List of levels for 76SE

Author: Balraj Singh | Citation: Nucl. Data Sheets 74,63 (1995) | Cutoff date: 22-Dec-1994

Other reactions:

⁷²Ge(⁶Li,d) E=34 MeV: 1984Co08, analyzed spectroscopic factors

⁷⁶Se(e,e) E=225 MeV: 1988Kh02 (also 1987Ku21,1987Kh07). Measured σ and comparison with theory

⁷⁶Se(d,³He) E=25 MeV: 1983Ro08, deduced g.s. proton occupation numbers

Giant dipole resonances studied by 1976Ca06 using (γ,xn) reactions

(¹²C,X), (¹⁶O,X), (¹⁸O,X) E=40-52 MeV: 1985GuZZ, GDR decay characteristics

(γ,xn): 1975Go16

(n,X): 1967Mi07, measured cross section

⁶⁴Ni(¹²C,γ): 1984Sn01 (theory)

For neutron resonances see 1971Fe01, 1969Ma15, 1964Co31

⁷⁶Ge(π⁺,π^-): 1991Ka20 and 1991Ci10, 1986Fa07 (theory),

Mass measurement: 1991Hy01, 1985El01 (also 1984ElZY,1984El01)

Nuclear structure calculations (levels,moments, etc.): 1994An08, 1993Pa10, 1993Co06, 1993Ca10, 1992Ho18, 1992Po08, 1992Er02, 1992Ef02, 1991Do08, 1990Zo02, 1990Ho10, 1990Ba11, 1989Va16, 1989Pr08, 1989Do13, 1989De44, 1989Co02, 1988Ra35, 1988Pe04, 1988Ch34, 1986Tr06, 1986Ta09, 1986Ta04, 1985Ve10, 1985Na12, 1985Er01, 1985Do21, 1984Ba28, 1983Ka04, 1982Ko10, 1982Ah06, 1980Sh23, 1980Ba56, 1979Pe11, 1979Au09, 1978Sa12, 1977Sa27, 1976Le08, 1976Iw04, 1976Ho07, 1975Li18, 1975An10, 1973St34, 1973Si25, 1972Go37, 1972Fe19, 1971Al16

Levels labeled with XREF=O for different reactions:

(α,α’): 0, 559, 1216, 1788, 2429. (n,p): 0, 559, 1216, 1788

(¹⁶O,¹⁴O): 0, 559, 2429. (γ,γ’): 0, 559, 1216. (n,n’): 0, 559, 2429

Q-value: Note: Current evaluation has used the following Q record

E(level): From least squares fit to Eγ’s for levels populated in γ-ray studies. In other cases, values are mainly from (³He,d), (p,p’) and/or from primary transitions in (n,γ)

J^π(level): When deduced from γ(θ) in (HI,xnγ), it is assumed that a γ-transition with large quadrupole component is E2 rather than M2, unless a long lifetime is indicated. Above≈2800, values are given in parentheses when available only from L(p,p’) due to following reasons: 1. The agreement of σ(θ) fits to DWBA is not good over the whole angular range. 2. The correspondence between levels in different reactions is not unique due to large level density and large uncertainties in E(level) from particle reactions

T_1/2(level): Unless otherwise stated, values are from recoil-distance Doppler shift (RDDS) or ΔS(a) methods in (HI,xnγ) (1984Zo01)

E(γ): Weighted average of all available values from various γ-ray studies

I(γ): Weighted average from ⁷⁶As β^- and ⁷⁶Br ε, whenever possible. In other cases weighted averages of values from reaction studies

