List of levels for 70AS

Authors: G. G~urdal, E.A. Mccutchan | Citation: Nucl. Data Sheets 136, 1 (2016) | Cutoff date: 1-Jul-2016

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
32.046	2+	96 µs 3	32.05 3	E2		50.3	B(E2)(W.u.)=0.198 7, α=50.3, α(K)=36.8 6, α(L)=11.65 17, α(M)=1.75 3, α(N)=0.0962 14
81.54	1+	< 3 ns	49.51 3	(M1)		0.643	B(M1)(W.u.)>0.037, α=0.643, α(K)=0.570 8, α(L)=0.0628 9, α(M)=0.00959 14, α(N)=0.000719 11
166.734	3+	6.0 ns 5	134.63 5	M1(+E2)	-0.01 4	0.0404	B(M1)(W.u.)=0.00118 14, α=0.0404 8, α(K)=0.0359 7, α(L)=0.00386 8, α(M)=0.000590 12, α(N)=4.46×10^-5 9
166.734	3+	6.0 ns 5	166.83 10	M1		0.0230	B(M1)(W.u.)=0.000143 19, α=0.0230, α(K)=0.0204 3, α(L)=0.00218 3, α(M)=0.000334 5, α(N)=2.53×10^-5 4
167.74	(2)+	< 3 ns	86.19 3	[M1+E2]		0.8	α=0.8 7, α(K)=0.7 6, α(L)=0.09 8, α(M)=0.014 12, α(N)=0.0009 8
234.74	1+	< 1 ns	153.18 3	[M1+E2]		0.09	α=0.09 7, α(K)=0.08 6, α(L)=0.010 7, α(M)=0.0015 11, α(N)=0.00011 8
234.74	1+	< 1 ns	202.66 3	M1		0.01392	B(M1)(W.u.)>0.0023, α=0.01392, α(K)=0.01238 18, α(L)=0.001316 19, α(M)=0.000201 3, α(N)=1.524×10^-5 22
325.66	2+		244.10 3	M1		0.00869	α=0.00869, α(K)=0.00774 11, α(L)=0.000819 12, α(M)=0.0001250 18, α(N)=9.49×10^-6 14
325.66	2+		293.66 5	M1		0.00550	α=0.00550, α(K)=0.00490 7, α(L)=0.000516 8, α(M)=7.87×10^-5 11, α(N)=5.99E-6 9
328.65	1+		160.89 3	M1(+E2)	+0.05 28	0.026	α=0.026 11, α(K)=0.023 9, α(L)=0.0024 11, α(M)=0.00037 17, α(N)=2.8×10^-5 12
	1+		247.11 3	M1(+E2)	-0.16 40	0.009	α=0.009 4, α(K)=0.008 4, α(L)=0.0008 5, α(M)=0.00013 7, α(N)=1.0×10^-5 5
	1+		296.64 3	M1		0.00537	α=0.00537, α(K)=0.00478 7, α(L)=0.000503 7, α(M)=7.68×10^-5 11, α(N)=5.84E-6 9
344.65	(0)+	< 1 ns	263.13 3	M1		0.00721	B(M1)(W.u.)>0.0011, α=0.00721, α(K)=0.00642 9, α(L)=0.000678 10, α(M)=0.0001035 15, α(N)=7.86×10^-6 11
344.65	(0)+	< 1 ns	312.62 5	[E2]		0.01199	B(E2)(W.u.)>0.93, α=0.01199, α(K)=0.01064 15, α(L)=0.001165 17, α(M)=0.0001771 25, α(N)=1.306E-5 19
383.33	2-	< 1 ns	148.57 3	[E1+M2]	+0.14 7	0.027	B(E1)(W.u.)>1.5E-5, α=0.027 5, α(K)=0.024 5, α(L)=0.0025 6, α(M)=0.00039 9, α(N)=2.9E-5 6
383.33	2-	< 1 ns	301.80 3	E1		0.00290	B(E1)(W.u.)>1.1E-5, α=0.00290, α(K)=0.00259 4, α(L)=0.000268 4, α(M)=4.07E-5 6, α(N)=3.08E-6 5
390.14	3+	< 1 ns	223.42 3	M1		0.01086	B(M1)(W.u.)>0.0015, α=0.01086, α(K)=0.00967 14, α(L)=0.001025 15, α(M)=0.0001565 22, α(N)=1.187×10^-5 17
390.14	3+	< 1 ns	390.15 4	M1		0.00277	B(M1)(W.u.)>9.1×10^-5, α=0.00277, α(K)=0.00247 4, α(L)=0.000259 4, α(M)=3.95E-5 6, α(N)=3.01E-6 5
