List of levels for 26MG

Authors: M.S. Basunia and A.M. Hurst | Citation: Nucl. Data Sheets 134, 1 (2016) | Cutoff date: 1-Feb-2016

Other reactions:

¹⁴C(¹⁴C,2nγ): 2002Ta10

²⁴Mg(¹⁸O,¹⁶O): 1980Be43

²⁶Mg(π+,π+),(π+,π-): 1993Cl07

²⁶Mg(n,n),(n,n’): 1983Ta09

²⁶Mg(d,d): 1987Nu01,1983Vo08,1979To20

²⁶Mg(t,t): 1987Pe09,1986Pe13,1983Ko18,1982Sc21

²⁶Mg(³He,³He): 1989Va09,1982Ve13,1980Tr02

²⁶Mg(HI,HI): 1989Ru05,1988Ot08,1987Wi09,1986Ci06,1982Fu09, 1982Sp05,1981Fu04,1980St06.

²⁷Al(¹³C,¹⁴N): 1988Va08,1987Ad07

²⁸Si(¹⁸O,²⁰Ne): 1979Me12

²⁹Si(n,α): 2011Zh22,2010Zh44

²⁰⁸Pb(²⁶Mg,²⁶Mg), E=200 MeV: 1991He09

Production cross section 0.394 mb 44, from ¹³⁶Xe spallation by proton - 2007Na31.

²⁶Mg from bombarding ²⁸Si with protons, E=1 GeV, and 2p emission - 2004Va22

²⁶Mg from fragmentation reactions at relativistic energies - 2001Ge05.

E(level): From a least-squares fit to γ-ray energies, except otherwise noted. γ rays without uncertainty were calculated after the fit. Source of excited level energies for particle data sets are noted. During least-squares fit, the uncertainty for 1384.70γ from 5716 keV level 958.81γ from 4901 keV level were doubled to obtain the χ² value below normalized χ²=1.33. Yet 892.85γ from 4835, 569.67γ from 4901, 2776.82γ from 5716, and 1223.35γ from 6125 yield poor fit including aforementioned γ rays.

T_1/2(level): From 1986Gl06 (α,pγ), except otherwise noted.

E(γ): From (n,γ), except otherwise noted.

I(γ): Relative photon branching from each level.

M(γ): Based on reported mixing ratio and RUL. Details are noted as comments.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
1808.74	2+	476 fs 21	1808.68 4	E2		B(E2)(W.u.)=13.4 6
2938.33	2+	141 fs 8	1129.61 4	M1+E2	-0.12 2	B(E2)(W.u.)=6.1 21, B(M1)(W.u.)=0.096 6
2938.33	2+	141 fs 8	2938.15 5	E2		B(E2)(W.u.)=0.39 4
3588.56	0+	6.45 ps 48	1779.74 8	E2		B(E2)(W.u.)=1.07 8
3941.57	3+	0.83 ps 12	1003.25 4	M1+E2	-0.05 4	B(E2)(W.u.)=0.23 +37-22, B(M1)(W.u.)=0.0162 24
3941.57	3+	0.83 ps 12	2132.71 4	M1		B(M1)(W.u.)=0.00104 16
4318.89	4+	272 fs 16	2510.01 5	[E2]		B(E2)(W.u.)=4.5 3
4332.52	2+	20 fs 3	4332.2 3	[E2]		B(E2)(W.u.)=0.24 5
4350.09	3+	105 fs 28	1411.72 4	M1+E2	-0.31 6	B(E2)(W.u.)=9 4, B(M1)(W.u.)=0.033 9
4350.09	3+	105 fs 28	2541.18 6	M1+E2	-0.10 4	B(E2)(W.u.)=0.06 5, B(M1)(W.u.)=0.0066 18
4835.13	2+	28 fs 6	1896.72 5	M1		B(M1)(W.u.)=0.096 21
4835.13	2+	28 fs 6	4834.61 18	E2		B(E2)(W.u.)=0.15 4
4901.44	4+	29 fs 6	1962.99 24	[E2]		B(E2)(W.u.)=2.5 6
4901.44	4+	29 fs 6	3092.31 11	[E2]		B(E2)(W.u.)=14 3
4972.30	0+	446 fs 70	2033.88 12	E2		B(E2)(W.u.)=7.4 13
4972.30	0+	446 fs 70	3163.35	E2		B(E2)(W.u.)=0.06 4
5291.74	2+	< 10 fs	1350.20 16	[M1]		B(M1)(W.u.)>0.026
5291.74	2+	< 10 fs	5291.1 5	E2		B(E2)(W.u.)>0.10
5476.05	4+	21 fs 6	1157.23 6	M1+E2	+0.09 7	B(E2)(W.u.)=12 +19-11, B(M1)(W.u.)=0.34 10
	4+	21 fs 6	1534.49 15	M1+E2	-0.27 4	B(E2)(W.u.)=12 5, B(M1)(W.u.)=0.071 22
	4+	21 fs 6	3667.4 5	[E2]		B(E2)(W.u.)=1.1 4
5715.91	4+	53 fs 16	1365.54 20	M1+E2	-0.17 3	B(E2)(W.u.)=3.1 14, B(M1)(W.u.)=0.036 10
	4+	53 fs 16	1774.0 9	M1+E2	-0.12 4	B(E2)(W.u.)=0.4 2, B(M1)(W.u.)=0.017 5
	4+	53 fs 16	2776.82 20	[E2]		B(E2)(W.u.)=1.7 5
6125.47	3+	14 fs 6	1775.31 5	[M1]		B(M1)(W.u.)=0.20 9
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
6256.2	0+	53 fs 31	4447.1	E2		B(E2)(W.u.)=1.2 8
6622.94	(4+)	19 fs 5	1146.9	[M1]		B(M1)(W.u.)=0.063 18
	(4+)	19 fs 5	1721.39 20	M1(+E2)	-0.26 +60-10	B(E2)(W.u.)=12 +52-8, B(M1)(W.u.)=0.09 4
	(4+)	19 fs 5	2290.2 3	[E2]		B(E2)(W.u.)=12 4
6876.42	3-	83 fs 35	2934.8 6	[E1]		B(E1)(W.u.)=1.1E-5 5
6978.3	(5+)	14 fs 5	1501.8 10	M1+E2	-0.21 5	B(E2)(W.u.)=24 15, B(M1)(W.u.)=0.22 9
	(5+)	14 fs 5	2076.8	M1+E2	-1.0 6	B(E2)(W.u.)=13 9, B(M1)(W.u.)=0.010 7
	(5+)	14 fs 5	2628.1	[E2]		B(E2)(W.u.)=3.2 14
	(5+)	14 fs 5	2660.0 20	M1+E2	-0.4 2	B(E2)(W.u.)=1.5 12, B(M1)(W.u.)=0.012 5
	(5+)	14 fs 5	3036.5	E2		B(E2)(W.u.)=4.8 19
7061.90	1-	≤ 7 fs	3472.9 3	[E1]		B(E1)(W.u.)>0.00089
7061.90	1-	≤ 7 fs	5252.9 3	[E1]		B(E1)(W.u.)>0.00015
7282.82	(4-)	24 fs 8	2963.61 9	(E1+M2)	+0.5 4	B(E1)(W.u.)=0.00031 15, B(M2)(W.u.)=4.×10¹ +6-3
7282.82	(4-)	24 fs 8	3341.01 7	[E1]		B(E1)(W.u.)=0.00043 15
7396.0	(5+)	≤ 14 fs	1680.0 10	(M1+E2)	-0.14 2	B(E2)(W.u.)>4.6, B(M1)(W.u.)>0.16
7950.0	5-	14 fs 6	2234.0 20	E1+M2	-0.19 15	B(E1)(W.u.)=0.0015 7, B(M2)(W.u.)=5.×10¹ +8-4
7950.0	5-	14 fs 6	3633.8 10	E1+M2	+0.13 11	B(E1)(W.u.)=0.0008 4, B(M2)(W.u.)=5 +8-4
8472.3	(6+)	≤ 14 fs	1494.0 14	D+Q	-0.32 10
8625	5-	29 fs 6	2002	E1+M2	+0.03 1	B(E1)(W.u.)=0.0028 6, B(M2)(W.u.)=2.9 21
8625	5-	29 fs 6	4305.7	E1		B(E1)(W.u.)=5.1E-5 16
8670	(3,5)	≤ 7 fs	3193.7	D+Q	+0.5 LT
8670	(3,5)	≤ 7 fs	4350.7	D+Q	+0.13 LT
9064	5+	≤ 7 fs	1668	D+Q	+0.6 4
9111.2	6+	≤ 11 fs	1715	[M1]		B(M1)(W.u.)>0.032
	6+	≤ 11 fs	2488	[E2]		B(E2)(W.u.)>9.4
	6+	≤ 11 fs	3635	[E2]		B(E2)(W.u.)>8.8
	6+	≤ 11 fs	4209.4	[E2]		B(E2)(W.u.)>1.4
	6+	≤ 11 fs	4792	[E2]		B(E2)(W.u.)>0.80
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
9169	(6-)	26 fs 8	1218.7 23	M1+E2	-0.14 6	B(E2)(W.u.)=18 17, B(M1)(W.u.)=0.25 8
	(6-)	26 fs 8	1773	E1+M2	+0.07 5	B(E1)(W.u.)=0.0011 4, B(M2)(W.u.)=8 +12-7
	(6-)	26 fs 8	1886	[E2]		B(E2)(W.u.)=26 10
	(6-)	26 fs 8	2190.6	[E1]		B(E1)(W.u.)=0.00034 13
9238.9	1(+)	314 as 40	9237.1 8	M1		B(M1)(W.u.)=0.072 9
9383	6+	≤ 7 fs	2404.6	D+Q	-0.14 6
9540.3	5+	≤ 14 fs	5221.0 20	D+Q	+0.06 5
9829.5	(5,7)+	37 fs 10	1628.3 12	M1(+E2)	+0.24 LT	B(E2)(W.u.)<18, B(M1)(W.u.)>0.084
9989	(6+)	≤ 7 fs	1517	(M1+E2)	-0.17 10	B(M1)(W.u.)>0.15
	(6+)	≤ 7 fs	3011	(M1+E2)	-0.09 5	B(M1)(W.u.)>0.078
	(6+)	≤ 7 fs	5669.5	[E2]		B(E2)(W.u.)>0.42

