List of levels for 66GA

Authors: E. Browne, J. K. Tuli | Citation: Nucl. Data Sheets 111, 1093 (2010) | Cutoff date: 3-Mar-2009

Other reactions.

⁵⁹Co(¹²C,nα): E=60-85 MeV. Measured Eγ, Iγ, σ (2008Ag06).

Zn(p,X): E<27.5 MeV. Measured σ, excitation functions (2007Al41); E=31-141 MeV. Measured σ (2005Bo10); E=5-100 MeV. Measured production σ (2005Sz02); E=26-67 MeV. Measured production σ, excitation functions (2005Ta01); E=24-70 MeV. Measured production σ (2003Sz01). E=1 GeV. Measured isotopic σ (2007Na31).

Zn(p,xn): E=4-40 MeV. Measured σ, excitation functions (2007Ud02).

Zn(d,X): E=19 MeV. Measured excitation functions (2004Gr01); E=6-50 MeV. Measured excitation functions (2004Ta13); E=3-19 MeV. Measured excitation functions (2003Bo15).

⁶³Cu(α,n): E=5-45 MeV. Measured excitation functions (2006Si18).

Cu(α,X): E=16-60 MeV. Measured production σ (2001Sz06); E=7-40 MeV. Measured σ (2000Ta18); E=50 MeV. Measured Eγ, Iγ (1997La03).

⁶⁶Zn(p,n): E=5-100 MeV. Measured production σ (2005Sz02); E=35-67 MeV. Measured production σ (2003Sz01); E=6-26 MeV. Measured σ (1998Sz02).

⁶⁷Zn(p,2n); E=6-26 MeV. Measured σ (1998Sz02).

⁶⁸Zn(p,3n): E=20-71 MeV. Measured excitation functions (2002St31).

⁶⁶Zn(¹⁶O,⁹N7p): E=60-95 MeV. Measured excitation functions (2006So07).

⁶³Cu(¹⁶O,3an): E=55-110 MeV. Measured excitation functions (2003Ch57).

Cu(⁷Li,X): E=35 MeV/nucleon. Measured production σ (2004De41).

Si(⁶⁸Ga,x): E=50-60 MeV/nucleon. Measured reaction σ (2004Li29).

Cu(³He,x): E=3-36 MeV. Measured production σ (2002Ta23).

|>(γ,X): E=150 MeV. Measured reaction yields (2001DiZZ).

⁷⁰Ge(n,X): E≈64 MeV. Measured reaction yields (1997Na27).

H-F analysis means Hauser-Feshbach analysis in this evaluation.

Levels: Configuration: configurations used in the DWBA analysis of (α,d) data

Q-value: Note: Current evaluation has used the following Q record -2100 309138 3 5102 3 -3352 5 2009AuZZ,2003Au03

