List of levels for 90NB

Authors: S. K. Basu, E.A. Mccutchan | Citation: Nucl. Data Sheets 165, 1 (2020) | Cutoff date: 1-Mar-2020

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
122.370	6+	63 µs 2 % IT = 100	122.370 22	E2		0.557	B(E2)(W.u.)=0.00878 28, α=0.557, α(K)=0.464 7, α(L)=0.0768 11, α(M)=0.01365 20, α(N)=0.00187 3, α(O)=6.63E-5 10
124.67	4-	18.91 s 6 % IT = 100	2.3 4	[M2,E3]		3.E9	α=3.E9 9, α(M)=3.E9 8, α(N)=3.E8 9, α(O)=1.4E4 17
285.30	5+		162.93 9	M1+E2	0.24 17	0.067	α=0.067 13, α(K)=0.059 11, α(L)=0.0071 17, α(M)=0.0012 3, α(N)=0.00018 4, α(O)=9.8×10^-6 15
328.00	4(+)		42.70 4	M1+(E2)	0.18 LT	2.9	α=2.9 4, α(K)=2.46 22, α(L)=0.38 11, α(M)=0.067 20, α(N)=0.009 3, α(O)=0.00041 3
382.01	1+	6.19 ms 8 % IT = 100	257.34 4	E3(+M4)	0.12 LT	0.182	B(E3)(W.u.)=4.60 +13-16, α=0.182 12, α(K)=0.149 10, α(L)=0.0269 19, α(M)=0.0048 4, α(N)=0.00066 5, α(O)=2.33E-5 22
651.19	4(+)		323.20 18	M1+E2	0.6 3	0.0122	α=0.0122 15, α(K)=0.0107 13, α(L)=0.00126 17, α(M)=0.00022 3, α(N)=3.2×10^-5 5, α(O)=1.76E-6 18
812.90	(9)+		812.9 1	M1		1.16×10^-3	α=1.16×10^-3, α(K)=0.001019 15, α(L)=0.0001131 16, α(M)=1.99E-5 3, α(N)=2.92E-6 4, α(O)=1.716E-7 24
854.32	2-		203.13 10	E1		0.01535	α=0.01535, α(K)=0.01352 19, α(L)=0.001520 22, α(M)=0.000266 4, α(N)=3.86×10^-5 6, α(O)=2.12E-6 3
854.32	2-		472.2 3			1.59×10^-3	α=1.59×10^-3
1344.1	1+		489.8 4			1.46×10^-3	α=1.46×10^-3
1769.1	1+		1387.4 5	M1+E2		4.06×10^-4	α=4.06×10^-4 7, α(K)=0.000320 9, α(L)=3.53E-5 9, α(M)=6.21E-6 15, α(N)=9.11E-7 23, α(O)=5.34E-8 17
1809.11	(9-)		996.2 2	D		3.11×10^-4	α=3.11×10^-4, α(K)=0.000275 4, α(L)=3.01E-5 5, α(M)=5.29E-6 8, α(N)=7.76E-7 11, α(O)=4.52E-8 7
1844.8	(1+)		990.2 6	D		3.15×10^-4	α=3.15×10^-4, α(K)=0.000278 4, α(L)=3.05E-5 5, α(M)=5.35E-6 8, α(N)=7.85E-7 11, α(O)=4.58E-8 7
1880.21	(11-)	463 ns 13	71.1 2	(E2)		3.97	B(E2)(W.u.)=1.41 +29-33, α=3.97 7, α(K)=3.07 6, α(L)=0.746 14, α(M)=0.1338 25, α(N)=0.0177 4, α(O)=0.000406 7
1880.21	(11-)	463 ns 13	1067.3 2	(M2)		1.48×10^-3	B(M2)(W.u.)=0.00181 +15-13, α=1.48×10^-3, α(K)=0.001306 19, α(L)=0.0001478 21, α(M)=2.61E-5 4, α(N)=3.82E-6 6, α(O)=2.23E-7 4
1985.61	(10+)		1172.7 2	D		5.28×10^-4	α=5.28×10^-4, α(K)=0.000463 7, α(L)=5.10E-5 8, α(M)=8.98E-6 13, α(N)=1.318E-6 19, α(O)=7.77E-8 11
2063.32	(10+)		1249.9 3	D		4.72×10^-4	α=4.72×10^-4, α(K)=0.000406 6, α(L)=4.46E-5 7, α(M)=7.85E-6 11, α(N)=1.153E-6 17, α(O)=6.80E-8 10