Q(β-)=-4004.43 keV 6	S(n)= 11093.09 keV 4	S(p)= 14145.7 keV 12	Q(α)= -10614.8 keV 1
Reference: 2012WA38

References:
A	²⁶Na β^- decay	B	²⁶Al ε decay (7.17×10⁵ Y)
C	²⁶Al ε decay (6.3460 S)	D	²⁷Na β^-n decay
E	¹⁸O(¹³C,αnγ)	F	²²Ne(⁶Li,d)
G	²³Na(α,pγ)	H	²⁴Mg(t,p)
I	²⁵Mg(n,γ) E=THERMAL	J	²⁵Mg(n,γ),(n,n):RES
K	²⁵Mg(d,p)	L	²⁵Mg(α,³He)
M	²⁶Mg(pol γ,γ’),(γ,γ’)	N	²⁶Mg(γ,n):RES
O	²⁶Mg(E,E’)	P	²⁶Mg(p,p’),(p,p’γ)
Q	²⁶Mg(α,α’γ),²²Ne(α,n)	R	²⁷Al(μ^-,νnγ)
S	²⁷Al(d,³He)	T	²⁷Al(t,α)
U	²⁸Si(μ^-,NUPNG)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	Charge radius=2.99 fm 4 (2014Wa14). Matter radius=3.0340 fm 26 quoted in 2012Yo01 from literature. E(level): Charge radius=2.99 fm 4 (2014Wa14). Matter radius=3.0340 fm 26 quoted in 2012Yo01 from literature.
6978.3	(5+)	14 fs 5	E(level): From 1986Gl06 (α,pγ).
7246.49	3+	≤ 7 fs	E(level): From 1986Gl06 (α,pγ). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
7261.40		≤ 7 fs	XREF: t(7252).
7371.36	2+		J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
7396.0	(5+)	≤ 14 fs	E(level): From 1986Gl06 (α,pγ).
7428	(0,1)+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
7677	(4+)	≤ 11 fs	E(level): From 1986Gl06 (α,pγ).
7725.8	3+		XREF: t(7716). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
7773.7	(4+)	≤ 7 fs	XREF: t(7762). E(level): From 1986Gl06 (α,pγ).
7817.8	(2,3)+		E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
7824	3-		E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
7840	2+		E(level): From 1986Gl06 (α,pγ).
7950.0	5-	14 fs 6	E(level): From 1986Gl06 (α,pγ).
8034			L=6 in (p,p’),(p,p’γ) probably erroneous. E(level): L=6 in (p,p’),(p,p’γ) probably erroneous. Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
8184.93	3-		J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
8227.31	1-	1.0 fs 2	XREF: H(8240). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations. T_1/2(level): Deduced by evaluators from Γ₀ in 1984Be26 - (γ,γ’).
8250.58	(3+)		J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
8399			XREF: t(8384).
8458.9	3+		J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
8472.3	(6+)	≤ 14 fs	E(level): From 1986Gl06 (α,pγ).
8503.7	1-		XREF: t(8488).
8532.1	(2+)		XREF: t(8518). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
8576			XREF: t(8566). E(level): From 1976Mo27 - (p,p’),(p,p’γ).
8625	5-	29 fs 6	XREF: t(8611). E(level): From 1986Gl06 (α,pγ).
E(level)	J^π(level)	T_1/2(level)	Comments
8670	(3,5)	≤ 7 fs	XREF: t(8660). E(level): From 1986Gl06 (α,pγ).
8903.52	(2+)		XREF: L(8914)t(8889). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
8930			XREF: t(8917). E(level): From 1986Gl06 (α,pγ).
9020			E(level): From 1986Gl06 (α,pγ).
9043.4	3(+)		J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
9064	5+	≤ 7 fs	E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
9111.2	6+	≤ 11 fs	E(level): From 1986Gl06 (α,pγ).
9169	(6-)	26 fs 8	E(level): From 1986Gl06 (α,pγ). J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.
9206			E(level): From 1986Gl06 (α,pγ).
9238.9	1(+)	314 as 40	XREF: L(9256). T_1/2(level): Deduced by evaluators from Γ₀ in 1984Be26 - (γ,γ’).
9261	(4+)		E(level): From 1986Gl06 (α,pγ).
9281	(2+)		E(level): From 1976Mo27 - (p,p’),(p,p’γ). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
9291			E(level): From 1986Gl06 (α,pγ).
9316			E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
9371	4+		E(level): From 1986Gl06 (α,pγ).
9383	6+	≤ 7 fs	E(level): From 1986Gl06 (α,pγ).
9427.8	3+		J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
9471	(1 TO 5)+		E(level): From 1986Gl06 (α,pγ).
9540.3	5+	≤ 14 fs	E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
9563.5	1+	563 as 99	T_1/2(level): Deduced by evaluators from Γ₀ in 1984Be26 - (γ,γ’).
9579	4+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
9681	(0 TO 5)+		E(level): From 1986Gl06 (α,pγ).
9714			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
9771			E(level): From 1986Gl06 (α,pγ).
9779	1+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
E(level)	J^π(level)	T_1/2(level)	Comments
9814			E(level): From 1986Gl06 (α,pγ).
9829.5	(5,7)+	37 fs 10	E(level): From 1986Gl06 (α,pγ).
9856.8	2+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
9883			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
9900.3	3+		E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)). J^π(level): From (e,e’), based on form factors, γ decay and shell model calculations.
9927			E(level): From 1986Gl06 (α,pγ).
9939			E(level): From 1986Gl06 (α,pγ).
9967	2+		E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
9982			E(level): From 1986Gl06 (α,pγ).
9989	(6+)	≤ 7 fs	E(level): From 1986Gl06 (α,pγ).
10040	5-		E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
10069			E(level): From 1986Gl06 (α,pγ).
10126.7	4+		XREF: γ(10122)H(10108).
10147.1	1+	112 as 15	T_1/2(level): Deduced by evaluators from Γ₀ in 1984Be26 - (γ,γ’).
10159	0+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10184			E(level): From 1986Gl06 (α,pγ).
10271	2+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10319.5	1+	345 as 83	T_1/2(level): Deduced by evaluators from Γ₀ in 1984Be26 - (γ,γ’).
10341			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10414	4+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10487			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10493	2+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10516	(2+)		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10529			E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
10600.1	(1+ TO 4+)		XREF: γ(10590).
E(level)	J^π(level)	T_1/2(level)	Comments
10647.3	1+	97 as 5	T_1/2(level): Deduced by evaluators from Γ₀ in 1984Be26 - (γ,γ’).
10707			E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
10767			E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
10824	(2+)		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10927	+		E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10945			E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
10978			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
10998			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
11012			E(level): Weighted average of data from (1976Mo27 - (p,p’)) and (1986Gl06 - (α,pγ)).
11153.5	1+		J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11162.93	2+	5.08 keV 8	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11169.30	(3+)	1.56 keV 8	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11171			E(level): From 1976Mo27 - (p,p’),(p,p’γ).
11183.06	(1-)	0.6 eV 2	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11189.24	3+	5.24 keV 4	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11243.36	(2-)	5.520 keV 20	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11274.13	(2)+	0.590 keV 20	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11280.03	4(-)	1.730 keV 20	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11285.52	1-	1.41 keV 6	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11286.24	(2+)	0.7 eV 7	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11289.06	(2-)	2 eV 1	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11310.57	(1-)	0.4 eV 2	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11328.20	(1-)	50 eV 20	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11336.88	(1-)	0.1 eV 1	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11344.77	4(-)	3.49 keV 6	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
E(level)	J^π(level)	T_1/2(level)	Comments
11361.84	(2+)	3.29 keV 5	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11392.57	(5+)	240 eV 10	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11441.08	4+	2.020 keV 40	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11465.62	(5-)	8.91 keV 8	XREF: Q(11461). J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11500.09	(1-)	25 eV 10	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11526.82	(3-)	3.00 keV 10	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11587.99	(2-)	1.80 keV 10	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11608.29	(4-)	0.84 keV 4	J^π(level): Assignment in 2012Ma14 (n,γ),(n,n):res, based on R-matrix analysis.
11945	(6-)		J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.
12479	(6-)		XREF: L(12512). E(level): From 1986Gl06 (α,pγ). J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.
12865	(6-)		J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.
14542	(6-)		J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.
16580	(6-)		J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.
18050	(6-)		T=2 J^π(level): From 1989Se01 (pol p,p’), based on measured angular distributions and analyzing power.