425.33	(0)+		343.81 10	M1		0.00375	α=0.00375, α(K)=0.00334 5, α(L)=0.000351 5, α(M)=5.35×10^-5 8, α(N)=4.07E-6 6
458.16	1+		376.64 4	M1		0.00302	α=0.00302, α(K)=0.00269 4, α(L)=0.000281 4, α(M)=4.29×10^-5 6, α(N)=3.27E-6 5
458.16	1+		426.11 3	M1		0.00225	α=0.00225, α(K)=0.00201 3, α(L)=0.000210 3, α(M)=3.20×10^-5 5, α(N)=2.44E-6 4
485.324	4-	4.1 ns 4	95.18 6	[E1]		0.0859	B(E1)(W.u.)=7E-7 3, α=0.0859, α(K)=0.0766 11, α(L)=0.00802 12, α(M)=0.001212 18, α(N)=8.95E-5 13
	4-	4.1 ns 4	318.60 3	E1+M2	-0.041 20	0.00252	B(E1)(W.u.)=1.60E-6 20, B(M2)(W.u.)=0.12 11, α=0.00252 5, α(K)=0.00225 5, α(L)=0.000233 5, α(M)=3.54E-5 8, α(N)=2.68E-6 6
	4-	4.1 ns 4	485.31 3	E1(+M2)	-0.004 15	8.24×10^-4	B(E1)(W.u.)=3.9E-7 5, α=8.24E-4, α(K)=0.000736 11, α(L)=7.59E-5 11, α(M)=1.155E-5 17, α(N)=8.77E-7 13
508.84	3+		342.24 10	M1		0.00379	α=0.00379, α(K)=0.00338 5, α(L)=0.000354 5, α(M)=5.41×10^-5 8, α(N)=4.12E-6 6
508.84	3+		476.75 6	M1		1.74×10^-3	α=1.74×10^-3, α(K)=0.001549 22, α(L)=0.0001612 23, α(M)=2.46E-5 4, α(N)=1.88E-6 3
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
540.01	2+		458.48 3	M1		0.00190	α=0.00190, α(K)=0.001695 24, α(L)=0.0001766 25, α(M)=2.69×10^-5 4, α(N)=2.05E-6 3
566.52	5(-)	< 2 ns	81.19 3	D+Q	0.08 4
571.95	2+		539.92 3	M1+E2	+0.11 8	1.32×10^-3	α=1.32×10^-3 3, α(K)=0.001173 22, α(L)=0.0001218 24, α(M)=1.86E-5 4, α(N)=1.42E-6 3
581.62	1+		255.96 4	M1		0.00772	α=0.00772, α(K)=0.00688 10, α(L)=0.000726 11, α(M)=0.0001109 16, α(N)=8.42×10^-6 12
581.62	1+		413.89 4	M1		0.00241	α=0.00241, α(K)=0.00215 3, α(L)=0.000225 4, α(M)=3.43×10^-5 5, α(N)=2.61E-6 4
592.52	1+,2+		424.87 51	M1		0.00227	α=0.00227, α(K)=0.00202 3, α(L)=0.000211 3, α(M)=3.22×10^-5 5, α(N)=2.46E-6 4
625.21	4+		235.10 4	M1(+E2)	0.35 LT	0.0108	α=0.0108 13, α(K)=0.0096 12, α(L)=0.00103 13, α(M)=0.000157 20, α(N)=1.18×10^-5 15
641.86	3+		474.12 3	M1		1.76×10^-3	α=1.76×10^-3, α(K)=0.001569 22, α(L)=0.0001633 23, α(M)=2.49E-5 4, α(N)=1.90E-6 3
698.88	3-		315.53 3	M1		0.00462	α=0.00462, α(K)=0.00411 6, α(L)=0.000432 6, α(M)=6.60×10^-5 10, α(N)=5.02E-6 7
772.30	3-		286.96 4	M1		0.00582	α=0.00582, α(K)=0.00518 8, α(L)=0.000546 8, α(M)=8.34×10^-5 12, α(N)=6.34E-6 9
772.30	3-		388.96 4	M1		0.00279	α=0.00279, α(K)=0.00249 4, α(L)=0.000260 4, α(M)=3.97×10^-5 6, α(N)=3.03E-6 5
868.90	6(-)		302.41 5	(M1+E2)	0.044 23	0.00513	α=0.00513, α(K)=0.00457 7, α(L)=0.000481 7, α(M)=7.35×10^-5 11, α(N)=5.59E-6 9