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
43.812	1+	18.0 ns 9	43.81 3	M1		0.700	B(M1)(W.u.)=0.0086 5, α=0.700, α(K)=0.622 9, α(L)=0.0672 10, α(M)=0.00984 14, α(N)=0.000516 8, α(N+)=0.000516 8
66.139	(2)+	23.0 ns 14	22.33 5	M1+E2	0.079 17	6.0	B(E2)(W.u.)=2.5×10² 11, B(M1)(W.u.)=0.0122 12, α=6.0 5, α(K)=5.1 4, α(L)=0.78 14, α(M)=0.112 20, α(N)=0.0044 4, α(N+)=0.0044 4
108.893	1+	1.2 ns 2	42.69 8	[M1]		0.754	B(M1)(W.u.)=0.019 7, α=0.754, α(K)=0.670 10, α(L)=0.0724 11, α(M)=0.01060 16, α(N)=0.000556 9, α(N+)=0.000556 9
	1+	1.2 ns 2	65.09 2	(M1+E2)	0.04 LT	0.231	B(E2)(W.u.)<13, B(M1)(W.u.)>0.015, α=0.231 5, α(K)=0.205 4, α(L)=0.0221 5, α(M)=0.00323 7, α(N)=0.000170 3, α(N+)=0.000170 3
	1+	1.2 ns 2	108.90 2	M1		0.0555	B(M1)(W.u.)=0.0070 13, α=0.0555, α(K)=0.0495 7, α(L)=0.00523 8, α(M)=0.000765 11, α(N)=4.06×10^-5 6, α(N+)=4.06E-5 6
162.472	(3)+	13 ns 5	96.34 2	(M1+E2)		0.4	α=0.4 4, α(K)=0.4 4, α(L)=0.05 4, α(M)=0.007 6, α(N)=0.00030 25, α(N+)=0.00030 25
162.472	(3)+	13 ns 5	118.80 20	E2(+M3)		1.9	α=1.9 16, α(K)=1.6 13, α(L)=0.24 20, α(M)=0.04 3, α(N)=0.0016 14, α(N+)=0.0016 14
234.043	2+		71.51 4	[D]		0.178	α=0.178, α(K)=0.1562, α(L)=0.0163
	2+		125.15 3	M1+E2		0.17	α=0.17 14, α(K)=0.15 12, α(L)=0.017 14, α(M)=0.0025 20, α(N)=0.00012 9, α(N+)=0.00012 9
	2+		190.21 2	M1+E2	0.27 10	0.016	α=0.016 3, α(K)=0.0145 24, α(L)=0.0015 3, α(M)=0.00022 4, α(N)=1.17×10^-5 18, α(N+)=1.17E-5 18
	2+		233.98 4	E2		0.0291	α=0.0291, α(K)=0.0259 4, α(L)=0.00281 4, α(M)=0.000408 6, α(N)=2.02×10^-5 3, α(N+)=2.02E-5 3
290.908	(0,1)+		182.03 4	M1+E2	-0.22 12	0.017	α=0.017 4, α(K)=0.015 3, α(L)=0.0016 4, α(M)=0.00024 5, α(N)=1.23×10^-5 24, α(N+)=1.23E-5 24
335.404	(2)+		172.95 3	M1+E2		0.05	α=0.05 4, α(K)=0.05 4, α(L)=0.005 4, α(M)=0.0008 6, α(N)=3.7×10^-5 25, α(N+)=3.7E-5 25
	(2)+		226.50 3	M1+E2	+0.09 3	0.00846	α=0.00846 20, α(K)=0.00756 17, α(L)=0.000784 19, α(M)=0.000115 3, α(N)=6.14×10^-6 14, α(N+)=6.14E-6 14
	(2)+		269.27 3	M1+E2		0.011	α=0.011 6, α(K)=0.010 6, α(L)=0.0011 6, α(M)=0.00016 9, α(N)=8.E-6 5, α(N+)=8.E-6 5
	(2)+		291.59 3	M1+E2	+0.04 4	0.00444	α=0.00444 8, α(K)=0.00397 7, α(L)=0.000409 7, α(M)=5.98×10^-5 11, α(N)=3.22E-6 6, α(N+)=3.22E-6 6
381.859	1+		90.94 5	[M1]		0.0904	α=0.0904, α(K)=0.0806 12, α(L)=0.00856 12, α(M)=0.001252 18, α(N)=6.64×10^-5 10, α(N+)=6.64E-5 10
