma)	Comments
4936.1	4936.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4944.7	4944.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
4970.7	3461.1	E(γ): weighted average of 3461.3 7 in (n,n’γ) and 3460.9 7 in (γ,γ’). M(γ): from (γ,γ’).
5003.6	3493.78	E(γ): weighted average of 3494.1 4 in (γ,γ’) and 3493.6 3 in (n,n’γ). I(γ): from (γ,γ’). M(γ): (d) in (γ,γ’); Δπ=no from level scheme.
5003.6	5003.5	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): (Q), Δπ=no from (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5121.7	2361.4	E(γ): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study.. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set. M(γ): stretched Q, from γ(θ) in (³⁷Cl,2p2nγ).
5151.3	665.3	E(γ): From (α,2nγ).. Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. M(γ): from γ(θ) in (α,2nγ).
5283.0	5282.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5312.6	2552	E(γ): From (α,2nγ). ΔE_γ not stated by authors; uncertainty assigned by evaluator.
5331.7	5331.5	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5451.6	5451.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5462.9	2702.4	E(γ): From ⁹²Tc ε decay. I(γ): From ⁹²Tc ε decay.
5462.9	2850.3	E(γ): From ⁹²Tc ε decay. I(γ): From ⁹²Tc ε decay.
5527.4	5527.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5611.2	762.9	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ).
5623.8	5623.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5629.9	5629.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5703.4	5703.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5789.1	5788.9	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5801.3	5801.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5841.7	5841.5	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5861.9	740.3	E(γ): from (α,2nγ). I(γ): from (¹⁶O,6nγ). M(γ): stretched Q from γ(θ) in (³⁷Cl,2p2nγ); not M2 from RUL.
5861.9	1374.7	E(γ): From (¹⁶O,6nγ). I(γ): From (¹⁶O,6nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
5981.4	4473.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
5981.4	5981.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
E(level)	E(gamma)	Comments
6125.92	6125.7	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6184.3	6184.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6191.52	6191.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6300.2	6300.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6329.9	6329.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6362.7	6362.5	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6377.6	4868.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6377.6	6377.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6400.0	1551.6	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ).
6524.45	6524.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6550.3	2064.1	E(γ): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study.. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set. M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
6566.2	6565.9	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6606.4	6606.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6608.5	2122.4	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ).
6645.6	6645.3	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6661.5	111.2	E(γ): From (α,2nγ).. Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. I(γ): from (²⁸Si,2α2nγ). M(γ): d from γ(θ) and anisotropy in (³⁷Cl,2p2nγ); authors assume ΔJ=1 transitions are M1(+E2).
6661.5	800.7	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
6718.5	6718.2	E(γ): From (γ,γ’). M(γ): Δπ=(yes) for (Q) transition in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6761.4	6761.1	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6787.3	6787.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6818.1	6817.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6883.1	6882.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6995.89	5487.0	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): (d) from (γ,γ’); Δπ=yes from level scheme.. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
6995.89	6995.6	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7031.3	5519.8	M(γ): (d) from (γ,γ’); Δπ=yes from level scheme.
7031.3	7031.0	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
E(level)	E(gamma)	Comments
7069.6	7069.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7076.9	7076.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7134.1	471.9	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
7239.7	7239.4	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7279.0	7278.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7312.4	650.9	E(γ): From (α,2nγ).. Absence of level in (n,n’γ) makes its existence highly questionable; possibly the γ observed in (γ,γ’) was an inelastic one. M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
7384.3	7384.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7394.4	7394.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7422.5	7422.2	E(γ): from (γ,γ’).
7447.2	7446.9	E(γ): from (γ,γ’).
7469.1	4950.7	E(γ): From (γ,γ’). M(γ): (d) from (γ,γ’); Δπ=(yes) from level scheme.. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7469.1	7468.8	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) from (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7486.6	7486.3	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7518.4	7518.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7573.6	7573.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7604.4	7604.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7619.5	7619.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7681.1	7680.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7711.3	7711.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7731.7	7731.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7782.3	7781.9	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7784.0	7783.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7787.6	7787.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7808.1	7807.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7831.4	7831.0	E(γ): from (γ,γ’).
E(level)	E(gamma)	Comments
7837.7	7837.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7856.6	7856.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7877.6	4954.2	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7877.6	7877.2	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7881.8	7881.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7894.3	7893.9	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7919.4	7919.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7931.4	7931.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7950.4	7950.0	E(γ): From (γ,γ’). M(γ): d, Δπ=(no) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
7963.3	7962.9	E(γ): from (γ,γ’).
8007.0	8006.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8042.0	6532.2	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8042.0	8041.6	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8063.4	8063.0	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8088.1	8087.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8096.4	8096.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8168.4	8168.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8211.0	6701.2	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8211.0	8210.6	E(γ): From (γ,γ’). I(γ): from (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8220.8	8220.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8221.2	1559.7	E(γ): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study.. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set. M(γ): d or (d) from γ(θ) in (³⁷Cl,2p2nγ), (³⁰Si,2p2nγ), (¹⁶O,4nγ); ΔJ=1 transitions assumed by 1992Si03 to be M1(+E2).
8229.9	8229.5	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8319.5	8319.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8355.1	8354.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8381.7	8381.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
E(level)	E(gamma)	Comments
8387.4	1075.0	E(γ): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study.. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set. M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
8486.5	8486.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8501.0	8500.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8553.0	8552.6	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8594.7	1933.2	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ).
8606.6	8606.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8660.4	8660.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8695.2	8694.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8763.4	8763.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8774.4	8774.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8791.5	8791.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8819.8	8819.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8834.3	8833.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8902.5	8902.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8924.0	536.6	E(γ): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study.. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set. M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
8926.3	8925.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
8955.5	8955.0	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9022.1	9021.6	E(γ): from (γ,γ’).
9096.6	9096.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9126.5	9126.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9187.0	9186.5	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9206.4	9205.9	E(γ): From (γ,γ’). M(γ): d, Δπ=(yes) in (γ,γ’).. From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9237.4	9236.9	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9280.2	9279.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9296	9295	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
E(level)	E(gamma)	Comments
9337.6	9337.1	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9359.3	2047.6	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
9359.3	2224.5	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
9360.9	9360.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9443.2	9442.7	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9481.0	557.0	E(γ): From (³⁷Cl,2p2nγ); note that Eγ values appear to be systematically low in this study.. Note that E(level) here differs significantly from that deduced in source data set on account of the cumulative effect of apparently systematically low Eγ values in that data set. M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
9502.8	9502.3	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9559.3	9558.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9592.3	9591.8	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9646.7	9646.2	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9710.6	9710.0	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9827.0	9826.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
9843.0	9842.4	E(γ): From (γ,γ’). M(γ): From (γ,γ’), (pol γ,γ’). Δπ (if given) is based on comparison between polarized and unpolarized photon data; ΔJ is from measured γ(θ).
10020.3	660.7	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
10102.9	621.9	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
10579.2	559.2	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).
11215.5	636.3	E(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). I(γ): From ⁷⁴Ge(²⁸Si,2α2nγ). M(γ): From DCO ratios and γ asymmetry parameters from polarization measurements in ⁷⁴Ge(²⁸Si,2α2nγ).