887.61	7(-)	4.5 ns 3	321.1 3	E2		0.01093	B(E2)(W.u.)=2.13 15, α=0.01093, α(K)=0.00970 14, α(L)=0.001060 16, α(M)=0.0001611 24, α(N)=1.190E-5 18
938.96	4-		372.39 8	M1+E2		0.0048	α=0.0048 18, α(K)=0.0043 16, α(L)=0.00046 18, α(M)=7.E-5 3, α(N)=5.3E-6 19
1045.85	6(-)		479.35 9	(D+Q)	-2.9 3	0.00516	α=0.00516 13, α(K)=0.00459 12, α(L)=0.000496 13, α(M)=7.58×10^-5 20, α(N)=5.75E-6 15
1496.01	7(-)		929.6 4	E2		4.60×10^-4	α=4.60×10^-4, α(K)=0.000410 6, α(L)=4.26E-5 6, α(M)=6.50E-6 10, α(N)=4.94E-7 7
1675.86	8(+)	55 ps 20	788.3 2	(E1+M2)	0.017 13	2.70×10^-4	B(E1)(W.u.)=1.5E-5 6, B(M2)(W.u.)=0.03 +5-2, α=2.70E-4, α(K)=0.000241 4, α(L)=2.47E-5 4, α(M)=3.76E-6 6, α(N)=2.87E-7 4
1752.0	9(+)	59 ps 30	76.1 1	(M1(+E2))	0.01 3	0.191	B(M1)(W.u.)=0.7 4, α=0.191 4, α(K)=0.170 4, α(L)=0.0185 5, α(M)=0.00283 8, α(N)=0.000213 5
1983.2	8(-)		938.4 6	(E2)		4.50×10^-4	α=4.50×10^-4, α(K)=0.000401 6, α(L)=4.17E-5 6, α(M)=6.35E-6 9, α(N)=4.82E-7 7
1983.2	8(-)		1114.7 4	E2		3.02×10^-4	α=3.02×10^-4, α(K)=0.000268 4, α(L)=2.77E-5 4, α(M)=4.22E-6 6, α(N)=3.22E-7 5
2282.1	9(-)		1394.4 3	E2		2.37×10^-4	α=2.37×10^-4, α(K)=0.0001655 24, α(L)=1.701E-5 24, α(M)=2.59E-6 4, α(N)=1.98E-7 3
2579.0	9(-)		596.3 3	M1+E2		0.00127	α=0.00127 23, α(K)=0.00114 21, α(L)=0.000119 23, α(M)=1.8×10^-5 4, α(N)=1.37E-6 25
	9(-)		771.5 8	E2		7.37×10^-4	α=7.37×10^-4, α(K)=0.000657 10, α(L)=6.87E-5 10, α(M)=1.046E-5 15, α(N)=7.93E-7 12
	9(-)		1081.9 5	E2		3.22×10^-4	α=3.22×10^-4, α(K)=0.000287 4, α(L)=2.97E-5 5, α(M)=4.52E-6 7, α(N)=3.45E-7 5
2579.8	10(+)	0.53 ps 4	827.9 3	M1+E2		0.00056	α=0.00056 6, α(K)=0.00050 5, α(L)=5.2×10^-5 5, α(M)=7.9E-6 8, α(N)=6.0E-7 6
2579.8	10(+)	0.53 ps 4	904.0 4	E2		4.93×10^-4	B(E2)(W.u.)=64 12, α=4.93E-4, α(K)=0.000439 7, α(L)=4.57E-5 7, α(M)=6.96E-6 10, α(N)=5.29E-7 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2732.7	11(+)	0.527 ps 14	980.7 3	E2		4.04×10^-4	B(E2)(W.u.)=66.2 21, α=4.04E-4, α(K)=0.000361 5, α(L)=3.74E-5 6, α(M)=5.70E-6 8, α(N)=4.34E-7 6
3300.6	10(-)		1317.0 7	E2		2.41×10^-4	α=2.41×10^-4, α(K)=0.000186 3, α(L)=1.92E-5 3, α(M)=2.92E-6 5, α(N)=2.23E-7 4
3772.2	11(-)		1194.0 8	E2		2.66×10^-4	α=2.66×10^-4, α(K)=0.000230 4, α(L)=2.38E-5 4, α(M)=3.62E-6 5, α(N)=2.76E-7 4
3772.2	11(-)		1490.0 3	E2		2.44×10^-4	α=2.44×10^-4, α(K)=0.0001445 21, α(L)=1.483E-5 21, α(M)=2.26E-6 4, α(N)=1.727E-7 25
3792.2	12(+)	< 0.31 ps	1212.0 6	E2		2.60×10^-4	B(E2)(W.u.)>29, α=2.60E-4, α(K)=0.000223 4, α(L)=2.30E-5 4, α(M)=3.50E-6 5, α(N)=2.67E-7 4