	1+		147.79 3	[M1]		0.0247	α=0.0247, α(K)=0.0220 3, α(L)=0.00231 4, α(M)=0.000338 5, α(N)=1.80×10^-5 3, α(N+)=1.80E-5 3
	1+		272.97 4	M1+E2	+0.24 10	0.0058	α=0.0058 6, α(K)=0.0052 5, α(L)=0.00054 6, α(M)=7.9×10^-5 8, α(N)=4.2E-6 4, α(N+)=4.2E-6 4
	1+		338.05 3	M1+E2	-0.05 9	0.00311	α=0.00311 9, α(K)=0.00278 8, α(L)=0.000286 9, α(M)=4.18×10^-5 13, α(N)=2.25E-6 7, α(N+)=2.25E-6 7
	1+		381.85 5	M1		0.00232	α=0.00232 4, α(K)=0.00208 3, α(L)=0.000213 3, α(M)=3.11×10^-5 5, α(N)=1.678E-6 24, α(N+)=1.678E-6 24
415.34	(4)+	< 2 ns	252.89 3	M1		0.00628	B(M1)(W.u.)>0.00065, α=0.00628 9, α(K)=0.00561 8, α(L)=0.000580 9, α(M)=8.49×10^-5 12, α(N)=4.56E-6 7, α(N+)=4.56E-6 7
423.77	(3)+		261.30 3	M1		0.00580	α=0.00580 9, α(K)=0.00518 8, α(L)=0.000535 8, α(M)=7.82×10^-5 11, α(N)=4.20E-6 6, α(N+)=4.20E-6 6
423.77	(3)+		357.62 3	M1		0.00271	α=0.00271 4, α(K)=0.00242 4, α(L)=0.000248 4, α(M)=3.64×10^-5 5, α(N)=1.96E-6 3, α(N+)=1.96E-6 3
459.878	2+		351.01 3	M1+E2	+0.1 AP	0.00287	α≈0.00287, α(K)≈0.00257, α(L)≈0.000264, α(M)≈3.86×10^-5, α(N)≈2.08E-6, α(N+)≈2.08E-6
	2+		393.67 4	M1		0.00216	α=0.00216 3, α(K)=0.00193 3, α(L)=0.000198 3, α(M)=2.89×10^-5 4, α(N)=1.562E-6 22, α(N+)=1.562E-6 22
	2+		416.02 3	M1+E2	+0.03 3	0.00190	α=0.00190 3, α(K)=0.001701 25, α(L)=0.0001738 25, α(M)=2.54×10^-5 4, α(N)=1.373E-6 20, α(N+)=1.373E-6 2
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
516.20	(4)+	< 2 ns	353.75 3	M1+E2	+0.0 1	0.00278	B(M1)(W.u.)>0.00022, α=0.00278 6, α(K)=0.00249 5, α(L)=0.000255 6, α(M)=3.73×10^-5 8, α(N)=2.01E-6 4, α(N+)=2.01E-6 4
536.618	1+		154.74 3	[M1]		0.0219	α=0.0219, α(K)=0.0195 3, α(L)=0.00204 3, α(M)=0.000299 5, α(N)=1.597×10^-5 23, α(N+)=1.597E-5 23
	1+		245.71 3	M1		0.00675	α=0.00675 10, α(K)=0.00603 9, α(L)=0.000623 9, α(M)=9.12×10^-5 13, α(N)=4.90E-6 7, α(N+)=4.90E-6 7
	1+		536.74 7	M1		0.001060	α=0.001060 15, α(K)=0.000949 14, α(L)=9.65×10^-5 14, α(M)=1.411E-5 20, α(N)=7.64E-7 11, α(N+)=7.64E-7
552.90	(3)+		318.85 3	M1+E2		0.007	α=0.007 3, α(K)=0.006 3, α(L)=0.0006 3, α(M)=9.E-5 5, α(N)=4.7E-6 21, α(N+)=4.7E-6 21
	(3)+		390.44 5	M1		0.00220	α=0.00220 3, α(K)=0.00197 3, α(L)=0.000202 3, α(M)=2.95×10^-5 5, α(N)=1.592E-6 23, α(N+)=1.592E-6 23
	(3)+		486.75 7	M1		0.001323	α=0.001323 19, α(K)=0.001183 17, α(L)=0.0001206 17, α(M)=1.764×10^-5 25, α(N)=9.54E-7 14
620.98	(2)+		386.85 5	M1		0.00225	α=0.00225 4, α(K)=0.00201 3, α(L)=0.000206 3, α(M)=3.02×10^-5 5, α(N)=1.627E-6 23, α(N+)=1.627E-6 23