E(level)	E(gamma)	Comments
3082.9	1274.1	E(γ): From (¹³C,αnγ)
3420.2	1611.4	E(γ): From (¹³C,αnγ) M(γ): From (¹³C,αnγ)
3564.9	1756.1	E(γ): From (¹³C,αnγ)
4350.09	409.4	E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided
4644.9	2836.0	E(γ): From (¹³C,αnγ) M(γ): From (¹³C,αnγ)
4835.13	485.05	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	502.73	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): 2.1 4 in (n,γ). From ²⁶Na β^- decay (2005Gr07)
	892.85	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	1896.72	I(γ): From ²⁶Na β^- decay (2005Gr07)
	3026.6	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): 4.8 5 in (n,γ). From ²⁶Na β^- decay (2005Gr07)
	4834.61	I(γ): 13.1 12 in (n,γ). From ²⁶Na β^- decay (2005Gr07)
4901.44	551.28	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	569.67	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	582.46	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	958.81	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	1962.99	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
4972.30	3163.35	I(γ): γ-ray branching from (α,pγ) 1986Gl06
5180.5	1238.9	E(γ): From (¹³C,αnγ)
5291.74	456.0	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
5291.74	3482.2	E(γ): Weighted average of data from (n,γ) and ²⁶Na β^- decay (2005Gr07)
5476.05	640.5	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
5476.05	3667.4	E(γ): Weighted average of data from (n,γ) and ²⁶Na β^- decay (2005Gr07)
5711.2	2122.5	E(γ): From (¹³C,αnγ)
5715.91	240.12	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	424.3	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	1365.54	I(γ): From ²⁶Na β^- decay (2005Gr07)
	1384.70	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2776.82	I(γ): From ²⁶Na β^- decay (2005Gr07)
	3906.8	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
E(level)	E(gamma)	Comments
6125.47	409.4	E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided
	833.47	E(γ): Unweighted average of data from (n,γ) and ²⁶Na β^- decay (2005Gr07)
	1223.35	E(γ): From ²⁶Na β^- decay (2005Gr07)
6256.2	565.1	E(γ): From (¹³C,αnγ)
6483.2	1302.7	E(γ): From (¹³C,αnγ)
6622.94	1146.9	E(γ): From level energy differences. Recoil energy subtracted. I(γ): γ-ray branching from (α,pγ) 1986Gl06
	1721.39	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2272.7	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2290.2	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2304.2	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): Other: 23 4 (α,pγ). From ²⁶Na β^- decay (2005Gr07)
	4813.7	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
6634.2	4825.0	E(γ): From level energy differences. Recoil energy subtracted. I(γ): γ-ray branching from (α,pγ) 1986Gl06
6745.13	1453.16	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	3807.0	E(γ): Weighted average of data from (n,γ) and ²⁶Na β^- decay (2005Gr07) I(γ): Other: 59 6 (n,γ). From ²⁶Na β^- decay (2005Gr07)
	4936.3	I(γ): From ²⁶Na β^- decay (2005Gr07)
	6743.9	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
6951.7	1771.1	E(γ): From (¹³C,αnγ)
6971.8	3030.0	E(γ): From (¹³C,αnγ) M(γ): From (¹³C,αnγ)
6978.3	1263.7	E(γ): From (¹³C,αnγ)
	1501.8	E(γ): From (¹³C,αnγ)
	2660.0	E(γ): From (¹³C,αnγ)
7099.68	7098.9	I(γ): Other: 26 4 - ²⁶Na β^- decay (2005Gr07)
7246.49	1953.6	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2411.5	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): Other: 40 8 (α,pγ). From ²⁶Na β^- decay (2005Gr07)
	2896.4	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2913.7	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): Other: 100 16 (α,pγ). From ²⁶Na β^- decay (2005Gr07)
	2927.2	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): Other: 76 16 (α,pγ). From ²⁶Na β^- decay (2005Gr07)
	3304.6	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): Other: 96 16 (α,pγ). From ²⁶Na β^- decay (2005Gr07)
	4308.1	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	5436.1	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
E(level)	E(gamma)	Comments
7371.36	1245.68	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	2080.0	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	3021.9	E(γ): Weighted average of data from (n,γ) and ²⁶Na β^- decay (2005Gr07)
	3039.1	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
	3428.7	E(γ): Other: 3430.2 5 (2005Gr07) - ²⁶Na β^- decay
7396.0	1680.0	E(γ): From (¹³C,αnγ)
7696.8	4757.6	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
	5887.9	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
	7695.6	I(γ): From (pol γ,γ’),(γ,γ’)
7725.8	3406.9	E(γ): From ²⁶Na β^- decay (2005Gr07)
	3783.7	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): Other: 50 7 - (2005Gr07) - ²⁶Na β^- decay
	5915.5	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
7773.7	3454.7	E(γ): From ²⁶Na β^- decay (2005Gr07)
7773.7	3831.7	E(γ): From ²⁶Na β^- decay (2005Gr07)
7817.8	3485.0	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
7817.8	6008.7	E(γ): From ²⁶Na β^- decay (2005Gr07) I(γ): From ²⁶Na β^- decay (2005Gr07)
7950.0	2234.0	E(γ): From (¹³C,αnγ)
7950.0	3633.8	E(γ): From (¹³C,αnγ)
8201.1	1223.0	M(γ): From (α,pγ) - 1986Gl06.
8472.3	1494.0	E(γ): From (¹³C,αnγ) M(γ): From (α,pγ) - 1986Gl06.
8625	4305.7	M(γ): From (α,pγ) and recommended upper limits for γ-ray transition strengths.
8705.6	3229.3	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	4386.3	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	4763.6	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	5766.6	I(γ): γ-ray branching from (α,pγ) 1986Gl06