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
559.102	2+	12.3 ps 2	559.101 5	E2		B(E2)(W.u.)=44 1
1122.283	0+	11 ps 5	563.178 5	E2		B(E2)(W.u.)=47 22
1216.147	2+	3.4 ps 2	657.041 5	E2+M1(+E0)	+5.2 2	B(E2)(W.u.)=43 3, B(M1)(W.u.)=5.1E-4 5
1216.147	2+	3.4 ps 2	1216.104 20	E2		B(E2)(W.u.)=1.21 10
1330.860	4+	1.52 ps 5	771.756 9	E2		B(E2)(W.u.)=71 2
1688.962	3+	3.2 ps +12-6	1129.853 16	E2+M1	+1.08 10	B(E2)(W.u.)=1.9 8, B(M1)(W.u.)=0.0016 7
1787.648	2+	6 ps +6-2	571.498 9	(M1+(E2))	+0.13 12
1787.648	2+	6 ps +6-2	1228.60 4	M1+E2	-0.51 5	B(E2)(W.u.)=0.2 1, B(M1)(W.u.)=0.0009 4
2025.994	4+	1.8 ps 4	695.136 9	E2+M1	+1.7 +6-1	B(E2)(W.u.)=22 7, B(M1)(W.u.)=0.003 2
2025.994	4+	1.8 ps 4	809.827 8	E2		B(E2)(W.u.)=29 7
2262.4	6+	0.62 ps 7	931.5 5	E2		B(E2)(W.u.)=68 8
2429.095	3-	14 ps 7	740.167 25	(E1+M2)	-0.21 12
	3-	14 ps 7	1212.94 4	(E1+M2)	+0.025 20
	3-	14 ps 7	1870.00 7	(E1+M2)	+0.17 3
2489.3	5+	0.9 ps +3-2	800.6 5	E2		B(E2)(W.u.)=67 23
2489.3	5+	0.9 ps +3-2	1158.4 5	E2+M1	+2.9 8	B(E2)(W.u.)=4.7 17, B(M1)(W.u.)=0.0006 4
2655.32	1		867.64 8	D(+Q)	+0.08 7
2669.88	2-		882.17 5	(E1+M2)	+0.26 15
2824.762	5-	6.2 ps +21-14	335.5 5	(E1+M2)	+0.35 15
	5-	6.2 ps +21-14	395.665 5	E2		B(E2)(W.u.)=90 30
	5-	6.2 ps +21-14	1493.98 10	E1		B(E1)(W.u.)=4.9E-6 17
2859.75	4-	1.2 ps 5	430.638 27	M1+E2	-0.7 +4-12	B(E2)(W.u.)=200 180, B(M1)(W.u.)=0.06 4
2859.75	4-	1.2 ps 5	1528.97 8	D+Q	0.4 AP
2976.2	6+	1.2 ps +7-4	950.0 5	E2		B(E2)(W.u.)=29 18
3045.7	(5-)	< 0.28 ns	221.0 5	D+Q	+0.6 3
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
3262.3	6-	12 ps 6	402.7 5	(E2)		B(E2)(W.u.)=37 19
	6-	12 ps 6	437.6 5	M1+E2	-0.25 5	B(E2)(W.u.)=5 4, B(M1)(W.u.)=0.012 7
	6-	12 ps 6	999.9 5	(E1+M2)	-0.23 17
3269.8	8+	0.35 ps 7	1007.2 5	E2		B(E2)(W.u.)=82 17
3312.0	(6-)	0.14 ns +14-7	487.1 5	D+Q	+0.25 5
3432.1	7+	0.8 ps +4-2	942.8 5	E2		B(E2)(W.u.)=40 21
3432.1	7+	0.8 ps +4-2	1169.6 5	M1(+E2)	+0.08 15	B(E2)(W.u.)<0.1, B(M1)(W.u.)=0.0033 17
3441.5	7-	3.6 ps 7	616.8 5	E2		B(E2)(W.u.)=74 16
3696.3	(7-)	28 ps 7	254.5 5	D+Q	+0.045 5
3696.3	(7-)	28 ps 7	384.2 5	D+Q	-0.9 AP
3853.6	(8)+	0.23 ps +8-5	583.9 5	M1+E2	-0.45 25	B(E2)(W.u.)<240, B(M1)(W.u.)=0.15 6
4008.6	(8-)	2.2 ps 7	746.3 5	E2		B(E2)(W.u.)=58 20
4214.0	(8-)	1.7 ps +15-8	901.7 5	E2		B(E2)(W.u.)=21 11
4299.5	(10)+	0.49 ps +10-7	1029.8 5	E2		B(E2)(W.u.)=52 11
4324.5	(9)-	1.4 ps 4	883.0 5	E2		B(E2)(W.u.)=39 12
4405.2	(9+)	0.9 ps 2	973.1 5	(E2)		B(E2)(W.u.)=38 9
4687.5	(10)+	0.49 ps 7	1417.7 5	E2		B(E2)(W.u.)=4.1 7
5068.0	(10)-	1.0 ps +4-2	1059.4 5	E2		B(E2)(W.u.)=22 9
5432.5	(12+)	0.2 ps 1	1133.0 5	(E2)		B(E2)(W.u.)=80 40