	(2)+		458.52 4	M1		0.001517	α=0.001517 22, α(K)=0.001357 19, α(L)=0.0001384 20, α(M)=2.02×10^-5 3, α(N)=1.094E-6 16, α(N+)=1.094E-6
	(2)+		577.18 3	M1		0.000901	α=0.000901 13, α(K)=0.000806 12, α(L)=8.19×10^-5 12, α(M)=1.198E-5 17, α(N)=6.49E-7 9, α(N+)=6.49E-7
639.58	(3)+		477.12 3	M1		0.001384	α=0.001384 20, α(K)=0.001239 18, α(L)=0.0001262 18, α(M)=1.85×10^-5 3, α(N)=9.99E-7 14, α(N+)=9.99E-7
639.58	(3)+		573.46 5	M1+E2		0.0012	α=0.0012 3, α(K)=0.00105 23, α(L)=0.000107 25, α(M)=1.6×10^-5 4, α(N)=8.4E-7 18, α(N+)=8.4E-7 18
664.202	(1,2)+		598.06 3	M1		0.000833	α=0.000833 12, α(K)=0.000745 11, α(L)=7.56×10^-5 11, α(M)=1.107E-5 16, α(N)=5.99E-7 9, α(N+)=5.99E-7
664.202	(1,2)+		620.41 3	M1		0.000768	α=0.000768 11, α(K)=0.000687 10, α(L)=6.97×10^-5 10, α(M)=1.020E-5 15, α(N)=5.53E-7 8, α(N+)=5.53E-7
705.995	1+		41.84 10	[D]		0.85	α=0.85 3, α(K)=0.74, α(L)=0.08
	1+		169.47 10	[M1]		0.01729	α=0.01729, α(K)=0.01543 22, α(L)=0.001611 23, α(M)=0.000236 4, α(N)=1.261×10^-5 18, α(N+)=1.261E-5 18
	1+		705.94 3	M1		0.000579	α=0.000579 9, α(K)=0.000519 8, α(L)=5.25×10^-5 8, α(M)=7.68E-6 11, α(N)=4.16E-7 6, α(N+)=4.16E-7 6
721.89	(3)+		655.75 3	M1		0.000680	α=0.000680 10, α(K)=0.000609 9, α(L)=6.17×10^-5 9, α(M)=9.03E-6 13, α(N)=4.89E-7 7, α(N+)=4.89E-7 7
790.08	(1,2)+		724.00 3	M1		0.000549	α=0.000549 8, α(K)=0.000491 7, α(L)=4.97×10^-5 7, α(M)=7.27E-6 11, α(N)=3.94E-7 6, α(N+)=3.94E-7 6
845.03	(2+,3,4+)		778.84 5	M1,E2		0.00054	α=0.00054 7, α(K)=0.00048 6, α(L)=4.9×10^-5 7, α(M)=7.1E-6 10, α(N)=3.8E-7 5, α(N+)=3.8E-7 5
866.09	1+		757.31 17	M1,E2		0.00057	α=0.00057 8, α(K)=0.00051 7, α(L)=5.2×10^-5 8, α(M)=7.6E-6 11, α(N)=4.1E-7 6, α(N+)=4.1E-7 6
1464.33	(7)	57.3 ns 14	113.7 2	E2		0.432	B(E2)(W.u.)=15.6 5, α=0.432, α(K)=0.379 6, α(L)=0.0458 8, α(M)=0.00661 11, α(N)=0.000291 5, α(N+)=0.000291 5
1513.37	(6)		162.6 2	(D(+Q))	+0.0 1	0.017	α=0.017 4
1617.66	(6)		754.1 2	(D+Q)	-0.34 10
1774.90	(7)		261.4 2	(D+Q)	+0.28 10
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2512.44	(8)	< 2 ns	1048.3 2	(D+Q)	+0.72 20
3043.45	(9+)	0.208 ns 8	390.4 2	M1+E2	+0.9 1	0.00337	B(E2)(W.u.)=3.0 4, B(M1)(W.u.)=0.00035 4, α=0.00337 16, α(K)=0.00301 14, α(L)=0.000313 15, α(M)=4.57E-5 22, α(N)=2.40E-6 11, α(N+)=2.40E-6 11
4162.1	(11)	< 2 ns	1118.6 2	(Q+O)	+0.16 20