4076.0	13(+)	0.069 ps 7	1343.3 6	E2		2.39×10^-4	B(E2)(W.u.)=109 12, α=2.39E-4, α(K)=0.000179 3, α(L)=1.84E-5 3, α(M)=2.80E-6 4, α(N)=2.14E-7 3
4206.5	12(-)	< 0.76 ps	905.7 6	E2		4.90×10^-4	B(E2)(W.u.)>37, α=4.90E-4, α(K)=0.000437 7, α(L)=4.55E-5 7, α(M)=6.93E-6 10, α(N)=5.26E-7 8
	12(-)	< 0.76 ps	934.1 8	[E1]		1.91×10^-4	B(E1)(W.u.)>2.7E-5, α=1.91E-4, α(K)=0.0001703 24, α(L)=1.742E-5 25, α(M)=2.65E-6 4, α(N)=2.03E-7 3
	12(-)	< 0.76 ps	1474.0 3	E1		3.15×10^-4	α=3.15×10^-4, α(K)=7.46E-5 11, α(L)=7.60E-6 11, α(M)=1.157E-6 17, α(N)=8.85E-8 13
4604.5	13(-)		832.4 3	E2		6.05×10^-4	α=6.05×10^-4, α(K)=0.000540 8, α(L)=5.63E-5 8, α(M)=8.58E-6 12, α(N)=6.51E-7 10
4818.8	14(-)	< 2.2 ps	743.2 2	(E1)		3.06×10^-4	B(E1)(W.u.)>0.00018, α=3.06E-4, α(K)=0.000273 4, α(L)=2.80E-5 4, α(M)=4.26E-6 6, α(N)=3.25E-7 5
5457.9	(15+)	< 0.18 ps	1381.8 8	[E2]		2.37×10^-4	B(E2)(W.u.)>36, α=2.37E-4, α(K)=0.0001686 24, α(L)=1.733E-5 25, α(M)=2.64E-6 4, α(N)=2.02E-7 3
5498.4	15(-)		893.9 4	E2		5.06×10^-4	α=5.06×10^-4, α(K)=0.000452 7, α(L)=4.70E-5 7, α(M)=7.16E-6 10, α(N)=5.44E-7 8

Q(β-)=-2.41×10³ keV 5	S(n)= 9.30×10³ keV 6	S(p)= 4.53×10³ keV 5	Q(α)= -3.04×10³ keV 5
Reference: 2012WA38

References:
A	⁷⁰Se β⁺ decay	B	⁹Be(⁷⁸Rb,⁷⁰AsG)
C	⁵¹V(²⁸Si,2αnγ),⁴⁶Ti(²⁸Si,3PNG)	D	⁵⁵Mn(¹⁸O,3nγ)
E	⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,NPG)	F	⁷⁰Ge(p,nγ)

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	4+	52.6 m 3 % ε = 100
32.046 23	A B C D E F	2+	96 µs 3	32.05 3	100	E2	0.0	4+
81.54 3	A F	1+	< 3 ns	49.51 3	100	(M1)	32.046	2+
166.734 24	B C D E F	3+	6.0 ns 5	134.63 5 166.83 10	100 6 23.0 20	M1(+E2) M1	32.046 0.0	2+ 4+
167.74 3	A F	(2)+	< 3 ns	86.19 3 135.68 5	46.0 24 100 6	[M1+E2]	81.54 32.046	1+ 2+
234.74 3	A F	1+	< 1 ns	153.18 3 202.66 3	12.0 9 100 7	[M1+E2] M1	81.54 32.046	1+ 2+
325.66 3	A F	2+		90.96 8 158.89 9 244.10 3 293.66 5	3.7 6 5.1 6 100 6 20.3 15	M1 M1	234.74 166.734 81.54 32.046	1+ 3+ 1+ 2+
328.65 3	A F	1+		93.88 7 160.89 3 247.11 3 296.64 3	4.0 8 100 6 40.0 25 50 3	M1(+E2) M1(+E2) M1	234.74 167.74 81.54 32.046	1+ (2)+ 1+ 2+
344.65 3	A F	(0)+	< 1 ns	109.84 6 263.13 3 312.62 5	3.5 7 100 6 9.6 12	M1 [E2]	234.74 81.54 32.046	1+ 1+ 2+
383.33 3	F	2-	< 1 ns	148.57 3 215.51 15 301.80 3 351.29 4	17.0 9 2.0 4 100 5 10.8 8	[E1+M2] E1	234.74 167.74 81.54 32.046	1+ (2)+ 1+ 2+
390.14 3	C D E F	3+	< 1 ns	223.42 3 390.15 4	100 6 33.1 19	M1 M1	166.734 0.0	3+ 4+
425.33 5	F	(0)+		190.52 6 343.81 10	10.2 14 100 6	M1	234.74 81.54	1+ 1+