E(level)	E(gamma)	Comments
8959.4	7149.4	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
8959.4	8957.7	I(γ): From (pol γ,γ’),(γ,γ’)
9064	1668	M(γ): From (α,pγ) - 1986Gl06.
9064	4744.7	M(γ): From (α,pγ) - 1986Gl06.
9111.2	1715	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	2488	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	3635	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	4209.4	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	4792	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9169	1218.7	E(γ): From (¹³C,αnγ) I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) and recommended upper limits for γ-ray transition strengths.
	1773	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) and recommended upper limits for γ-ray transition strengths.
	1886	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	2190.6	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9238.9	5649.5	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
9238.9	9237.1	I(γ): From (pol γ,γ’),(γ,γ’)
9383	1182	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	2404.6	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
	2759.9	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
	3666.8	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
	5063.6	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9540.3	2562	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
	3824.0	E(γ): From (¹³C,αnγ) I(γ): γ-ray branching from (α,pγ) 1986Gl06
	4638.4	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	5221.0	E(γ): From (¹³C,αnγ) I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
9563.5	7753.1	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
9563.5	9561.6	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
E(level)	E(gamma)	Comments
9590	6651	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9590	7780	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9770.8	7961.1	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
9770.8	9768.8	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
9771	4869	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9771	5452	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9829.5	1357.2	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	1628.3	E(γ): From (¹³C,αnγ) I(γ): γ-ray branching from (α,pγ) 1986Gl06
	2433.4	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9967	5065	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9967	7028	I(γ): γ-ray branching from (α,pγ) 1986Gl06
9989	1517	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
	3011	I(γ): γ-ray branching from (α,pγ) 1986Gl06 M(γ): From (α,pγ) - 1986Gl06.
	5669.5	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10040	4323.7	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	5138.0	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	5720.4	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10147.1	8337.9	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
10147.1	10145.0	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
10319.5	7378.4	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
10319.5	10317.3	E(γ): From (pol γ,γ’),(γ,γ’) I(γ): From (pol γ,γ’),(γ,γ’)
10529	4813	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10529	6196	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10573.3	5600.4	I(γ): From (pol γ,γ’),(γ,γ’)
10573.3	10571.0	I(γ): From (pol γ,γ’),(γ,γ’)
E(level)	E(gamma)	Comments
10576	2044	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10576	3597	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10647.3	3547.4	I(γ): From (pol γ,γ’),(γ,γ’)
	5355.0	I(γ): From (pol γ,γ’),(γ,γ’)
	5674.4	I(γ): From (pol γ,γ’),(γ,γ’)
	7707.7	I(γ): From (pol γ,γ’),(γ,γ’)
	8837.0	I(γ): From (pol γ,γ’),(γ,γ’)
	10645.0	I(γ): From (pol γ,γ’),(γ,γ’)
10650	1481	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10650	3254	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10767	6416	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10767	7827	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10805.9	8995.5	I(γ): From (pol γ,γ’),(γ,γ’)
10805.9	10803.3	I(γ): From (pol γ,γ’),(γ,γ’)
10945	1562	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	1776	I(γ): γ-ray branching from (α,pγ) 1986Gl06
	2320	I(γ): γ-ray branching from (α,pγ) 1986Gl06
10949.1	6615.6	I(γ): From (pol γ,γ’),(γ,γ’)
	7359.4	I(γ): From (pol γ,γ’),(γ,γ’)
	8009.4	I(γ): From (pol γ,γ’),(γ,γ’)
	9138.7	I(γ): From (pol γ,γ’),(γ,γ’)
	10946.6	I(γ): From (pol γ,γ’),(γ,γ’)
11012	6110	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11012	6692	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11153.5	6180.4	I(γ): From (pol γ,γ’),(γ,γ’)
	6820.0	I(γ): From (pol γ,γ’),(γ,γ’)
	7563.8	I(γ): From (pol γ,γ’),(γ,γ’)
	9343.0	I(γ): From (pol γ,γ’),(γ,γ’)
	11150.9	I(γ): From (pol γ,γ’),(γ,γ’)
E(level)	E(gamma)	Comments
11191	3241	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11191	5474	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11329.11	3933	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11329.11	4350	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11570	3098	I(γ): γ-ray branching from (α,pγ) 1986Gl06
11570	4174	I(γ): γ-ray branching from (α,pγ) 1986Gl06
12088	4692	I(γ): γ-ray branching from (α,pγ) 1986Gl06
12088	5109	I(γ): γ-ray branching from (α,pγ) 1986Gl06
12196	3723	I(γ): γ-ray branching from (α,pγ) 1986Gl06
12196	3995	I(γ): γ-ray branching from (α,pγ) 1986Gl06
12479	2649	I(γ): γ-ray branching from (α,pγ) 1986Gl06
12479	4278	I(γ): γ-ray branching from (α,pγ) 1986Gl06