Q(β-)=-2117 keV 4	S(n)= 9138 keV 4	S(p)= 5101 keV 4	Q(α)= -3362 keV 4
Reference: 2012WA38

References:
A	⁶⁶Ge ε decay	B	⁵⁶Fe(¹³C,2npγ), ⁵²Cr(¹⁶O,NPG)
C	⁶³Cu(α,nγ), ⁶⁴Zn(α,NPG)	D	⁶⁴Zn(α,d)
E	⁶⁶Zn(p,nγ)	F	⁶⁶Zn(³He,t)

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 E F	0+	9.49 h 3 % ε = 100
43.812 16	A B C E	1+	18.0 ns 9	43.81 3	100	M1	0.0	0+
66.139 19	A B C E	(2)+	23.0 ns 14	22.33 5	100	M1+E2	43.812	1+
108.893 15	A C D E	1+	1.2 ns 2	42.69 8 65.09 2 108.90 2	16 5 56 4 100 6	[M1] (M1+E2) M1	66.139 43.812 0.0	(2)+ 1+ 0+
162.472 20	A B C E	(3)+	13 ns 5	53.39 20 96.34 2 118.80 20	≤3.6 100 11 0.4	(M1+E2) E2(+M3)	108.893 66.139 43.812	1+ (2)+ 1+
234.043 17	A C E	2+		71.51 4 125.15 3 190.21 2 233.98 4	2.6 4 6.0 5 100 6 1.3 3	[D] M1+E2 M1+E2 E2	162.472 108.893 43.812 0.0	(3)+ 1+ 1+ 0+
290.908 25	A E	(0,1)+		182.03 4 247.08 6	100 6 1.3 4	M1+E2	108.893 43.812	1+ 1+
335.404 20	E	(2)+		172.95 3 226.50 3 269.27 3 291.59 3	9.0 11 34.6 25 35 4 100 6	M1+E2 M1+E2 M1+E2 M1+E2	162.472 108.893 66.139 43.812	(3)+ 1+ (2)+ 1+
381.859 20	A E	1+		90.94 5 147.79 3 272.97 4 315.55 13 338.05 3 381.85 5	1.4 4 4.6 9 37.4 13 2.90 10 31.0 20 100	[M1] [M1] M1+E2 M1+E2 M1	290.908 234.043 108.893 66.139 43.812 0.0	(0,1)+ 2+ 1+ (2)+ 1+ 0+
415.34 3	B C E	(4)+	< 2 ns	252.89 3 349.16 21	100 7 4.1 14	M1	162.472 66.139	(3)+ (2)+
423.77 3	E	(3)+		189.91 10 261.30 3 357.62 3	22 3 100 8 89 5	M1 M1	234.043 162.472 66.139	2+ (3)+ (2)+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
459.878 22	E	2+		124.54 10 225.82 11 297.38 5 351.01 3 393.67 4 416.02 3	2.3 9 3.4 9 4.4 10 33.7 24 11.7 13 100 7	M1+E2 M1 M1+E2	335.404 234.043 162.472 108.893 66.139 43.812	(2)+ 2+ (3)+ 1+ (2)+ 1+
516.20 4	B C E	(4)+	< 2 ns	101.0 3 353.75 3 449.99 5	100 6 11.4 20	M1+E2	415.34 162.472 66.139	(4)+ (3)+ (2)+
536.618 21	A E	1+		154.74 3 245.71 3 302.52 3 427.83 6 470.62 6 492.63 15 536.74 7	4.2 4 73 3 34 3 7.2 15 100 5 8.3 4 83 3	[M1] M1 M1	381.859 290.908 234.043 108.893 66.139 43.812 0.0	1+ (0,1)+ 2+ 1+ (2)+ 1+ 0+
552.90 3	C D E	(3)+		137.56 4 217.53 13 318.85 3 390.44 5 486.75 7	13 3 2.6 19 77 6 31 3 100 7	M1+E2 M1 M1	415.34 335.404 234.043 162.472 66.139	(4)+ (2)+ 2+ (3)+ (2)+
620.98 3	E	(2)+		285.65 7 386.85 5 458.52 4 577.18 3	3.2 15 39 3 37 3 100 10	M1 M1 M1	335.404 234.043 162.472 43.812	(2)+ 2+ (3)+ 1+
