List of levels for 85KR

Authors: Balraj Singh and Jun Chen | Citation: Nucl. Data Sheets 116, 1 (2014) | Cutoff date: 31-Dec-2013

α 4.⁵H activity was produced by 1937Sn02 in the irradiation of ⁸⁴Kr with deuterons and assigned to ⁸⁵Kr or ⁸⁷Kr Later work (1943Bo01,1943Se01) confirmed the assignment of the 4.5-hour activity to ⁸⁵Kr. This activity belongs to an isomer at 304.87 keV. The ground state with a much longer half-life was identified by 1947Th06. Later decay measurements: 2002Un02, 2004Sc04, 1996Er06, 1994Va37, 1993Ca41, 1992Mo10, 1992Un01, 1987Da33, 1980Me06; and many other references listed with half-life measurements of ground state and isomer

Nuclear structure calculations: 2012Si08, 1988Er07 (levels, transition rates for multi-particle states)

Q-value: S(2n)=17632.9 20, S(2p)=20718 4 (2012Wa38)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
304.871	1/2-	4.480 h 8 % IT = 21.2 5 % β^- = 78.8 5	304.87 2	M4		0.511	B(M4)(W.u.)=11.2 3, α=0.511, α(K)=0.434, α(L)=0.0658, α(M)=0.01089, α(N)=0.001043
1140.73	5/2+	3.5 ps +28-14	1140.78 9	[E2]			B(E2)(W.u.)=3.8 +15-31
1223.98	(5/2-)	2.4 ps +6-4	919.06 8	(E2)			B(E2)(W.u.)=16 +3-4
1416.57	(5/2+)	0.42 ps 7	249.94 10	[E1]			B(E1)(W.u.)=0.0126 24
1416.57	(5/2+)	0.42 ps 7	1416.48 13	(E2)			B(E2)(W.u.)=8.1 16
1611.6	(11/2+)	0.12 ps 3	1611.6 1	(M1+E2)	-0.85 15		B(E2)(W.u.)=8 3, B(M1)(W.u.)=0.025 8
1847.0	(7/2+)	0.08 ps +3-2	430.4	(M1(+E2))	+0.03 7		B(E2)(W.u.)=2 +7-2, B(M1)(W.u.)=0.27 +7-10
1847.0	(7/2+)	0.08 ps +3-2	1847.1	(M1+E2)	+1.7 13		B(E2)(W.u.)=10 +5-6, B(M1)(W.u.)=0.010 +12-10
1873.52	(5/2)+	0.21 ps 14	531.1	(M1+E2)	+0.07 3		B(E2)(W.u.)=14 +16-14, B(M1)(W.u.)=0.7 5
1931.6	(13/2+)	0.33 ps 4	319.9 4	(M1+E2)	+0.05 2		B(E2)(W.u.)=1.6 13, B(M1)(W.u.)=0.057 7
1931.6	(13/2+)	0.33 ps 4	1931.6 1	(E2)			B(E2)(W.u.)=2.8 4
1990.1	(9/2+)	0.23 ps 3	378.6	(M1+E2)	+0.13 5		B(E2)(W.u.)=30 +30-20, B(M1)(W.u.)=0.25 4
1990.1	(9/2+)	0.23 ps 3	1990.0	(M1+E2)	-0.24 8		B(E2)(W.u.)=0.17 11, B(M1)(W.u.)=0.0098 14
1991.8	(17/2+)	1.82 µs 5	60.2 2	E2		5.94	B(E2)(W.u.)=2.55 10, α=5.94 11, α(K)=4.79 9, α(L)=0.98 2, α(M)=0.159 4, α(N)=0.0135 3
2004.4	(7/2+)	0.21 ps 4	2003.8	(M1+E2)	+0.63 20		B(E2)(W.u.)=1.1 6, B(M1)(W.u.)=0.0093 25
2113.4	(9/2+)	0.63 ps 6	2113.6	(M1+E2)	+0.40 25		B(E2)(W.u.)=0.13 +15-13, B(M1)(W.u.)=0.0032 7