Q(β-)=-4963 keV 10	S(n)= 11153.79 keV 7	S(p)= 9506.7 keV 9	Q(α)= -5090.96 keV 8
Reference: 2012WA38

References:
A	⁷⁶As β^- decay (26.24 H)	B	⁷⁶Br ε decay (16.2 H)
C	⁷⁶Br ε decay (1.31 S)	D	(HI,xnγ)
E	⁷⁵As(³He,d)	F	⁷⁵Se(n,γ) E=THERMAL
G	⁷⁵As(p,n) IAR	H	Coulomb Excitation
I	⁷⁶Se(n,n’γ)	J	⁷⁶Se(p,p’γ), (α,α’γ)
K	⁷⁶Se(p,p’), (pol p,p’)	L	⁷⁶Se(d,d’), (pol d,d’)
M	⁷⁷Se(d,t)	N	⁷⁸Se(p,t)
O	⁷⁶Se(α,α’)	P	⁷⁶Br(n,p) E=THERMAL
Q	⁷⁴Ge(¹⁶O,¹⁴C)	R	⁷⁶Se(γ,γ’)
S	⁷⁶Se(n,n’)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A B C D E F H I J K L M N O P Q R S	0+	STABLE
559.102 5	A B C D E F H I J K L M N O P Q R S	2+	12.3 ps 2	559.101 5	100	E2	0.0	0+
1122.283 7	A B E F H I J K L M N	0+	11 ps 5	563.178 5 1122.3 3	100	E2 E0	559.102 0.0	2+ 0+
1216.147 7	A B D E F H I J K L M N O P R	2+	3.4 ps 2	657.041 5 1216.104 20	100 2 59 3	E2+M1(+E0) E2	559.102 0.0	2+ 0+
1330.860 8	A B C D E F H I J K L M N	4+	1.52 ps 5	771.756 9	100	E2	559.102	2+
1688.962 7	A B D F H I J K M	3+	3.2 ps +12-6	358.098 5 472.812 5 1129.853 16	6 2 35 2 100 4	M1+E2 E2+M1	1330.860 1216.147 559.102	4+ 2+ 2+
1787.648 8	A B E F H I J K L M O P	2+	6 ps +6-2	456.79 5 571.498 9 665.361 11 1228.60 4 1787.68 8	3.0 2 10 2 32 2 100 4 25 1	(M1+(E2)) M1+E2	1330.860 1216.147 1122.283 559.102 0.0	4+ 2+ 0+ 2+ 0+
1791.2 2 ?	J			575.1 2			1216.147	2+
1881.2 4	A	(1,2,3)		665 1 1881.3 4 ?	100 2.5 12		1216.147 0.0	2+ 0+
2025.994 9	A D E F H I J K L M N	4+	1.8 ps 4	238.8 5 ? 695.136 9 809.827 8 1467.0 10	49 5 100 5 5 3	E2+M1 E2	1787.648 1330.860 1216.147 559.102	2+ 4+ 2+ 2+
2127.215 8	A B E F I J K L M	(2)+		335.0 15 ? 339.569 5 438.252 5 796.10 10 910.7 8 ? 1567.98 7 2127.1 5	16 2 25 3 12 4 5 3 100 6 19 5		1791.2 1787.648 1688.962 1330.860 1216.147 559.102 0.0	2+ 3+ 4+ 2+ 2+ 0+
2170.554 12	A B E F I J K L N	(0+)		382.904 9 954.6 3 ? 1611.6 4	24 4 24 18 100 6		1787.648 1216.147 559.102	2+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2262.4 3	D I K L	6+	0.62 ps 7	931.5 5	100	E2	1330.860	4+
2346.9 8 ?	A			466.5 10 ? 1130 1 ?	25 20 100 75		1881.2 1216.147	(1,2,3) 2+
2362.955 14	A F N	(2+,3+)		575.305 11 1030.6 10 1805 2 ?	100 7 1.3 7 2.0 13		1787.648 1330.860 559.102	2+ 4+ 2+
2429.095 11	A B D E F H I K L N O Q S	3-	14 ps 7	302.2 2 403.094 7 639.5 10 740.167 25 1098.2 2 1212.94 4 1870.00 7 2429.00 8	0.63 9 1.6 1 0.25 9 8.3 5 0.25 3 100 6 3.9 6 2.2 2	(E1+M2) (E1+M2) (E1+M2)	2127.215 2025.994 1791.2 1688.962 1330.860 1216.147 559.102 0.0	(2)+ 4+ 3+ 4+ 2+ 2+ 0+
2489.3 3	D I J K	5+	0.9 ps +3-2	800.6 5 1158.4 5	100 7 50 3	E2 E2+M1	1688.962 1330.860	3+ 4+