639.58 3	E	(3)+		215.94 17 224.29 11 304.16 4 405.65 10 477.12 3 573.46 5	1.9 14 3.5 16 17.8 24 3.2 16 100 8 24 4	M1 M1+E2	423.77 415.34 335.404 234.043 162.472 66.139	(3)+ (4)+ (2)+ 2+ (3)+ (2)+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
664.202 24	A E	(1,2)+		328.80 12 430.11 19 501.66 5 555.39 26 598.06 3 620.41 3 664.15 18	14.4 25 12.2 25 22 3 100 9 63 6 3.1 19	M1 M1	335.404 234.043 162.472 108.893 66.139 43.812 0.0	(2)+ 2+ (3)+ 1+ (2)+ 1+ 0+
705.995 21	A E	1+		41.84 10 169.47 10 246.1 4 323.8 3 370.9 5 415.28 13 472.00 11 597.14 4 639.74 11 662.19 5 705.94 3	3.3 26 4 2 3.3 7 9.9 13 76 5 5.9 7 13.8 7 2.6 7 100 5	[D] [M1] M1	664.202 536.618 459.878 381.859 335.404 290.908 234.043 108.893 66.139 43.812 0.0	(1,2)+ 1+ 2+ 1+ (2)+ (0,1)+ 2+ 1+ (2)+ 1+ 0+
721.89 3	C E	(3)+		386.43 19 487.93 8 559.40 5 655.75 3	18 4 67 7 33 5 100 11	M1	335.404 234.043 162.472 66.139	(2)+ 2+ (3)+ (2)+
783.96 15	C	(3)		718.0 2	100	(D)	66.139	(2)+
790.08 3	E	(1,2)+		150.68 7 253.46 14 330.10 4 408.15 23 556.16 25 681.07 6 724.00 3 746.24 8	3.3 17 4.7 17 18.1 25 1.9 17 12 3 9.7 19 100 11 6.4 19	M1	639.58 536.618 459.878 381.859 234.043 108.893 66.139 43.812	(3)+ 1+ 2+ 1+ 2+ 1+ (2)+ 1+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
838.93 3	D E			132.86 9 302.18 14 457.04 21 730.03 3 772.79 10 795.16 5	5 3 44 8 15 4 40 5 27 5 100 9		705.995 536.618 381.859 108.893 66.139 43.812	1+ 1+ 1+ 1+ (2)+ 1+
845.03 5	E	(2+,3,4+)		429.82 10 611.03 8 682.5 3 778.84 5	18 3 16 4 100 9	M1,E2	415.34 234.043 162.472 66.139	(4)+ 2+ (3)+ (2)+
863.55 6	B C E	(5)	< 2 ns	347.31 19 448.23 5 700.94 15	100 13 19 6	(D) (Q(+O))	516.20 415.34 162.472	(4)+ (4)+ (3)+
866.09 5	A E	1+		201.1 3 484.11 20 530.74 17 575.30 27 757.31 17 799.2 4 821.80 15 866.20 6	13 4 13 4 14 3 17 3 100 4 3.5 26 <18 30 3	M1,E2	664.202 381.859 335.404 290.908 108.893 66.139 43.812 0.0	(1,2)+ 1+ (2)+ (0,1)+ 1+ (2)+ 1+ 0+
943.86 5	E	(2+,3,4+)		427.55 23 608.07 26 709.75 9 781.40 17 877.75 5	20 6 13 6 100 10		516.20 335.404 234.043 162.472 66.139	(4)+ (2)+ 2+ (3)+ (2)+
974.48 4	A E	(1,2+)		683.55 14 740.53 8 812.4 4 865.7 4 908.12 8 930.67 11 974.56 7	18 5 7 5 5 4 100 9 26 5 36 5		290.908 234.043 162.472 108.893 66.139 43.812 0.0	(0,1)+ 2+ (3)+ 1+ (2)+ 1+ 0+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
998.62 7	E	(1+,2,3+)		461.96 15 575.0 3 889.77 10 932.43 9 955.0 5	41 14 35 18 63 14 100 18 57 16		536.618 423.77 108.893 66.139 43.812	1+ (3)+ 1+ (2)+ 1+
1001.39 15	A			619.46 15 ? 892.06 20 935.68 20	≤100 67 33 50 10		381.859 108.893 66.139	1+ 1+ (2)+