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 K L M O P Q R S T U	0+	STABLE
1808.74 4	A B D E G H I K L M O P Q R T U	2+	476 fs 21	1808.68 4	100	E2	0.0	0+
2938.33 4	A B E G H I K L M O P Q R T U	2+	141 fs 8	1129.61 4 2938.15 5	100.0 6 10.7 6	M1+E2 E2	1808.74 0.0	2+ 0+
3082.9 20	E			1274.1 20	100		1808.74	2+
3420.2 17	E			1611.4 17	100	D+Q	1808.74	2+
3564.9 19	E			1756.1 19	100		1808.74	2+
3588.56 9	E G H I K L M O P Q R T U	0+	6.45 ps 48	1779.74 8	100	E2	1808.74	2+
3941.57 4	A E G H I K L O P R T U	3+	0.83 ps 12	1003.25 4 2132.71 4	100.0 16 61.3 16	M1+E2 M1	2938.33 1808.74	2+ 2+
4318.89 5	A E G H I L O P Q R T U	4+	272 fs 16	1380.88 18 2510.01 5	1.85 11 100 2	[E2]	2938.33 1808.74	2+ 2+
4332.52 5	A E G H I L M O P Q R U	2+	20 fs 3	1394.28 7 2523.69 6 4332.2 3	19.3 10 100.0 13 7.6 8	[E2]	2938.33 1808.74 0.0	2+ 2+ 0+
4350.09 4	A E G I L O P Q R	3+	105 fs 28	409.4 5 1411.72 4 2541.18 6	0.041 25 93 4 100 4	M1+E2 M1+E2	3941.57 2938.33 1808.74	3+ 2+ 2+
4644.9 13	E			2836.0 13	100	D+Q	1808.74	2+
4835.13 5	A E G H I K L P R T	2+	28 fs 6	485.05 9 502.73 9 892.85 19 1896.72 5 3026.6 5 4834.61 18	2.77 5 2.65 4 0.26 4 100.0 4 4.19 15 10.8 9	M1 E2	4350.09 4332.52 3941.57 2938.33 1808.74 0.0	3+ 2+ 3+ 2+ 2+ 0+
4901.44 7	A E G H I K L O P Q R T	4+	29 fs 6	551.28 13 569.67 25 582.46 21 958.81 12 1962.99 24 3092.31 11	1.61 14 0.67 11 0.88 18 3.9 5 1.89 14 100 1	[E2] [E2]	4350.09 4332.52 4318.89 3941.57 2938.33 1808.74	3+ 2+ 4+ 3+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4972.30 13	G H I K L M O P Q R T	0+	446 fs 70	2033.88 12 3163.35	100 4 8 4	E2 E2	2938.33 1808.74	2+ 2+
5180.5 7	E			1238.9 7	100		3941.57	3+
5291.74 6	A E G H I K L M O P Q R T	2+	< 10 fs	456.0 4 1350.20 16 2353.27 5 3482.2 5 5291.1 5	1.9 7 3.4 7 100.0 14 6.6 9 3.9 7	[M1] E2	4835.13 3941.57 2938.33 1808.74 0.0	2+ 3+ 2+ 2+ 0+
5476.05 7	A E G H I K L O P Q R T	4+	21 fs 6	640.5 3 1157.23 6 1534.49 15 3667.4 5	19 6 100 4 51 4 25 2	M1+E2 M1+E2 [E2]	4835.13 4318.89 3941.57 1808.74	2+ 4+ 3+ 2+
5691.08 19	E G I L P Q R T	(1+)	< 8 fs	1358.4 9 2752.56 25 3882.0 3 5691.1 9	6 2 46 3 100 5 11 3	D	4332.52 2938.33 1808.74 0.0	2+ 2+ 2+ 0+
5711.2 8	E H K T	(1+,2+)		2122.5 8	100		3588.56	0+
5715.91 8	A E G I L O P Q	4+	53 fs 16	240.12 11 424.3 3 1365.54 20 1384.70 16 1774.0 9 2776.82 20 3906.8 7	2.16 17 0.38 9 95.1 4 4.41 17 100 5 51.4 14 3.35 22	M1+E2 M1+E2 [E2]	5476.05 5291.74 4350.09 4332.52 3941.57 2938.33 1808.74	4+ 2+ 3+ 2+ 3+ 2+ 2+
6125.47 5	A E G H I K L O P Q S T	3+	14 fs 6	409.4 5 833.47 21 1223.35 15 1290.40 7 1775.31 5 1792.87 12 2183.83 6 3187.14 28 4316.39 24	0.10 5 3.4 4 1.3 3 5.2 4 100.0 14 6.5 6 13.7 7 5.8 6 4.8 6	[M1]	5715.91 5291.74 4901.44 4835.13 4350.09 4332.52 3941.57 2938.33 1808.74	4+ 2+ 4+ 2+ 3+ 2+ 3+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6256.2 14	E G H K L O P Q T	0+	53 fs 31	565.1 13 4447.1	8 4 100 4	D E2	5691.08 1808.74	(1+) 2+
6483.2 15	E			1302.7 13			5180.5
6622.94 14	A E G L P Q S T	(4+)	19 fs 5	1146.9 1721.39 20 2272.7 3 2290.2 3 2304.2 3 4813.7 10	19 2 100 4 43.8 18 26.2 14 37.6 18 3.8 5	[M1] M1(+E2) [E2]	5476.05 4901.44 4350.09 4332.52 4318.89 1808.74	4+ 4+ 3+ 2+ 4+ 2+
6634.2 3	E G I		≤ 7 fs	3695.63 25 4825.0	100 1 6 1		2938.33 1808.74	2+ 2+
6745.13 15	A G H I K L P Q S T	2+	16 fs 8	1453.16 17 3807.0 5 4936.3 3 6743.9 21	24 4 100 6 99 8 1.9 5		5291.74 2938.33 1808.74 0.0	2+ 2+ 2+ 0+
6876.42 5	G H I K L O P Q S T	3-	83 fs 35	2041.44 16 2543.7 4 2557.2 3 2934.8 6 3937.80 11 5067.13 4	4.7 6 6.1 9 4.4 4 4.2 9 26.2 12 100.0 19	[E1]	4835.13 4332.52 4318.89 3941.57 2938.33 1808.74	2+ 2+ 4+ 3+ 2+ 2+
6951.7 16	E			1771.1 14	100		5180.5
6971.8 20	E	(4+)		3030.0 20	100	D+Q	3941.57	3+
6978.3 8	E G P Q S T	(5+)	14 fs 5	1263.7 21 1501.8 10 2076.8 2628.1 2660.0 20 3036.5	8 2 100 8 22 4 9 2 34 4 28 4	M1+E2 M1+E2 [E2] M1+E2 E2	5715.91 5476.05 4901.44 4350.09 4318.89 3941.57	4+ 4+ 4+ 3+ 4+ 3+