2514.663 13	A B E F I J K L N	(2)+		727.010 10 1393 2 ? 1955.8 3	100 7 48 5		1787.648 1122.283 559.102	2+ 0+ 2+
2570 10	M
2605.7 5 ?	I			2046.6 5	100		559.102	2+
2619.2 4	E I K M N	(4)+		930.9 5 ? 1287.7 5 ?	<25 100		1688.962 1330.860	3+ 4+
2630.8 5 ?	B M N	(1,2)		942.3 5 ? 2071.3 15 ? 2627 2 ?	<70 100 83 47 14		1688.962 559.102 0.0	3+ 2+ 0+
2655.32 4	A B F I J K N	1		484.8 3 867.64 8 1324 2 ? 1439.10 5 1532.8 2 2096.4 2 2655.30 8	1.1 3 23 2 3 2 46 3 4.4 3 100 5 7.9 4	D(+Q) D D D	2170.554 1787.648 1330.860 1216.147 1122.283 559.102 0.0	(0+) 2+ 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
2669.88 4	A B E F I J L N	2-		498 1 ? 882.17 5 980.71 15 1453.70 13 2110.9 2 2669.7 5 ?	6 3 17 1 13 2 32 2 100 5 0.08 1	(E1+M2) D D	2170.554 1787.648 1688.962 1216.147 559.102 0.0	(0+) 2+ 3+ 2+ 2+ 0+
2691 2	K	(3-)
2804.5 4	I K	(4+)		1473.9 5 1588.0 5	100 67		1330.860 1216.147	4+ 2+
2812.4 2	F J N			1596.34 23 ?	100		1216.147	2+
2816.8 3	F I N			1600.1 5 2258.0 5	100 54		1216.147 559.102	2+ 2+
2824.762 12	D E F	5-	6.2 ps +21-14	335.5 5 395.665 5 562.3 5 798.82 6 1493.98 10	7 1 42 3 26 100 7 64 5	(E1+M2) E2 D E1	2489.3 2429.095 2262.4 2025.994 1330.860	5+ 3- 6+ 4+ 4+
2853 2	K L M	(4+)
2859.75 3	D E F M	4-	1.2 ps 5	430.638 27 1528.97 8	57 7 100 8	M1+E2 D+Q	2429.095 1330.860	3- 4+
2869.7 3	F I J L M	(1 TO 4)		1653.3 5 2310.9 5	54 100		1216.147 559.102	2+ 2+
2910.98 2	F N	(1 TO 4)		548.022 18 ?	100		2362.955	(2+,3+)
2919.9 10	E F K N	(4)+
2950.53 5	B F I J	1+,2+		1161 2 ? 2391.25 10 2950.53 6	2.2 3 64 4 100 5	M1,E2 (M1,E2)	1787.648 559.102 0.0	2+ 2+ 0+
2968.4 7	E F K L	(2-,3-,4-)
2976.2 4	D L	6+	1.2 ps +7-4	713.8 5 950.0 5	9 100 7	E2	2262.4 2025.994	6+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3009.4 5	E F I K M N	(2+)		2450.5 5	100		559.102	2+
3042 4	K	(6+)
3045.7 3	D	(5-)	< 0.28 ns	221.0 5 1714.9 5	100 6 87 6	D+Q	2824.762 1330.860	5- 4+
3069.75 4	B F J	(1,2)+		399.5 2 897 1 ? 942.3 5 1280 2 ? 1380.53 8 1853.67 5 2510.79 16 3072 3 ?	<2.3 1.2 2 <1.3 0.5 2 17 1 100 5 13 1 0.3 1	M1,E2	2669.88 2170.554 2127.215 1791.2 1688.962 1216.147 559.102 0.0	2- (0+) (2)+ 3+ 2+ 2+ 0+
3084.4 5	E I K	(1+,2+,3+)		2525.3 5	100		559.102	2+
3105.7 3	F I K N	(3-)		2547.0 5	100		559.102	2+
3160.07 6	B F I K L	(2)		489.9 2 505.0 5 ? 730.5 2 1032.6 5 1372.1 2 1471.13 7 1944.2 5 2601.25 15 3159.0 2	16 2 10 1 25 3 25 3 24 2 100 5 21 3 30 2 6.4 7		2669.88 2655.32 2429.095 2127.215 1787.648 1688.962 1216.147 559.102 0.0	2- 1 3- (2)+ 2+ 3+ 2+ 2+ 0+
3191.6 4	E F	(1+,2+,3+)
3216 4	K N	(3-&4+)
3219.2 4	E F	(1+,2+,3+)
3225.7 6	D	(6,8+)		963.3 5	100		2262.4	6+
3239.0 5	D			414.2 5	100		2824.762	5-