1018.31 17	E			602.82 19 856.2 3	81 42 100 50		415.34 162.472	(4)+ (3)+
1062.12 22	A			196.1 3 995.9 3	100 27		866.09 66.139	1+ (2)+
1065.15 19	E	(1+,2,3+)		683.1 3 730.1 5 902.8 4 956.5 5 1020.9 6	100 19 26 14		381.859 335.404 162.472 108.893 43.812	1+ (2)+ (3)+ 1+ 1+
1076.6 4	A			370.5 5 1010.5 5	100 30		705.995 66.139	1+ (2)+
1081.2 4	E			699.2 4 972.6 5	100 33		381.859 108.893	1+ 1+
1141.99 10	C			358.2 2 420.2 2 588.9 2 726.6 2	86 71 49 100		783.96 721.89 552.90 415.34	(3) (3)+ (3)+ (4)+
1164.22 22	A			782.3 4 1120.42 25	100 50		381.859 43.812	1+ 1+
1210.20 4	A			1101.26 4 1144.13 6	100 13 23 13		108.893 66.139	1+ (2)+
1350.63 11	B C	(5)		208.6 2 487.2 2 833.8 935.1 2	5 <27 100	(D)	1141.99 863.55 516.20 415.34	(5) (4)+ (4)+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1380 30	D	(6-)
1450	D
1456.08 6	A	1+		919.38 24 1165.83 21 1221.88 7 1347.35 25 1412.54 17 1456.6 6	32 13 51 13 100 6 15 5 83 6 19 6		536.618 290.908 234.043 108.893 43.812 0.0	1+ (0,1)+ 2+ 1+ 1+ 0+
1464.33 15	B C	(7)	57.3 ns 14	113.7 2 600.9 2	100 67	E2 (Q)	1350.63 863.55	(5) (5)
1513.37 13	C	(6)		162.6 2 371.5 2 649.7 2	60 80 100	(D(+Q)) (D)	1350.63 1141.99 863.55	(5) (5)
1556.65 3	A	1+		555.01 20 ? 1020.3 3 1174.74 17 1265.0 4 1322.54 4 1490.43 19 1512.87 4	≤17 2.1 13 18 3 11.7 21 66 4 17 4 100 13		1001.39 536.618 381.859 290.908 234.043 66.139 43.812	1+ 1+ (0,1)+ 2+ (2)+ 1+
1573.7 3	A C	1(+)		1339.6 3 1507.8 6	8 7 100		234.043 66.139	2+ (2)+
1617.66 21	C	(6)		754.1 2	100	(D+Q)	863.55	(5)
1769.36 20	A	1+		1387.4 4 1478.6 4 1660.2 4 1769.5 4	15 12 ≈21 50 40 100 40		381.859 290.908 108.893 0.0	1+ (0,1)+ 1+ 0+
1774.90 19	C	(7)		261.4 2	100	(D+Q)	1513.37	(6)
2408.43 25	C	(8)		944.1 2	100	(D)	1464.33	(7)
2512.44 21	C	(8)	< 2 ns	1048.3 2	100	(D+Q)	1464.33	(7)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2652.99 21	B C	(9+)	< 2 ns	1188.6 2	100	(Q)	1464.33	(7)
3043.45 18	B C D	(9+)	0.208 ns 8	390.4 2 531.2 2 1268.4 2 1579.1 2	92 28 100 40	M1+E2 (D) (Q)	2652.99 2512.44 1774.90 1464.33	(9+) (8) (7) (7)
3362.3 3	C			709.3 2	100		2652.99	(9+)
3420.1 3	C	(10)		376.6 2	100	(D)	3043.45	(9+)
3850	F	(0+)
4110.4 3	C	(10)		1066.9 2	100	(D)	3043.45	(9+)
4162.1 3	C	(11)	< 2 ns	1118.6 2	100	(Q+O)	3043.45	(9+)
4192.7 3	C			1539.7 2	100		2652.99	(9+)
4271.7 4	C	(12)		851.6 2	100	(Q)	3420.1	(10)
4302.7 3	C			1649.7 2	100		2652.99	(9+)
5109.2 4	C	(13)		947.1 2	100	(Q)	4162.1	(11)