7061.90 20	H I L O P Q S T	1-	≤ 7 fs	3472.9 3 4122.9 6 5252.9 3 7060.6 7	94 8 28 6 56 8 100 14	[E1] [E1]	3588.56 2938.33 1808.74 0.0	0+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7099.68 13	A E H I L M O P Q S T	2+	≤ 14 fs	2264.25 21 3158.4 6 4160.96 20 5290.3 5 7098.9 5	40 6 18 4 100 10 32 4 10 4		4835.13 3941.57 2938.33 1808.74 0.0	2+ 3+ 2+ 2+ 0+
7200 20	P	(0,1)+
7246.49 17	A O P S T	3+	≤ 7 fs	1953.6 7 2411.5 3 2896.4 4 2913.7 4 2927.2 5 3304.6 5 4308.1 8 5436.1 13	11 5 100 4 97 5 59 4 22 3 51 3 42 3 3.6 7		5291.74 4835.13 4350.09 4332.52 4318.89 3941.57 2938.33 1808.74	2+ 2+ 3+ 2+ 4+ 3+ 2+ 2+
7261.40 4	E H I K P T		≤ 7 fs	2426.09 6 2911.12 19 2928.56 17 3319.66 5 4322.68 8 5452.03 4	25.1 8 8.0 6 9.4 6 47.4 18 15.2 8 100.0 25		4835.13 4350.09 4332.52 3941.57 2938.33 1808.74	2+ 3+ 2+ 3+ 2+ 2+
7282.82 6	E H I K L P S	(4-)	24 fs 8	1567.06 11 2381.28 15 2932.5 4 2963.61 9 3341.01 7	9.2 8 10.2 10 18.2 20 62 4 100 4	(E1+M2) [E1]	5715.91 4901.44 4350.09 4318.89 3941.57	4+ 4+ 3+ 4+ 3+
7348.86 6	G H I K L P Q S T	3-		1873.1 5 2513.52 8 3016.18 23 3029.6 8 4410.15 5 5539.53 15	1.5 4 42 3 11.9 12 3.2 4 100 4 31.5 19		5476.05 4835.13 4332.52 4318.89 2938.33 1808.74	4+ 2+ 2+ 4+ 2+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7371.36 17	A G I O P Q S T	2+		1245.68 24 2080.0 6 3021.9 4 3039.1 5 3428.7 4 5562.9 9 7369.8 7	38 5 5.1 16 27 4 6.3 10 100 15 27 4 54 15		6125.47 5291.74 4350.09 4332.52 3941.57 1808.74 0.0	3+ 2+ 3+ 2+ 3+ 2+ 0+
7396.0 10	E G H P Q S T	(5+)	≤ 14 fs	1680.0 10 2494.4 3045.7 3076.9 3454.2	100 6 36 4 26 2 14 4 24 2	(M1+E2)	5715.91 4901.44 4350.09 4318.89 3941.57	4+ 4+ 3+ 4+ 3+
7428 3	H P S	(0,1)+
7541.71 6	E H I K P T	(2-)	≤ 7 fs	3191.2 6 3208.98 8 3599.86 14 4602.93 7 5732.37 15	8.7 11 100 4 38 3 84 4 39 3		4350.09 4332.52 3941.57 2938.33 1808.74	3+ 2+ 3+ 2+ 2+
7677 1	G H L P S T	(4+)	≤ 11 fs	1551.5 1961.0 2775.4 3357.9	35 4 100 8 44 6 29 4		6125.47 5715.91 4901.44 4318.89	3+ 4+ 4+ 4+
7696.8 8	H I L M O P S	1(-)		4757.6 5887.9 7695.6 8	37 13 17 5 100 31		2938.33 1808.74 0.0	2+ 2+ 0+
7725.8 4	A G I K O P S T	3+		3406.9 5 3783.7 7 5915.5 16	100 4 19 4 20 4		4318.89 3941.57 1808.74	4+ 3+ 2+
7773.7 6	A E K L P S T	(4+)	≤ 7 fs	2297.5 2938.4 3454.7 9 3831.7 7 4834.9	30 8 30 8 20 6 100 14 20 6		5476.05 4835.13 4318.89 3941.57 2938.33	4+ 2+ 4+ 3+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7817.8 7	A H K O P Q T	(2,3)+		3485.0 7 6008.7 16	100 15 67 9		4332.52 1808.74	2+ 2+
7824 3	G L O P R S	3-		3882 4885 6015	100 13 100 13 50 10		3941.57 2938.33 1808.74	3+ 2+ 2+
7840 2	G O	2+		3521 4251 4901 6030.5	47 10 100 12 63 12 23 7	E2	4318.89 3588.56 2938.33 1808.74	4+ 0+ 2+ 2+
7851 3	P
7950.0 20	E H K L P S T	5-	14 fs 6	2234.0 20 3633.8 10	47 5 100 5	E1+M2 E1+M2	5715.91 4318.89	4+ 4+
8034 2	G P S T			5095	100		2938.33	2+
8052.4 7	G H I P R S	2(+)		6242.9 7	100		1808.74	2+
8184.93 15	G I L O P Q S T	3-		5245.9 3 6375.38 16	28 4 100 4		2938.33 1808.74	2+ 2+
8201.1 7	E G P Q S	(6+)	≤ 14 fs	1223.0 14 3299.5 10 3881.8 10	44 4 78 7 100 9	D	6978.3 4901.44 4318.89	(5+) 4+ 4+
8227.31 24	G H I M O P S T	1-	1.0 fs 2	6417.9 3 8225.6 4	85 6 100 6		1808.74 0.0	2+ 0+
8250.58 16	G I L O P S	(3+)		5311.66 16 6441.1 8	100 6 3.9 8		2938.33 1808.74	2+ 2+
8399 3	P T
8458.9 4	G I O P S T	3+		4139.7 5 6649.1 7	55 8 100 6		4318.89 1808.74	4+ 2+
8464 2	G			4144.8	100		4318.89	4+
8472.3 16	E G P Q S	(6+)	≤ 14 fs	1494.0 14 3570.6 4153.1	38 5 100 6 21 3	D+Q	6978.3 4901.44 4318.89	(5+) 4+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8503.7 3	G I M P S T	1-		6694.0 7 8502.2 3	39 6 100 6		1808.74 0.0	2+ 0+
8532.1 4	G I O P S T	(2+)		4181.9 7 5593.2 4 6722.1 7	66 11 100 13 47 9		4350.09 2938.33 1808.74	3+ 2+ 2+
8576 3	P S T
8625 1	G H L P Q S T	5-	29 fs 6	2002 4305.7	100 4 18 4	E1+M2 E1	6622.94 4318.89	(4+) 4+