458.16 3	A F	1+		113.50 4 129.49 17 132.51 4 223.38 9 290.2 4 376.64 4 426.11 3	7.0 9 1.0 2 11.3 13 4 3 1.5 4 29.0 22 100 8	M1 M1	344.65 328.65 325.66 234.74 167.74 81.54 32.046	(0)+ 1+ 2+ 1+ (2)+ 1+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
485.324 22	B C D E F	4-	4.1 ns 4	95.18 6 318.60 3 485.31 3	1.1 5 100 6 86 6	[E1] E1+M2 E1(+M2)	390.14 166.734 0.0	3+ 3+ 4+
508.84 6	F	3+		342.24 10 476.75 6	43 3 100 7	M1 M1	166.734 32.046	3+ 2+
540.01 4	F	2+		458.48 3	100	M1	81.54	1+
566.52 4	B C D E F	5(-)	< 2 ns	81.19 3	100	D+Q	485.324	4-
571.95 4	F	2+		404.15 8 490.35 10 539.92 3	20 3 19.4 20 100 7	M1+E2	167.74 81.54 32.046	(2)+ 1+ 2+
581.62 4	A F	1+		255.96 4 413.89 4 500.10 6 549.50 10	70 4 100 7 48 4 16 4	M1 M1	325.66 167.74 81.54 32.046	2+ (2)+ 1+ 2+
592.52 4	F	1+,2+		263.93 14 357.81 7 424.87 51 560.46 4	9.0 25 19 5 31 8 100 8	M1	328.65 234.74 167.74 32.046	1+ 1+ (2)+ 2+
625.21 4	F	4+		235.10 4 458.41 8 625.17 7	63 5 18 8 100 11	M1(+E2)	390.14 166.734 0.0	3+ 3+ 4+
641.86 4	F	3+		474.12 3	100	M1	167.74	(2)+
683.97 7	F	(0)		358.32 9 449.24 10 516.1 4	54 10 100 10 <16		325.66 234.74 167.74	2+ 1+ (2)+
687.59 4	F	(3+,4+)		297.51 6 519.85 12 520.82 5	8.0 25 26 18 100 19		390.14 167.74 166.734	3+ (2)+ 3+
698.88 4	F	3-		315.53 3	100	M1	383.33	2-
721.90 4	F	(3)		554.04 15 555.11 8 640.35 6 689.88 5	10 6 36 7 73 8 100 12		167.74 166.734 81.54 32.046	(2)+ 3+ 1+ 2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
772.30 3	F	3-		286.96 4 388.96 4	36.2 25 100 7	M1 M1	485.324 383.33	4- 2-
778.96 4	F	(4-)		80.04 6 293.66 5	2.4 8 100 6		698.88 485.324	3- 4-
815.48 5	F	(3)		275.52 7 647.81 7 783.35 6	22 5 75 10 100 10		540.01 167.74 32.046	2+ (2)+ 2+
868.90 6	B C D E F	6(-)		302.41 5	100	(M1+E2)	566.52	5(-)
887.61 20	B C D E	7(-)	4.5 ns 3	321.1 3	100	E2	566.52	5(-)
890.47 4	A F	1+	5.5 ns 10	545.83 5 561.88 11 564.78 6 858.40 13	100 9 56 10 49 7 15 7		344.65 328.65 325.66 32.046	(0)+ 1+ 2+ 2+
898.30 6	B C D E F	(5)		29.8 2 ? 331.74 5	100		868.90 566.52	6(-) 5(-)
928.14 5	F	(2,1)		602.54 9 761.30 9 896.10 6	100 10 24 5 28 5		325.66 166.734 32.046	2+ 3+ 2+
933.20 15	B C E			34.7 2 64.5 2	100 33 100 33		898.30 868.90	(5) 6(-)
938.96 5	F	4-		166.69 10 240.07 7 372.39 8 555.66 8	1.0E2 3 37 8 56 12 56 19	M1+E2	772.30 698.88 566.52 383.33	3- 3- 5(-) 2-
939.28 5	F	(2,1)		549.11 8 704.61 12 772.50 8 857.82 11	60 10 45 10 69 10 100 10		390.14 234.74 166.734 81.54	3+ 1+ 3+ 1+
950.28 9	F	(0)		621.63 9	100		328.65	1+