2135.1	(9/2+)	0.22 ps 3	2135.1	(M1(+E2))	+0.10 16		B(E2)(W.u.)=0.03 +9-3, B(M1)(W.u.)=0.0102 15
2137.34	(3/2,5/2)-	0.48 ps 21	263.84 17	[E1]			B(E1)(W.u.)=0.0010 6
2137.34	(3/2,5/2)-	0.48 ps 21	794.78 10	[E1]			B(E1)(W.u.)=0.00036 16
2144.9	(7/2+)	0.31 ps 6	271.2	(M1(+E2))	-0.06 6	0.0094	B(E2)(W.u.)=4.×10¹ +8-4, B(M1)(W.u.)=0.64 13, α=0.0094
	(7/2+)	0.31 ps 6	1004.7	(M1+E2)	-0.8 7		B(E2)(W.u.)=6 +7-6, B(M1)(W.u.)=0.008 6
	(7/2+)	0.31 ps 6	2144.6	(M1+E2)	-0.21 5		B(E2)(W.u.)=0.048 24, B(M1)(W.u.)=0.0043 9
2383.5	(7/2+)	0.08 ps 3	2383.5	(M1+E2)	+0.3 1		B(E2)(W.u.)=0.34 25, B(M1)(W.u.)=0.019 7
2636.7	(11/2+)	0.17 ps 3	523.3	(M1+E2)	-0.11 4		B(E2)(W.u.)=50 40, B(M1)(W.u.)=0.89 16
2814.9	(9/2+)	0.24 ps 6	967.9	(M1+E2)	+0.04 2		B(E2)(W.u.)=0.20 +21-20, B(M1)(W.u.)=0.10 3
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
3412.8	(13/2-)	0.69 ps 21	1801.1	(E1(+M2))	+0.03 3		B(E1)(W.u.)=9.E-5 3, B(M2)(W.u.)=0.11 +23-11

Q(β-)=687.0 keV 20	S(n)= 7112.3 keV 20	S(p)= 10986 keV 26	Q(α)= -7516.2 keV 24
Reference: 2012WA38

References:
A	⁸⁵Br β^- decay (2.90 M)	B	⁸⁵Kr IT decay (4.480 H)
C	⁸²Se(α,nγ)	D	⁸²Se(⁷Li,p3nγ)
E	⁸⁴Kr(n,γ),(n,n):Resonances	F	⁸⁴Kr(d,p),(pol d,p)
G	⁸⁶Kr(p,d)	H	⁸⁶Kr(d,t)
I	⁸⁶Kr(³He,α)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - γ cascade based on (17/2-)
3535.4 2	(17/2-)
3804.4 3	(19/2-)		269.0 1 1812.6 2	100 54	D+Q	3535.4 1991.8	(17/2-) (17/2+)
4111.4 3	(21/2-)		307.0 1	100	D	3804.4	(19/2-)
4790.6 4	(23/2-)		679.2 2	100	D+Q	4111.4	(21/2-)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	9/2+	10.739 y 14 % β^- = 100	μ=-1.005 2 (1995Ke04,2011StZZ), Q=+0.443 3 (1995Ke04,2001Ke15,2011StZZ) Configuration=νg_9/2^-1 (1989Wi01).
1223.98	(5/2-)	2.4 ps +6-4	J^π(level): From γ(θ) in (α,nγ).
1430.6	1/2+		E(level): From (α,nγ). From (d,p).
1611.6	(11/2+)	0.12 ps 3	J^π(level): From γ(θ) in (α,nγ).
1847.0	(7/2+)	0.08 ps +3-2	J^π(level): From γ(θ) in (α,nγ).
1873.52	(5/2)+	0.21 ps 14	E(level): From (α,nγ). From (d,p).
1931.6	(13/2+)	0.33 ps 4	J^π(level): From γ(θ) in (α,nγ).
1990.1	(9/2+)	0.23 ps 3	J^π(level): From γ(θ) in (α,nγ).
2004.4	(7/2+)	0.21 ps 4	XREF: I(2030). J^π(level): From γ(θ) in (α,nγ).
2113.4	(9/2+)	0.63 ps 6	J^π(level): From γ(θ) in (α,nγ).
2135.1	(9/2+)	0.22 ps 3	J^π(level): From γ(θ) in (α,nγ).
2144.9	(7/2+)	0.31 ps 6	J^π(level): From γ(θ) in (α,nγ).
2383.5	(7/2+)	0.08 ps 3	J^π(level): From γ(θ) in (α,nγ).