8670 1	G P S T	(3,5)	≤ 7 fs	3193.7 4350.7	54 8 100 8	D+Q D+Q	5476.05 4318.89	4+ 4+
8705.6 3	G I L P Q R S T	(2 TO 4)+		3229.3 4355.3 6 4386.3 4763.6 5766.6 3	29 7 12 3 100 11 64 9 29 7		5476.05 4350.09 4318.89 3941.57 2938.33	4+ 3+ 4+ 3+ 2+
8863.8 4	G H I P S T	2+		5924.8 4 7054.0 6	69 8 100 8		2938.33 1808.74	2+ 2+
8903.52 9	E G I L O P S T	(2+)		1554.8 4 1620.8 3 1642.09 25 3611.5 4 4001.8 3 4553.02 13 4961.42 22 5964.31 20	7.9 14 21 2 22 2 30 3 30 3 100 7 97 7 36 3		7348.86 7282.82 7261.40 5291.74 4901.44 4350.09 3941.57 2938.33	3- (4-) 2+ 4+ 3+ 3+ 2+
8930 2	G H P S T			2307 3214 3453.7 4987.9	50 11 100 14 75 14 53 11		6622.94 5715.91 5476.05 3941.57	(4+) 4+ 4+ 3+
8959.4 5	I M P S	1-		7149.4 8957.7 5	64 7 100 12		1808.74 0.0	2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9020 2	G T			4701	100		4318.89	4+
9043.4 9	G I L O P R S	3(+)		6104.3 9	100		2938.33	2+
9064 2	G P Q S	5+	≤ 7 fs	1668 4162 4744.7	26 5 26 5 100 8	D+Q D	7396.0 4901.44 4318.89	(5+) 4+ 4+
9111.2 5	G P Q S T	6+	≤ 11 fs	1715 2488 3635 4209.4 4792	16 4 16 4 100 12 32 6 36 6	[M1] [E2] [E2] [E2] [E2]	7396.0 6622.94 5476.05 4901.44 4318.89	(5+) (4+) 4+ 4+ 4+
9139.5 13	M	1		9137.8	100		0.0	0+
9169 3	E G L P S T	(6-)	26 fs 8	1218.7 23 1773 1886 2190.6	100 7 39 6 24 4 22 4	M1+E2 E1+M2 [E2] [E1]	7950.0 7396.0 7282.82 6978.3	5- (5+) (4-) (5+)
9206 2	G T			4887	100		4318.89	4+
9238.9 8	I L M O P S T	1(+)	314 as 40	5649.5 9237.1 8	23 5 100 20	M1	3588.56 0.0	0+ 0+
9261 2	G H P	(4+)		5319	100		3941.57	3+
9281 3	O P	(2+)
9291 2	G O T			7481	100		1808.74	2+
9304 2	G O P			4985	100		4318.89	4+
9316 2	G P			4983	100		4332.52	2+
9325.57 20	G I L P	(2+ TO 4+)		4424.2 8 4489.4 9 4975.3 9 4992.4 8 5383.8 7 6386.34 23	27 4 27 4 32 5 48 5 16 3 100 8		4901.44 4835.13 4350.09 4332.52 3941.57 2938.33	4+ 2+ 3+ 2+ 3+ 2+
9371 2	G H P T	4+		5429	100		3941.57	3+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9383 1	F G P S	6+	≤ 7 fs	1182 2404.6 2759.9 3666.8 5063.6	15 3 74 10 38 5 100 13 28 5	D+Q Q Q	8201.1 6978.3 6622.94 5715.91 4318.89	(6+) (5+) (4+) 4+ 4+
9427.8 4	F G I O P S T	3+		5077.4 9 6488.6 4 7617.8 7	23 6 100 8 33 5		4350.09 2938.33 1808.74	3+ 2+ 2+
9471 2	G P S T	(1 TO 5)+		5529	100		3941.57	3+
9540.3 15	E G P S T	5+	≤ 14 fs	2562 3824.0 20 4638.4 5221.0 20	5.3 16 23 3 34 7 100 10	D D+Q	6978.3 5715.91 4901.44 4318.89	(5+) 4+ 4+ 4+
9563.5 8	L M P T	1+	563 as 99	7753.1 9561.6	49 11 100 21	M1	1808.74 0.0	2+ 0+
9574.06 11	G I P S	(2- TO 4)		2290.8 4 2697.7 3 3448.8 7 5223.37 12 5632.3 6	14.0 24 24.4 24 20.7 24 100 9 14.6 18		7282.82 6876.42 6125.47 4350.09 3941.57	(4-) 3- 3+ 3+ 3+
9579 3	H P	4+
9590 2	G			6651 7780	100 13 67 13		2938.33 1808.74	2+ 2+
9617.0 9	I P S T	(1 TO 3)-		7807.0 9	100		1808.74	2+
9681 2	G P S T	(0 TO 5)+		7871	100		1808.74	2+
9714 3	L O P T
9770.8 9	M	1(-)		7961.1 9768.8	69 14 100 19		1808.74 0.0	2+ 0+
9771 2	G P T			4869 5452	100 16 100 16		4901.44 4318.89	4+ 4+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9779 3	L P	1+
9814 2	G O P T			5495	100		4318.89	4+
9829.5 14	E G P T	(5,7)+	37 fs 10	1357.2 1628.3 12 2433.4	6.7 11 100.0 22 5.6 11	M1(+E2)	8472.3 8201.1 7396.0	(6+) (6+) (5+)
9856.8 4	H I O P	2+		5020.7 8 5523.6 7 5915.8 9 9854.5 7	62 10 100 12 31 10 43 10		4835.13 4332.52 3941.57 0.0	2+ 2+ 3+ 0+
9883 3	P T
9900.3 10	G O P	3+		6961	100		2938.33	2+
9927 2	G T			5025	100		4901.44	4+
9939 2	G P			5619	100		4318.89	4+
9967 2	G H P T	2+		5065 7028	100 9 67 9		4901.44 2938.33	4+ 2+
9982 2	F G P			6040	100		3941.57	3+
9989 1	F G P	(6+)	≤ 7 fs	1517 3011 5669.5	25 4 100 7 20 4	(M1+E2) (M1+E2) [E2]	8472.3 6978.3 4318.89	(6+) (5+) 4+
10040 2	G H P T	5-		4323.7 5138.0 5720.4	100 13 51 9 71 9		5715.91 4901.44 4318.89	4+ 4+ 4+
10069 2	G T			5167	100		4901.44	4+
10102.5 4	I M P	1-		7162.4 9 10100.5 4	35 9 100 13		2938.33 0.0	2+ 0+
10126.7 6	G H I P T	4+		7187.4 8 8316.4 8	52 9 100 13		2938.33 1808.74	2+ 2+