966.86 9	F	(5)		576.72 9	100		390.14	3+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
987.80 8	F	(0,3)		662.10 10 906.32 12	1.0E2 5 29 3		325.66 81.54	2+ 1+
1003.62 5	F	1,2		578.20 7 659.02 6 675.02 25 678.03 13	100 16 100 20 88 24 56 24		425.33 344.65 328.65 325.66	(0)+ (0)+ 1+ 2+
1026.33 4	F	(1-,2)		254.01 4 327.37 10 944.85 6	100 9 68 9 76 12		772.30 698.88 81.54	3- 3- 1+
1045.85 9	B C D E F	6(-)		479.35 9	100	(D+Q)	566.52	5(-)
1046.43 5	F	(1,2)		656.20 20 878.75 9 964.86 6	14 9 86 12 100 12		390.14 167.74 81.54	3+ (2)+ 1+
1115.08 7	F	(1,2)		656.80 20 789.43 7			458.16 325.66	1+ 2+
1454.01 20	B C D E	6+		408.2 3 566.4 1 1454.2 8	18 4 100 8 13 6	D	1045.85 887.61 0.0	6(-) 7(-) 4+
1496.01 18	D	7(-)		626.9 2 929.6 4	100 10 62 19	D+Q E2	868.90 566.52	6(-) 5(-)
1651.2 4	A	1+		1323.7 12 1570.5 9 1618.8 4	100 25 83 8 50 8		328.65 81.54 32.046	1+ 1+ 2+
1675.86 25	B C D E	8(+)	55 ps 20	221.8 4 743.0 2 ? 788.3 2	1.4 5 13.0 20 100.0 5	(E1+M2)	1454.01 933.20 887.61	6+ 7(-)
1725.8 4	D			271.8 3	100	D+Q	1454.01	6+
1752.0 3	B C D E	9(+)	59 ps 30	76.1 1	100	(M1(+E2))	1675.86	8(+)
1765.5 3	D			312.0 6 719.5 5 896.4 6	25 8 23 10 100 19		1454.01 1045.85 868.90	6+ 6(-) 6(-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1806.8 4	D	7(-)		919.0 4	100	D+Q	887.61	7(-)
1809.2 3	E			57.2 2	100		1752.0	9(+)
1983.2 3	D	8(-)		938.4 6 1114.7 4	30 9 100 10	(E2) E2	1045.85 868.90	6(-) 6(-)
2282.1 3	D	9(-)		1394.4 3	100	E2	887.61	7(-)
2379.4 8	D	9(+)		703.5 8	100	D+Q	1675.86	8(+)
2467.2 4	B C D E	9(+)		741.5 98 791.5 9	31 14 100 30	D+Q	1725.8 1675.86	8(+)
2579.0 3	D	9(-)		596.3 3 771.5 8 1081.9 5	100 30 9 3 53 15	M1+E2 E2 E2	1983.2 1806.8 1496.01	8(-) 7(-) 7(-)
2579.8 3	B C D E	10(+)	0.53 ps 4	827.9 3 904.0 4	61 12 100 12	M1+E2 E2	1752.0 1675.86	9(+) 8(+)
2691.0 4	D	9(+)		1015.1 3	100	D+Q	1675.86	8(+)
2732.7 3	B C D E	11(+)	0.527 ps 14	153.0 3 980.7 3	4.3 8 100 1	E2	2579.8 1752.0	10(+) 9(+)
2873.2 4	D	10(+)		406.1 4 1121.1 4	10 7 100 25	D+Q	2467.2 1752.0	9(+) 9(+)
3272.3 3	C D	11(+)		693.2 3 805.1 4 1521.3 8	100 22 39 11 33 6	D+Q	2579.8 2467.2 1752.0	10(+) 9(+) 9(+)
3300.6 5	D	10(-)		1317.0 7	100	E2	1983.2	8(-)
3694.5 11	D	10(+)		1227.3 10	100	D+Q	2467.2	9(+)
3772.2 3	D	11(-)		1194.0 8 1490.0 3	44 11 100 17	E2 E2	2579.0 2282.1	9(-) 9(-)
3792.2 4	D	12(+)	< 0.31 ps	1058.9 6 1212.0 6	39 14 100 14	D+Q E2	2732.7 2579.8	11(+) 10(+)
4076.0 7	B C D E	13(+)	0.069 ps 7	1343.3 6	100	E2	2732.7	11(+)
4114.3 5	D	(11-)		1832.8 10	100		2282.1	9(-)