2497.9	(9/2-)		J^π(level): From γ(θ) in (α,nγ).
2513.4	(3/2+,5/2+)		J^π(level): Jπ=(3/2⁺,5/2⁺) from L=(2) in (d,p) for the 2513 and/or the 2534 level.
2534.3	(3/2+,5/2+)		E(level): From (α,nγ). From (d,p). J^π(level): Jπ=(3/2⁺,5/2⁺) from L=(2) in (d,p) for the 2513 and/or the 2534 level.
2617.9		0.42 ps 14	E(level): From (α,nγ). From (d,p).
2636.7	(11/2+)	0.17 ps 3	J^π(level): From γ(θ) in (α,nγ).
2814.9	(9/2+)	0.24 ps 6	J^π(level): From γ(θ) in (α,nγ).
3412.8	(13/2-)	0.69 ps 21	J^π(level): From γ(θ) in (α,nγ).
3535.4	(17/2-)		E(level): γ cascade based on (17/2-).
3804.4	(19/2-)		E(level): γ cascade based on (17/2-).
4111.4	(21/2-)		E(level): γ cascade based on (17/2-).
4790.6	(23/2-)		E(level): γ cascade based on (17/2-).
7112.81	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
E(level)	J^π(level)	T_1/2(level)	Comments
7113.45	(1/2-)		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7113.69	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7114.49	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7115.05			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7117.54	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7117.88			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7119.02			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7120.51			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7123.13	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7123.54			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7125.67			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7125.97			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7126.87			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7127.57			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7128.79	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7129.38			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7130.85			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7131.41			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7132.04			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7133.88	1/2		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7134.02			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7135.29			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7136.30	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7136.37			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7136.48			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
E(level)	J^π(level)	T_1/2(level)	Comments
7136.65			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7136.98			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7138.11	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7138.21			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7138.92			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7139.61			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7140.27			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7141.06			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7141.84			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7142.98			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7144.01			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7144.93	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7145.83			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7146.04			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7146.18			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7146.49			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7146.57			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7147.14			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7148.73			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7150.47	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7151.58			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7152.01			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7152.40			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7152.88	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7155.49			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
E(level)	J^π(level)	T_1/2(level)	Comments
7155.80			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7156.01			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7156.38			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7157.29			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7158.94			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7159.69			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7160.05			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7160.76	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7161.70			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7161.90			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7162.00			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7162.92			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7163.62	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7166.39			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7166.48			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7167.71			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7170.00			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7170.55			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7171.57			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7172.09			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7172.27			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7172.90	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7174.18			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7174.63			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7175.59			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
E(level)	J^π(level)	T_1/2(level)	Comments
7175.73			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7176.72			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7177.87	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7178.22			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7180.33			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7181.28			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7181.29	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7182.31			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7182.40			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7183.74			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7184.95			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7185.28			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7186.03			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7186.77			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7186.78	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7188.27			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7189.77			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7189.97			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7190.32			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7190.79			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7191.05			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7192.19			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7192.54			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7192.99			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7193.17			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
E(level)	J^π(level)	T_1/2(level)	Comments
7196.29			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7197.19			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7197.46	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7197.64			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7198.72			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7199.15			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7199.57			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7200.13			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7200.99			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7201.52	1/2+		E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr. J^π(level): From s-wave (or p-wave in two cases) assignment for neutron resonance.
7201.52			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7202.84			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7203.21			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7203.56			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7204.40			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7205.14			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7205.39			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7206.92			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7207.50			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7207.77			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7208.79			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7209.08			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7210.09			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7211.08			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7212.26			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
E(level)	J^π(level)	T_1/2(level)	Comments
7212.58			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7213.31			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7213.74			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7213.93			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7215.43			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7216.97			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7218.20			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7218.91			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7219.82			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7220.12			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7221.01			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7222.01			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.
7222.50			E(level): Excitation energy deduced from neutron resonance. Absolute energy uncertainty is 2 keV, same as in S(n) for ⁸⁵Kr.

E(level)	E(gamma)	Comments
1430.6	1125.7	E(γ): From (α,nγ). From (d,p).
1611.6	1611.6	E(γ): From (α,nγ). From (d,p).
1847.0	430.4	E(γ): From (α,nγ). From (d,p).