3262.3 3	D	6-	12 ps 6	402.7 5 437.6 5 999.9 5	27 2 100 7 41 2	(E2) M1+E2 (E1+M2)	2859.75 2824.762 2262.4	4- 5- 6+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3268.8 4	E F K	(2-,3-,4-)
3269.8 5	D	8+	0.35 ps 7	1007.2 5	100	E2	2262.4	6+
3294.7 5	F K L N	(4+)
3297.4 5	E I L N	(1+,2+,3+)		2738.2 5	100		559.102	2+
3312.0 4	D N	(6-)	0.14 ns +14-7	266.1 5 487.1 5	100 8 85 8	D+Q D+Q	3045.7 2824.762	(5-) 5-
3351.54 7	B E F I J K	(1,2)+		399.5 2 681.4 2 695.9 2 836.4 2 923? 1179 1 1224.3 5 1661 2 ? 2135.60 10 2227.7 20 2792.69 8 3351.8 10	<6 7.5 4 8.7 5 6.8 13 1.6 7 5.0 19 2.5 9 17 1 1.7 11 100 5 4.5 4	M1,E2	2950.53 2669.88 2655.32 2514.663 2429.095 2170.554 2127.215 1688.962 1216.147 1122.283 559.102 0.0	1+,2+ 2- 1 (2)+ 3- (0+) (2)+ 3+ 2+ 0+ 2+ 0+
3378 10	E	(1+,2+,3+)
3408 4	K	(4+)
3417 10	E	-
3432.1 4	D	7+	0.8 ps +4-2	942.8 5 1169.6 5	100 8 24 2	E2 M1(+E2)	2489.3 2262.4	5+ 6+
3441.5 3	D	7-	3.6 ps 7	179.2 5 465.3 5 616.8 5 1179.1 5	8 1 6.5 100 7 10	E2	3262.3 2976.2 2824.762 2262.4	6- 6+ 5- 6+
3442 10	E	(1+,2+,3+)
3443 4	K N	(3-)
3459.40 8	B E I J N	(2+)		789.1 2 803.5 2 1029.9 5 1288 1 ? 1672.4 5 1769.9 5 2900.5 1	82 5 92 7 100 10 9 4 42 13 <74 48 17		2669.88 2655.32 2429.095 2170.554 1787.648 1688.962 559.102	2- 1 3- (0+) 2+ 3+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3475 4	K	(4+)
3530 10	E I L	(1+,2+,3+)		3530.0 5 ?	100		0.0	0+
3556.46 8	B E F J K L N	(1,2)		886.2 2 901.0 7 1429.1 2 2338 2 ? 2997.34 9	35 2 16 2 <28 9 4 100 8		2669.88 2655.32 2127.215 1216.147 559.102	2- 1 (2)+ 2+ 2+
3604.08 8	B E F J N	1+,2+		934.2 10 2483.0 12 3045 1 ? 3603.98 8	5 1 9 2 1.4 5 100 7		2669.88 1122.283 559.102 0.0	2- 0+ 2+ 0+
3630 5	E K	(1+,2+,3+)
3651.2 3	E F I K			3093? 3652?			559.102 0.0	2+ 0+
3696.3 3	D	(7-)	28 ps 7	254.5 5 384.2 5 434.1 5 650.8 5	100 8 42 28 83	D+Q D+Q	3441.5 3312.0 3262.3 3045.7	7- (6-) 6- (5-)
3697 4	E K N	(1+,2+,3+)
3730.7 10	F K	(3-)
3741 10	E	(1+,2+,3+)
3776 4	K	(4+)
3785.7 5	D	(8+)	0.9 ps +5-3	515.7 5 1523.5 5	89 100		3269.8 2262.4	8+ 6+
3790 10	E	(LE 3+)
3806 4	K	(5-)
3808 10	E	(1+,2+,3+)
3853.6 5	D	(8)+	0.23 ps +8-5	583.9 5 1591.1 5	58 4 100	M1+E2	3269.8 2262.4	8+ 6+
3861.0 4	E F K N
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3906.3 3	E F	(1+,2+,3+)
3915.8 6	F K	(4+)
3929.1 6	B F	(1,2)		1802 2 ? 2714 3 ? 3370.0 10 3929.2 7	33 17 83 25 100 17 100 17		2127.215 1216.147 559.102 0.0	(2)+ 2+ 2+ 0+
3932.6 4	F
3948 4	K	(4+)
3966.2 6 ?	F
3970.6 4	B E N	(1+,2+)		1300.5 8 1315.0 10 ? 2183.5 10 2757 3 ? 3411.3 5 3971 2	54 5 18 5 44 13 26 8 100 5 4 2		2669.88 2655.32 1787.648 1216.147 559.102 0.0	2- 1 2+ 2+ 2+ 0+