4206.5 3	C D	12(-)	< 0.76 ps	905.7 6 934.1 8 1474.0 3	100 14 8 4 85 14	E2 [E1] E1	3300.6 3272.3 2732.7	10(-) 11(+) 11(+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4604.5 3	D	13(-)		398.0 1 490.3 4 812.1 3 832.4 3	25 3 22 8 12 3 100 23	D+Q D E2	4206.5 4114.3 3792.2 3772.2	12(-) (11-) 12(+) 11(-)
4818.8 4	D	14(-)	< 2.2 ps	612.3 3 743.2 2	100 11 72 11	(E1)	4206.5 4076.0	12(-) 13(+)
5364.9 6 ?	D	14(-)		759.9 6 ? 1159.2 8 ?	100 40 80 40	D+Q	4604.5 4206.5	13(-) 12(-)
5457.9 10	D	(15+)	< 0.18 ps	1381.8 8	100	[E2]	4076.0	13(+)
5498.4 5	D	15(-)		893.9 4	100	E2	4604.5	13(-)
5884.1 7	D	15(-)		1065.3 5	100	D+Q	4818.8	14(-)
6246.5 7	D	(16-)		1427.7 6	100		4818.8	14(-)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - Based on 9⁺, 1752-keV level.
1752.0 3	9(+)	59 ps 30
2732.7 3	11(+)	0.527 ps 14	153.0 3 980.7 3	4.3 8 100 1	E2	2579.8 1752.0	10(+) 9(+)
4076.0 7	13(+)	0.069 ps 7	1343.3 6	100	E2	2732.7	11(+)
5457.9 10	(15+)	< 0.18 ps	1381.8 8	100	[E2]	4076.0	13(+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - Based on 8⁺, 1676-keV level.
1675.86 25	8(+)	55 ps 20
2579.8 3	10(+)	0.53 ps 4	827.9 3 904.0 4	61 12 100 12	M1+E2 E2	1752.0 1675.86	9(+) 8(+)
3792.2 4	12(+)	< 0.31 ps	1058.9 6 1212.0 6	39 14 100 14	D+Q E2	2732.7 2579.8	11(+) 10(+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Negative parity band based on 6(-), 869-keV level.
868.90 6	6(-)
1983.2 3	8(-)		938.4 6 1114.7 4	30 9 100 10	(E2) E2	1045.85 868.90	6(-) 6(-)
3300.6 5	10(-)		1317.0 7	100	E2	1983.2	8(-)
4206.5 3	12(-)	< 0.76 ps	905.7 6 934.1 8 1474.0 3	100 14 8 4 85 14	E2 [E1] E1	3300.6 3272.3 2732.7	10(-) 11(+) 11(+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Negative parity band based on 5(-), 567-keV level.
566.52 4	5(-)	< 2 ns
1496.01 18	7(-)		626.9 2 929.6 4	100 10 62 19	D+Q E2	868.90 566.52	6(-) 5(-)
2579.0 3	9(-)		596.3 3 771.5 8 1081.9 5	100 30 9 3 53 15	M1+E2 E2 E2	1983.2 1806.8 1496.01	8(-) 7(-) 7(-)
3772.2 3	11(-)		1194.0 8 1490.0 3	44 11 100 17	E2 E2	2579.0 2282.1	9(-) 9(-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - Negative parity band based on 7(-), 888-keV level.
887.61 20	7(-)	4.5 ns 3
2282.1 3	9(-)		1394.4 3	100	E2	887.61	7(-)

E(level)	E(gamma)	Comments
32.046	32.05	E(γ): From ⁷⁰Se β⁺ decay I(γ): From ⁷⁰Se β⁺ decay M(γ): from comparison with RUL and α(L)exp in β⁺ decay in 1974Te04, no direct β⁺/ε-feeding observed. Other: Estimated from the transition probabilities deduced from measured halflife in 1979Te06.