1847.0	1847.1	E(γ): From (α,nγ). From (d,p).
1873.52	531.1	E(γ): From (α,nγ). From (d,p).
1990.1	378.6	E(γ): From (α,nγ). From (d,p).
1990.1	1990.0	E(γ): From (α,nγ). From (d,p).
2004.4	588.3	E(γ): From (α,nγ). From (d,p).
2004.4	2003.8	E(γ): From (α,nγ). From (d,p).
2113.4	501.6	E(γ): From (α,nγ). From (d,p).
2113.4	2113.6	E(γ): From (α,nγ). From (d,p).
2135.1	2135.1	E(γ): From (α,nγ). From (d,p).
2144.9	271.2	E(γ): From (α,nγ). From (d,p).
	1004.7	E(γ): From (α,nγ). From (d,p).
	2144.6	E(γ): From (α,nγ). From (d,p).
2235.2	2235.2	E(γ): From (α,nγ). From (d,p).
2383.5	2383.5	E(γ): From (α,nγ). From (d,p).
2497.9	886.3	E(γ): From (α,nγ). From (d,p).
2497.9	1274.0	E(γ): From (α,nγ). From (d,p).
2534.3	1367.7	E(γ): From (α,nγ). From (d,p).
2534.3	1427.1	E(γ): From (α,nγ). From (d,p).
2602.4	598.0	E(γ): From (α,nγ). From (d,p).
2617.9	742.2	E(γ): From (α,nγ). From (d,p).
2617.9	1475.6	E(γ): From (α,nγ). From (d,p).
2636.7	523.3	E(γ): From (α,nγ). From (d,p).
E(level)	E(gamma)	Comments
2784.5	639.6	E(γ): From (α,nγ). From (d,p).
2814.9	967.9	E(γ): From (α,nγ). From (d,p).
2929.4	816.0	E(γ): From (α,nγ). From (d,p).
3139.2	1207.9	E(γ): From (α,nγ). From (d,p).
3139.2	1527.4	E(γ): From (α,nγ). From (d,p).
3193.0	1261.3	E(γ): From (α,nγ). From (d,p).
3412.8	915.0	E(γ): From (α,nγ). From (d,p).
3412.8	1801.1	E(γ): From (α,nγ). From (d,p).

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 F G H I	9/2+	10.739 y 14 % β^- = 100
304.871 20	A B C F G H I	1/2-	4.480 h 8 % IT = 21.2 5 % β^- = 78.8 5	304.87 2	100	M4	0.0	9/2+
1107.32 7	A C F G H I	1/2-,3/2-		802.41 10	100		304.871	1/2-
1140.73 7	A B C F I	5/2+	3.5 ps +28-14	1140.78 9	100	[E2]	0.0	9/2+
1166.69 6	A C G I	(1/2,3/2,5/2-)		861.76 8	100		304.871	1/2-
1223.98 7	A C G	(5/2-)	2.4 ps +6-4	919.06 8	100	(E2)	304.871	1/2-
1342.61 5	A C F	(3/2+)		175.91 7 201.87 9 235.58 25 1037.83 8	56 3 23.1 18 8.3 26 100 8		1166.69 1140.73 1107.32 304.871	(1/2,3/2,5/2-) 5/2+ 1/2-,3/2- 1/2-
1416.57 9	A C G H	(5/2+)	0.42 ps 7	249.94 10 1416.48 13	30.9 17 100 8	[E1] (E2)	1166.69 0.0	(1/2,3/2,5/2-) 9/2+
1430.6 10	C F G H	1/2+		1125.7			304.871	1/2-
1611.6 1	C D	(11/2+)	0.12 ps 3	1611.6 1	100	(M1+E2)	0.0	9/2+
1847.0 10	C I	(7/2+)	0.08 ps +3-2	430.4 1847.1	8.4 100	(M1(+E2)) (M1+E2)	1416.57 0.0	(5/2+) 9/2+
1873.52 18	B C F	(5/2)+	0.21 ps 14	531.1	100	(M1+E2)	1342.61	(3/2+)
1931.6 1	C D	(13/2+)	0.33 ps 4	319.9 4 1931.6 1	2.9 100	(M1+E2) (E2)	1611.6 0.0	(11/2+) 9/2+