4001.7 3	E F K	(3-)
4005.6 6	D			309.3 5	100		3696.3	(7-)
4008.6 6	D	(8-)	2.2 ps 7	746.3 5	100	E2	3262.3	6-
4019.3 5 ?	B			1504.1 5 ? 2690.0 15 ? 4020.3 10 ?	25 10 100 11 17 4		2514.663 1330.860 0.0	(2)+ 4+ 0+
4044.5 2	E F K	(1+,2+,3+)		2257 1 ?			1787.648	2+
4084.3 2	B	(1,2)		1429.1 2 1654.7 5 ? 3525.2 5	<150 67 13 100 8		2655.32 2429.095 559.102	1 3- 2+
4119 4	E K	(2-,3-,4-)
4137 10	E	(1+,2+,3+)
4170 4	E K N	(4+)
4173.1 9	B E N	(1,2)		2046.1 10 ? 4172 2 ?	100 8 12 4		2127.215 0.0	(2)+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4199.6 4	B N	(1,2)		1040.7 5 1769.9 5 2411.8 20 ? 2981.5 30 ? 3638.7 10	50 25 <300 40 20 60 20 100 10		3160.07 2429.095 1787.648 1216.147 559.102	(2) 3- 2+ 2+ 2+
4206.4 5	F N
4214.0 5	D	(8-)	1.7 ps +15-8	518.0 5 901.7 5	37 100 5	E2	3696.3 3312.0	(7-) (6-)
4215.5 2 ?	B E	(1+,2+)		1560.0 5 ? 3093.2 2 ?	100 5 35 3		2655.32 1122.283	1 0+
4218 4	K	(3-)
4240.4 2	E F K	(1 TO 4)
4257.4 2	E F	(1 TO 4)
4282.7 5	E F	(2-,3-,4-)
4299.5 6	D	(10)+	0.49 ps +10-7	1029.8 5	100	E2	3269.8	8+
4324.5 6	D	(9)-	1.4 ps 4	883.0 5	100	E2	3441.5	7-
4340 4	E K	(3-)
4351.2 7	E F	(1 TO 4)
4369.3 3	E F	(4+)
4383.9 2	E F	(1+,2+,3+)		2257 1 ?			2127.215	(2)+
4399 4	K	(4+)
4405.2 7	D	(9+)	0.9 ps 2	973.1 5	100	(E2)	3432.1	7+
4425 10	E N	(1+,2+,3+)
4436.9 10	B K N	(1,2)		3881 3 ? 4436.4 10 ?	29 14 100 29		559.102 0.0	2+ 0+
4473.8 3	E F K	(1+,2+,3+)
4488.9 3	E F	(1 TO 4)
4523 3	E F K	(3-)
4567 10	E
4605.8 7	B E	(1+,2+)		636 2 ? 1145 2 ? 1253 2 ? 1538 2 ? 1976.0 10 4044 2 4600 4 ?	43 13 35 9 48 17 100 40 61 48 30 9 13 4		3970.6 3459.40 3351.54 3069.75 2630.8 559.102 0.0	(1+,2+) (2+) (1,2)+ (1,2)+ (1,2) 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4611 4	K	(3-)
4647 10	E	(1+,2+,3+)
4658 4	E K	(3-)
4687.5 5	D	(10)+	0.49 ps 7	388.0 5 833.8 5 1417.7 5	30 100 83 4	E2	4299.5 3853.6 3269.8	(10)+ (8)+ 8+
4723 4	E K	(+)
4728.4 5	D			1032.0 5 1287.0 5	49 100		3696.3 3441.5	(7-) 7-
4751.5 5	E F	(1+,2+,3+)
4771 4	K	(3-)
4811 4	E K	(1+,2+,3+)
4836 10	E	(1+,2+,3+)
4859 4	E K	(+)
4911 10	E	(1+,2+,3+)
4935 4	E K	(3-)
4974 10	E	(1+,2+,3+)
4998 4	E K	(1+,2+,3+)
5032.0 2	E F	(2-,3-,4-)
5068.0 8	D	(10)-	1.0 ps +4-2	1059.4 5	100	E2	4008.6	(8-)
5081 4	E K	(3)-
5139.8 6	F	(1 TO 4)
5174 4	K	(3-)
5195.3 2	F	(1 TO 4)
5261 4	K	(4+)
5303 4	K	(3-)
5401 4	K
5432.5 8	D	(12+)	0.2 ps 1	1133.0 5	100	(E2)	4299.5	(10)+
5510 10	E
5938.9 6	F	(1 TO 4)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6005 10	E
12528	G
12578	G
12678	G
12718	G
12788	G
12888	G
12938	G
13138	G
13278	G
13418	G
13478	G
13528	G
13598	G
13728	G
13928	G
14038	G
14118	G
14198	G