81.54	49.51	E(γ): From ⁷⁰Se β⁺ decay I(γ): From ⁷⁰Se β⁺ decay M(γ): ce data indicate E1 or M1; M1 based on the decay pattern.. From γ(θ) and linear polarization in ⁵⁸Ni(¹⁴N,2pγ),⁵⁶Fe(¹⁶O,npγ)
166.734	134.63	M(γ): From γ(θ) and linear polarization in ⁵⁸Ni(¹⁴N,2pγ),⁵⁶Fe(¹⁶O,npγ)
390.14	223.42	E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided
458.16	223.38	E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided
485.324	318.60	M(γ): from γ(θ) and γ(lin pol) in ⁵⁸Ni(¹⁴N,2pγ),
868.90	302.41	M(γ): From γ(θ) and linear polarization in ⁵⁸Ni(¹⁴N,2pγ),⁵⁶Fe(¹⁶O,npγ)
887.61	321.1	E(γ): From ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ) M(γ): E2 from RUL. E2⁺M3 with δ = 0.04 3 in ⁵⁸Ni(¹⁴N,2pγ), however, this results in an M3 component which exceeds RUL.
898.30	29.8	E(γ): from ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ)
933.20	34.7	E(γ): From ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ)
933.20	64.5	E(γ): From ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ)
1454.01	408.2	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
	566.4	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
	1454.2	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
1496.01	626.9	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
1496.01	929.6	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
1651.2	1323.7	E(γ): From ⁷⁰Se β⁺ decay I(γ): From ⁷⁰Se β⁺ decay
	1570.5	E(γ): From ⁷⁰Se β⁺ decay I(γ): From ⁷⁰Se β⁺ decay
	1618.8	E(γ): From ⁷⁰Se β⁺ decay I(γ): From ⁷⁰Se β⁺ decay
1675.86	221.8	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
1675.86	788.3	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From γ(θ) and linear polarization in ⁵⁸Ni(¹⁴N,2pγ),⁵⁶Fe(¹⁶O,npγ)
1725.8	271.8	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
1752.0	76.1	E(γ): From ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ) I(γ): From ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ) M(γ): d(+Q) from γ(θ) in ⁵⁸Ni(¹⁴N,2pγ),⁵⁶Fe(¹⁶O,npγ), M1(+E2) from assumed member of rotational band.
1765.5	312.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
1765.5	719.5	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
E(level)	E(gamma)	Comments
1806.8	919.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
1809.2	57.2	E(γ): From ⁵⁸Ni(¹⁴N,2pγ), ⁵⁶Fe(¹⁶O,npγ)
1983.2	938.4	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): Q from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ), Δπ=no from level scheme
1983.2	1114.7	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2282.1	1394.4	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2379.4	703.5	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2467.2	741.5	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
2467.2	791.5	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2579.0	596.3	M(γ): D+Q from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ), Δπ=no from level scheme
	771.5	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
	1081.9	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2579.8	827.9	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): D+Q from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ), Δπ=no from level scheme
2579.8	904.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2691.0	1015.1	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
2732.7	153.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
2732.7	980.7	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): E2 from RUL. E2⁺M3 with δ = -0.06 3 in ⁵⁸Ni(¹⁴N,2pγ), however, this results in an M3 component which exceeds RUL.
2873.2	406.1	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
2873.2	1121.1	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3272.3	693.2	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3272.3	805.1	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
3300.6	1317.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3694.5	1227.3	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3772.2	1194.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3772.2	1490.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3792.2	1058.9	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
3792.2	1212.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
E(level)	E(gamma)	Comments
4076.0	1343.3	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
4114.3	1832.8	E(γ): From ⁵⁵Mn(¹⁸O,3nγ)
4206.5	905.7	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): Q from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ); M2 excluded by comparison to RUL
	934.1	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
	1474.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): d from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ); Δπ=yes from level scheme
4604.5	398.0	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
	490.3	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
	812.1	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
	832.4	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ)
4818.8	612.3	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): Q from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ); M2 excluded by comparison to RUL
4818.8	743.2	E(γ): placement from ⁵⁵Mn(¹⁸O,3nγ). α 743γ is placed from the 1676-keV level in ⁵¹V(²⁸Si,2αnγ),⁴⁶Ti(²⁸Si,3pnγ) and ⁵⁸Ni(¹⁴N,2pγ),⁵⁶Fe(¹⁶O,npγ).. From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): d from R(DCO) in ⁵⁵Mn(¹⁸O,3nγ); Δπ=no from level scheme. From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
5364.9	759.9	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
5364.9	1159.2	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) I(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
5457.9	1381.8	E(γ): From ⁵⁵Mn(¹⁸O,3nγ)
5498.4	893.9	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
5884.1	1065.3	E(γ): From ⁵⁵Mn(¹⁸O,3nγ) M(γ): From R(DCO) in ⁵⁵Mn(¹⁸O,3nγ). Stretched Q transitions are taken as E2 in character.
6246.5	1427.7	E(γ): From ⁵⁵Mn(¹⁸O,3nγ)