1938.83 9	A	(1/2+,3/2,5/2)		771.71 33 798.35 18 831.48 7	24 7 93 12 100 10		1166.69 1140.73 1107.32	(1/2,3/2,5/2-) 5/2+ 1/2-,3/2-
1990.1 8	C G I	(9/2+)	0.23 ps 3	378.6 1990.0	17 100	(M1+E2) (M1+E2)	1611.6 0.0	(11/2+) 9/2+
1991.8 2	C D	(17/2+)	1.82 µs 5	60.2 2	100	E2	1931.6	(13/2+)
2004.4 7	C G H I	(7/2+)	0.21 ps 4	588.3 2003.8	100	(M1+E2)	1416.57 0.0	(5/2+) 9/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2031.96 8	A G H	1/2-,3/2-,5/2-		689.39 8 865.22 8 924.63 8 1727.02 11	2.5 4 10.9 6 100 5 23.4 10		1342.61 1166.69 1107.32 304.871	(3/2+) (1/2,3/2,5/2-) 1/2-,3/2- 1/2-
2055.1 9	F G H	3/2+
2113.4 8	C G	(9/2+)	0.63 ps 6	501.6 2113.6	100	(M1+E2)	1611.6 0.0	(11/2+) 9/2+
2135.1 10	C G	(9/2+)	0.22 ps 3	2135.1	100	(M1(+E2))	0.0	9/2+
2137.34 7	A C	(3/2,5/2)-	0.48 ps 21	263.84 17 794.78 10 913.31 9 1029.65 26 1832.50 10	7.1 22 69 5 90 6 15 3 100 5	[E1] [E1]	1873.52 1342.61 1223.98 1107.32 304.871	(5/2)+ (3/2+) (5/2-) 1/2-,3/2- 1/2-
2144.9 6	C G	(7/2+)	0.31 ps 6	271.2 1004.7 2144.6	29 31 100	(M1(+E2)) (M1+E2) (M1+E2)	1873.52 1140.73 0.0	(5/2)+ 5/2+ 9/2+
2235.2 10	C H			2235.2	100		0.0	9/2+
2383.5 10	C	(7/2+)	0.08 ps 3	2383.5	100	(M1+E2)	0.0	9/2+
2425 50	G I	(5/2-,7/2-)
2497.9 8	C	(9/2-)		886.3 1274.0	100	(E2)	1611.6 1223.98	(11/2+) (5/2-)
2513.4 16	F	(3/2+,5/2+)
2534.3 19	C F	(3/2+,5/2+)		1367.7 1427.1			1166.69 1107.32	(1/2,3/2,5/2-) 1/2-,3/2-
2573.7 22	F
2593 4	F
2602.4 13	C			598.0	100		2004.4	(7/2+)
2617.9 20	C F		0.42 ps 14	742.2 1475.6			1873.52 1140.73	(5/2)+ 5/2+
2636.7 13	C	(11/2+)	0.17 ps 3	523.3	100	(M1+E2)	2113.4	(9/2+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2742.1 12	F	1/2+
2784.5 12	C G			639.6			2144.9	(7/2+)
2797.7 12	F G	3/2+,5/2+
2814.9 15	C G	(9/2+)	0.24 ps 6	967.9	100	(M1+E2)	1847.0	(7/2+)
2845.1 12	F G	(5/2)+
2866.4 14	F G	1/2+
2929.4 13	C			816.0	100		2113.4	(9/2+)
3060.9 13	F G	3/2+
3079.4 18 ?	F	(3/2+,5/2+)
3113.9 15	F	1/2+
3139.2 9	C	(9/2+:15/2+)	0.31 ps +10-3	1207.9 1527.4			1931.6 1611.6	(13/2+) (11/2+)
3153.5 22	F G	1/2+
3193.0 4	C D	(15/2,17/2+)	0.19 ps 3	1261.3 4	100		1931.6	(13/2+)
3285.1 19	F	(1/2+)
3300.4 21	F	(7/2+,9/2,11/2-)
3320.4 21	F	7/2+,9/2+
3340.6 19	F G	3/2+,5/2+
3355.8 19	F G	(1/2+)
3402.0 18	F G	(1/2+,7/2+,9/2+)
3412.8 9	C	(13/2-)	0.69 ps 21	915.0 1801.1	100	(E1(+M2))	2497.9 1611.6	(9/2-) (11/2+)
3420.2 19	F G	(1/2+,7/2+,9/2+)
3470.6 17	F	(7/2+,9/2,11/2-)
3535.4 2	D	(17/2-)		342.4 4 1543.6 1	≈4 100	D	3193.0 1991.8	(15/2,17/2+) (17/2+)