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	E(level): GS, yrast band.
559.102	2+	12.3 ps 2	μ=+0.80 22 (1989Ra17,1969He11), Q=-0.34 7 (1989Ra17,1977Le11), β₂=0.28 1 (1993Mo05) β₂(¹⁶O,¹⁴O): 0.326 (1976Co09). E(level): GS, yrast band.
1216.147	2+	3.4 ps 2	β₂(p,p’)=0.085 2 (1993Mo05). β₂(α,α’)=0.1 (1988Ba35). E(level): K^π=2⁺, γ band.
1330.860	4+	1.52 ps 5	β₄(p,p’)=0.049 10 or 0.012 (1986MoZR), 0.040 (1984De01), 0.014 5, 0.012 4 (1983Ma59). β₄(n,n’)=0 (1984Ku09). E(level): GS, yrast band.
1688.962	3+	3.2 ps +12-6	E(level): K^π=2⁺, γ band.
1787.648	2+	6 ps +6-2	β₂(α,α’)=0.07 (1988Ba35).
2025.994	4+	1.8 ps 4	E(level): K^π=2⁺, γ band.
2170.554	(0+)		XREF: K(2177)L(2210).
2262.4	6+	0.62 ps 7	XREF: L(2290). E(level): GS, yrast band.
2362.955	(2+,3+)		XREF: n(2347).
2429.095	3-	14 ps 7	β₃=0.17 1 (1993Mo05) β₃(¹⁶O,¹⁴O)=0.185 (1976Co09). E(level): K^π=3- band.
2489.3	5+	0.9 ps +3-2	E(level): K^π=2⁺, γ band.
2514.663	(2)+		XREF: L(2540).
2824.762	5-	6.2 ps +21-14	E(level): K^π=3- band.
2859.75	4-	1.2 ps 5	E(level): α ΔJ=2 band.
2869.7	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
2910.98	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
2919.9	(4)+		XREF: K(2915).
2968.4	(2-,3-,4-)		XREF: E(2956).
2976.2	6+	1.2 ps +7-4	E(level): K^π=2⁺, γ band.
3009.4	(2+)		XREF: E(3022)K(3001).
3084.4	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3191.6	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3216	(3-&4+)		XREF: n(3232).
3219.2	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
E(level)	J^π(level)	T_1/2(level)	Comments
3262.3	6-	12 ps 6	E(level): α ΔJ=2 band.
3268.8	(2-,3-,4-)		XREF: K(3259).
3269.8	8+	0.35 ps 7	E(level): GS, yrast band.
3294.7	(4+)		XREF: K(3289).
3297.4	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3351.54	(1,2)+		XREF: K(3342).
3378	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3432.1	7+	0.8 ps +4-2	E(level): K^π=2⁺, γ band.
3441.5	7-	3.6 ps 7	E(level): K^π=3- band.
3442	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3443	(3-)		XREF: n(3458).
3459.40	(2+)		XREF: I(3465).
3530	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3556.46	(1,2)		XREF: K(3565).
3630	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3651.2			XREF: I(3657.8)K(3655).
3697	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3741	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3808	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3853.6	(8)+	0.23 ps +8-5	E(level): K^π=2⁺, γ band.
3861.0			XREF: E(3856)K(3862)n(3843).
3906.3	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
3929.1	(1,2)		XREF: F(3926.9).
3970.6	(1+,2+)		XREF: E(3955).
4008.6	(8-)	2.2 ps 7	E(level): α ΔJ=2 band.
E(level)	J^π(level)	T_1/2(level)	Comments
4044.5	(1+,2+,3+)		XREF: E(4054). J^π(level): L(³He,d)=1⁺3 from 3/2-.
4119	(2-,3-,4-)		XREF: E(4103).
4137	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4215.5	(1+,2+)		Level uncertain in ⁷⁶Br ε.
4240.4	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
4257.4	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
4282.7	(2-,3-,4-)		XREF: E(4301).
4299.5	(10)+	0.49 ps +10-7	E(level): GS, yrast band.
4324.5	(9)-	1.4 ps 4	E(level): K^π=3- band.
4351.2	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
4369.3	(4+)		XREF: E(4375).
4383.9	(1+,2+,3+)		XREF: E(4400). J^π(level): L(³He,d)=1⁺3 from 3/2-.
4405.2	(9+)	0.9 ps 2	E(level): K^π=2⁺, γ band.
4425	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4436.9	(1,2)		Level uncertain in ⁷⁶Br ε.
4473.8	(1+,2+,3+)		XREF: E(4459). J^π(level): L(³He,d)=1⁺3 from 3/2-.
4488.9	(1 TO 4)		XREF: E(4475). J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
4605.8	(1+,2+)		XREF: E(4603).
4647	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4658	(3-)		XREF: E(4677).
4751.5	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4811	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4836	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4911	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
4974	(1+,2+,3+)		J^π(level): L(³He,d)=1⁺3 from 3/2-.
E(level)	J^π(level)	T_1/2(level)	Comments
4998	(1+,2+,3+)		XREF: E(5013). J^π(level): L(³He,d)=1⁺3 from 3/2-.
5032.0	(2-,3-,4-)		XREF: E(5043).
5068.0	(10)-	1.0 ps +4-2	E(level): α ΔJ=2 band.
5139.8	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
5195.3	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
5432.5	(12+)	0.2 ps 1	E(level): GS, yrast band.
5938.9	(1 TO 4)		J^π(level): Primary γ from 2⁺,3⁺ in (n,γ).
12528			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
12578			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
12678			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
12718			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
12788			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
12888			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
12938			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13138			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13278			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13418			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13478			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13528			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13598			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13728			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
13928			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
14038			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
14118			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.
14198			E(level): Isobaric analog resonances from ⁷⁵As(p,n). Uncertainty ≈25. See ⁷⁵As(p,n) IAR for assignment to analog states in ⁷⁶As.