E(level)	E(gamma)	Comments
43.812	43.81	M(γ): From internal-conversion coefficients in ⁶⁶Ge ε decay
66.139	22.33	M(γ): From internal-conversion coefficients in ⁶⁶Ge ε decay
108.893	65.09	M(γ): D+Q from α(K)exp=0.208 14, α(L)exp=0.021 4 measured in ⁶⁶Ge ε decay, M1⁺E2 from Jπ of the initial and final levels.
108.893	108.90	M(γ): From internal-conversion coefficients in ⁶⁶Ge ε decay
162.472	53.39	I(γ): there is serious disagreement over the relative branching of the 53γ. According to ⁶⁶Ge ε decay data the 53γ is the major branch while Iγ(53)/Iγ(96)=0.03 from γγ(θ) in (p,nγ).
	96.34	M(γ): from γ(θ) in (α,nγ), (α,npγ) and ΔJπ
	118.80	E(γ): reported in (α,nγ), (α,npγ); weak in (p,nγ)
234.043	125.15	M(γ): From α(K)exp in (p,nγ)
	190.21	M(γ): From internal-conversion coefficients in ⁶⁶Ge ε decay. From α(K)exp in (p,nγ)
	233.98	M(γ): From α(K)exp in (p,nγ)
290.908	182.03	I(γ): from ε decay larger by a factor of 2.5 compared to that from (p,nγ) M(γ): from α(K)exp=0.0115 15 in ⁶⁶Ge ε decay.. From α(K)exp in (p,nγ). From internal-conversion coefficients in ⁶⁶Ge ε decay
335.404	172.95	M(γ): From α(K)exp in (p,nγ)
	226.50	M(γ): from γ(θ) and α(K)exp in (p,nγ)
	269.27	M(γ): From α(K)exp in (p,nγ)
	291.59	E(γ): Eγ=291.23 16 observed in ⁶⁶Ge ε decay is shown deexciting the 291-keV level. The adopted gammas placement follows from the coincidence data of 1994Ti02 in (p,nγ) M(γ): From α(K)exp in (p,nγ)
381.859	272.97	M(γ): From α(K)exp in (p,nγ)
	338.05	M(γ): From α(K)exp in (p,nγ)
	381.85	M(γ): From α(K)exp in (p,nγ). From internal-conversion coefficients in ⁶⁶Ge ε decay
415.34	252.89	M(γ): From α(K)exp in (p,nγ)
423.77	261.30	M(γ): From α(K)exp in (p,nγ)
423.77	357.62	M(γ): From α(K)exp in (p,nγ)
459.878	225.82	E(γ): Eγ=225.93 24 observed in ⁶⁶Ge ε decay is shown deexciting the 291-keV level where it gave a poor fit to the level energy difference. The adopted gammas placement follows from the coincidence data of 1994Ti02 in (p,nγ)
	351.01	M(γ): From α(K)exp in (p,nγ)
	393.67	M(γ): From α(K)exp in (p,nγ)
	416.02	M(γ): From α(K)exp in (p,nγ)
E(level)	E(gamma)	Comments
516.20	353.75	M(γ): From α(K)exp in (p,nγ)
536.618	245.71	M(γ): From α(K)exp in (p,nγ)
536.618	536.74	M(γ): From α(K)exp in (p,nγ)
552.90	318.85	M(γ): From α(K)exp in (p,nγ)
	390.44	M(γ): From α(K)exp in (p,nγ)
	486.75	M(γ): From α(K)exp in (p,nγ)
620.98	386.85	M(γ): From α(K)exp in (p,nγ)
	458.52	M(γ): From α(K)exp in (p,nγ)
	577.18	M(γ): From α(K)exp in (p,nγ)
639.58	477.12	M(γ): From α(K)exp in (p,nγ)
639.58	573.46	M(γ): From α(K)exp in (p,nγ)
664.202	598.06	M(γ): From α(K)exp in (p,nγ)
664.202	620.41	M(γ): From α(K)exp in (p,nγ)
705.995	705.94	M(γ): From α(K)exp in (p,nγ)
721.89	655.75	M(γ): From α(K)exp in (p,nγ)
790.08	724.00	M(γ): From α(K)exp in (p,nγ)
845.03	778.84	M(γ): From α(K)exp in (p,nγ)
866.09	757.31	M(γ): From α(K)exp in (p,nγ)
974.48	974.56	I(γ): relative branchings of all these gammas are different in ε decay and (p,nγ) reaction
1062.12	196.1	I(γ): weak γ with large uncertainty in Iγ in ε decay
1076.6	370.5	I(γ): weak γ with large uncertainty in ε decay
1076.6	1010.5	I(γ): weak γ with large uncertainty in ε decay
1164.22	1120.42	I(γ): weak γ ray with large uncertainty
1350.63	487.2	E(γ): doublet in (α,nγ); multiply placed
1456.08	1165.83	E(γ): poor fit to level energy difference.
E(level)	E(gamma)	Comments
1464.33	113.7	M(γ): Q+O from γ(θ) in ⁶³Cu(α,nγ); E2 from RUL
1464.33	600.9	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
1513.37	649.7	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
1573.7	1507.8	I(γ): weak γ with large uncertainty in intensity from ε decay
2408.43	944.1	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
2652.99	1188.6	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
3043.45	390.4	M(γ): D+Q from γ(θ) ⁶³Cu(α,nγ); M1⁺E2 from RUL.
	531.2	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
	1579.1	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
3420.1	376.6	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
4110.4	1066.9	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
4162.1	1118.6	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
4271.7	851.6	M(γ): From γ(θ) in ⁶³Cu(α,nγ), ⁶⁴Zn(α,npγ) and ΔJπ
5109.2	947.1	M(γ): from γ(θ) in ⁶³Cu(α,nγ) and ⁶⁴Zn(α,npγ) and ΔJπ