10136 3	P
10147.1 1	L M P	1+	112 as 15	8337.9 10145.0	43 3 100 9	M1	1808.74 0.0	2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10159 3	H P	0+
10184 2	G O			5282	100		4901.44	4+
10219.9 9	I O P T			8409.7 9	100		1808.74	2+
10234 2	G			5332	100		4901.44	4+
10271 3	H P T	2+
10319.5 7	M P T	1+	345 as 83	7378.4 10317.3	67 19 100 22	M1	2938.33 0.0	2+ 0+
10328 3	P
10341 3	L P
10349.4 9	G I P	(0+ TO 4+)		8539.2 9	100		1808.74	2+
10362.26 21	G I P T	(2+ TO 4+)		3261.8 4 4886.3 5 6011.2 5 8552.2 3	62 5 46 8 49 8 100 10		7099.68 5476.05 4350.09 1808.74	2+ 4+ 3+ 2+
10377 2	G			4661	100		5715.91	4+
10400 15	T
10414 3	H P T	4+
10487 3	O P T
10493 3	O P	2+
10516 3	H O P T	(2+)
10529 2	G P			4813 6196	100 17 67 17		5715.91 4332.52	4+ 2+
10567 3	F P
10573.3 8	M	1-	0.20 eV 5	5600.4 10571.0	100 17 89 19		4972.30 0.0	0+ 0+
10576 2	F G			2044 3597	85 8 100 8		8532.1 6978.3	(2+) (5+)
10600.1 4	G I P	(1+ TO 4+)		3500.6 9 6249.7 9 6267.0 6 6657.3 5 7660.4 9	0.06 2 31 8 100 17 86 17 39 6		7099.68 4350.09 4332.52 3941.57 2938.33	2+ 3+ 2+ 3+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10647.3 8	L M P	1+	97 as 5	3547.4 5355.0 5674.4 7707.7 8837.0 10645.0	1.41 14 1.84 15 1.84 15 7.3 4 1.76 21 100 4	M1	7099.68 5291.74 4972.30 2938.33 1808.74 0.0	2+ 2+ 0+ 2+ 2+ 0+
10650 1	G	(4- TO 7-)	21 fs 6	1481 3254	56 8 100 8		9169 7396.0	(6-) (5+)
10681.9 3	P
10693 3	G L P			3297	100		7396.0	(5+)
10707 3	G P			4991	100		5715.91	4+
10718.75 9	P
10726 3	P
10745.98 12	P
10767 2	G P			6416 7827	100 9 45 9		4350.09 2938.33	3+ 2+
10805.9 4	F I M P	(0+ TO 4+)		8995.5 4 10803.3	100 12 28 8		1808.74 0.0	2+ 0+
10824 3	F O P	(2+)
10881 3	P
10893 3	P
10915 3	P
10927 3	L P	+
10945 3	G J P			1562 1776 2320	16 4 100 9 48 7		9383 9169 8625	6+ (6-) 5-
10949.1 8	M	1-	1.87 eV 30	6615.6 7359.4 8009.4 9138.7 10946.6	18.9 18 8.2 13 23.7 23 100 6 24 4		4332.52 3588.56 2938.33 1808.74 0.0	2+ 0+ 2+ 2+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10978 3	O P
10998 3	O P
11012 3	G O P			6110 6692	61 12 100 12		4901.44 4318.89	4+ 4+
11048 3	P
11084 3	P
11114 3	J P	(2+)
11142 6	Q
11153.5 10	J M N P	1+		6180.4 6820.0 7563.8 9343.0 11150.9	14 4 11.2 16 16 4 4.2 6 100 12		4972.30 4332.52 3588.56 1808.74 0.0	0+ 2+ 0+ 2+ 0+
11162.93 7	J	2+	5.08 keV 8
11169.30 7	J	(3+)	1.56 keV 8
11171 3	J L P
11183.06 6	J	(1-)	0.6 eV 2
11189.24 6	J	3+	5.24 keV 4
11191 2	G J			3241 5474	72 14 100 14		7950.0 5715.91	5- 4+
11196.51 6	J		2 eV 1
11243.36 6	J	(2-)	5.520 keV 20
11274.13 5	J	(2)+	0.590 keV 20
11280.03 5	J	4(-)	1.730 keV 20
11285.52 7	J	1-	1.41 keV 6
11286.24 5	J	(2+)	0.7 eV 7
11289.06 4	J	(2-)	2 eV 1
11293.28 5	J		0.230 eV 20
11296.04 9	J	(2-)	12.40 keV 10
11310.57 4	J Q	(1-)	0.4 eV 2
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11326.15 6	J Q	(1-)	0.3 eV 2
11328.20 7	J	(1-)	50 eV 20
11329.11 4	F G J			3933 4350	100 8 56 8		7396.0 6978.3	(5+) (5+)
11336.88 5	J	(1-)	0.1 eV 1
11344.77 7	J	4(-)	3.49 keV 6
11361.84 23	J	(2+)	3.29 keV 5
11392.57 5	J	(5+)	240 eV 10
11441.08 6	J Q	4+	2.020 keV 40
11457 2	F G			6555	100		4901.44	4+
11465.62 8	J Q	(5-)	8.91 keV 8
11500.09 5	J Q	(1-)	25 eV 10
11526.82 10	J Q	(3-)	3.00 keV 10
11570 2	G			3098 4174	100 15 82 15		8472.3 7396.0	(6+) (5+)
11587.99 7	J	(2-)	1.80 keV 10
11608.29 6	J	(4-)	0.84 keV 4
11611 5	F Q
11630 2	Q
11646 5	F Q		< 3 keV
11749 10	Q
11795 10	Q		< 3 keV
11827 2	F Q		< 3 keV
11890 2	Q		< 3 keV
11909 2	Q		6 keV 1
11945 10	L P	(6-)
12049 2	Q		6 keV 2
12088 2	G			4692 5109	79 15 100 15		7396.0 6978.3	(5+) (5+)
12110 2	Q		25 keV 2
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
12141 2	Q		15 keV 2
12196 2	G			3723 3995	45 8 100 8		8472.3 8201.1	(6+) (6+)
12345 2	Q	0	40 keV 5
12479 2	G L P	(6-)		2649 4278	100 10 64 10		9829.5 8201.1	(5,7)+ (6+)
12865 10	L P	(6-)
12958 10	L
13958 10	L
14542 10	L P	(6-)
16580 10	L P	(6-)
18050 50	P	(6-)