E(level)	E(gamma)	Comments
1216.147	1216.104	I(γ): weighted average of values from ⁷⁶As β^-, ⁷⁶Br ε and Coul. ex. Iγ=38 3, 46 3 and 51 from (HI,xnγ) are consistently lower
2025.994	695.136	I(γ): weighted average from ⁷⁶As β^- and ⁷⁶Br ε. In (HI,xnγ), Iγ=79 5, 134 35 are consistently higher
2127.215	339.569	I(γ): from (n,γ). γ not seen in ⁷⁶As β^- and ⁷⁶Br ε
2362.955	1030.6	E(γ): poor energy agreement in level scheme
2429.095	639.5	I(γ): from ⁷⁶As β^-. Iγ=8 2 in ⁷⁶Br ε is in disagreement
2630.8	942.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2950.53	2391.25	M(γ): from α(K)exp in ⁷⁶Br ε
2950.53	2950.53	M(γ): from α(K)exp in ⁷⁶Br ε
3069.75	399.5	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	942.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1853.67	M(γ): from α(K)exp in ⁷⁶Br ε
3262.3	999.9	M(γ): from adopted level parities
3351.54	399.5	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
3351.54	2792.69	M(γ): from α(K)exp in ⁷⁶Br ε
3459.40	1769.9	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
3556.46	1429.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
3651.2	3093	E(γ): from level energy difference. Eγ=3098.3 in (n,n’γ).
3651.2	3652	E(γ): from level energy difference. Eγ=3657.8 in (n,n’γ).
4044.5	2257	E(γ): Multiply placed
4084.3	1429.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4199.6	1769.9	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
4383.9	2257	E(γ): Multiply placed