3545.9 22	F G
3575.4 24	F G	3/2+,5/2+
3592.2 23	F G	3/2+,5/2+
3638.0 17	F	1/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3729 3	F G	1/2+
3745 3	F G	3/2+,5/2+
3802 3	F	3/2+,5/2+
3804.4 3	C D	(19/2-)		269.0 1 1812.6 2	100 54	D+Q	3535.4 1991.8	(17/2-) (17/2+)
3872.8 22	F
3912.1 18	F
3927.1 20	F	1/2+
3945.3 20	F
3974.9 21	F G
4033.0 23	F G	3/2+,5/2+
4046.3 24	F G
4111.4 3	C D	(21/2-)		307.0 1	100	D	3804.4	(19/2-)
4146 10	F	1/2+
4335 10	F	3/2+,5/2+
4450 10	F	3/2+,5/2+
4547 10	F	3/2+,5/2+
4623 10	F
4692 10	F
4790.6 4	D	(23/2-)		679.2 2	100	D+Q	4111.4	(21/2-)
7112.81	E	1/2+
7113.45	E	(1/2-)
7113.69	E	1/2+
7114.49	E	1/2+
7115.05	E
7117.54	E	1/2+
7117.88	E
7119.02	E
7120.51	E
7123.13	E	1/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7123.54	E
7125.67	E
7125.97	E
7126.87	E
7127.57	E
7128.79	E	1/2+
7129.38	E
7130.85	E
7131.41	E
7132.04	E
7133.88	E	1/2
7134.02	E
7135.29	E
7136.30	E	1/2+
7136.37	E
7136.48	E
7136.65	E
7136.98	E
7138.11	E	1/2+
7138.21	E
7138.92	E
7139.61	E
7140.27	E
7141.06	E
7141.84	E
7142.98	E
7144.01	E
7144.93	E	1/2+
7145.83	E
7146.04	E
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7146.18	E
7146.49	E
7146.57	E
7147.14	E
7148.73	E
7150.47	E	1/2+
7151.58	E
7152.01	E
7152.40	E
7152.88	E	1/2+
7155.49	E
7155.80	E
7156.01	E
7156.38	E
7157.29	E
7158.94	E
7159.69	E
7160.05	E
7160.76	E	1/2+
7161.70	E
7161.90	E
7162.00	E
7162.92	E
7163.62	E	1/2+
7166.39	E
7166.48	E
7167.71	E
7170.00	E
7170.55	E
7171.57	E
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7172.09	E
7172.27	E
7172.90	E	1/2+
7174.18	E
7174.63	E
7175.59	E
7175.73	E
7176.72	E
7177.87	E	1/2+
7178.22	E
7180.33	E
7181.28	E
7181.29	E	1/2+
7182.31	E
7182.40	E
7183.74	E
7184.95	E
7185.28	E
7186.03	E
7186.77	E
7186.78	E	1/2+
7188.27	E
7189.77	E
7189.97	E
7190.32	E
7190.79	E
7191.05	E
7192.19	E
7192.54	E
7192.99	E
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7193.17	E
7196.29	E
7197.19	E
7197.46	E	1/2+
7197.64	E
7198.72	E
7199.15	E
7199.57	E
7200.13	E
7200.99	E
7201.52	E	1/2+
7201.52	E
7202.84	E
7203.21	E
7203.56	E
7204.40	E
7205.14	E
7205.39	E
7206.92	E
7207.50	E
7207.77	E
7208.79	E
7209.08	E
7210.09	E
7211.08	E
7212.26	E
7212.58	E
7213.31	E
7213.74	E
7213.93	E
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7215.43	E
7216.97	E
7218.20	E
7218.91	E
7219.82	E
7220.12	E
7221.01	E
7222.01	E
7222.50	E
12900	G	(3/2-)
13300	G	(5/2-)
14200	G	(1/2-)