2063.32	(10+)		2063.3 3	Q		5.02×10^-4	α=5.02×10^-4, α(K)=0.0001460 21, α(L)=1.597E-5 23, α(M)=2.80E-6 4, α(N)=4.12E-7 6, α(O)=2.42E-8 4
2125.6	1+		1271.3 6	M1		2.86×10^-4	α=2.86×10^-4, α(K)=0.0001759 25, α(L)=1.92E-5 3, α(M)=3.37E-6 5, α(N)=4.94E-7 7, α(O)=2.90E-8 4
2180.6	(12-)		300.4	M1		0.01218	α=0.01218, α(K)=0.01071 15, α(L)=0.001220 17, α(M)=0.000215 3, α(N)=3.15×10^-5 5, α(O)=1.82E-6 3
2309.0	3+		1454.6 7	E1		3.66×10^-4	α=3.66×10^-4, α(K)=0.0001396 20, α(L)=1.518E-5 22, α(M)=2.67E-6 4, α(N)=3.91E-7 6, α(O)=2.30E-8 4
2487.3	(12-)		607.1 2	M1		0.00223	α=0.00223, α(K)=0.00197 3, α(L)=0.000220 3, α(M)=3.88×10^-5 6, α(N)=5.69E-6 8, α(O)=3.32E-7 5
2690.0	(11+)		626.7 3	Q		0.00234	α=0.00234, α(K)=0.00205 3, α(L)=0.000237 4, α(M)=4.18×10^-5 6, α(N)=6.07E-6 9, α(O)=3.36E-7 5
2690.0	(11+)		1876.6 3	Q		4.44×10^-4	α=4.44×10^-4, α(K)=0.0001739 25, α(L)=1.91E-5 3, α(M)=3.35E-6 5, α(N)=4.91E-7 7, α(O)=2.89E-8 4
2813.6	(13-)		633.2			0.00203	α=0.00203
2813.6	(13-)		933.3			8.46×10^-4	α=8.46×10^-4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2818.8	(12+)		755.5 3	Q		1.42×10^-3	α=1.42×10^-3, α(K)=0.001250 18, α(L)=0.0001428 20, α(M)=2.51E-5 4, α(N)=3.66E-6 6, α(O)=2.06E-7 3
3071.8	(13-)		584.5 5	D		0.00244	α=0.00244, α(K)=0.00215 3, α(L)=0.000240 4, α(M)=4.24×10^-5 6, α(N)=6.21E-6 9, α(O)=3.63E-7 6
3074.7	(13-)		587.1 3	D		0.00241	α=0.00241, α(K)=0.00213 3, α(L)=0.000238 4, α(M)=4.19×10^-5 6, α(N)=6.15E-6 9, α(O)=3.59E-7 5
3314.8	(13+)		496.0 3	D		0.00358	α=0.00358, α(K)=0.00316 5, α(L)=0.000355 5, α(M)=6.25×10^-5 9, α(N)=9.16E-6 13, α(O)=5.34E-7 8
3497.0	(13+)		678.2 3	D		1.73×10^-3	α=1.73×10^-3, α(K)=0.001529 22, α(L)=0.0001704 24, α(M)=3.00E-5 5, α(N)=4.40E-6 7, α(O)=2.58E-7 4
3654.3	13-		1773.9	E2		4.18×10^-4	α=4.18×10^-4, α(K)=0.000193 3, α(L)=2.12E-5 3, α(M)=3.73E-6 6, α(N)=5.47E-7 8, α(O)=3.21E-8 5
3672.2	(14-)		597.5 3	D		0.00232	α=0.00232, α(K)=0.00204 3, α(L)=0.000228 4, α(M)=4.02×10^-5 6, α(N)=5.90E-6 9, α(O)=3.45E-7 5
3975.7	(14+)		660.9 3	D		0.00184	α=0.00184, α(K)=0.001622 23, α(L)=0.000181 3, α(M)=3.18×10^-5 5, α(N)=4.67E-6 7, α(O)=2.74E-7 4
4068.0	(15+)		571.0 3	(Q)		0.00303	α=0.00303, α(K)=0.00266 4, α(L)=0.000310 5, α(M)=5.47×10^-5 8, α(N)=7.93E-6 12, α(O)=4.34E-7 7
4422.1	(15+)		446.4 3	D		0.00460	α=0.00460, α(K)=0.00405 6, α(L)=0.000457 7, α(M)=8.05×10^-5 12, α(N)=1.180E-5 17, α(O)=6.86E-7 10
5557.8	15(-)		1903.4	Q		4.52×10^-4	α=4.52×10^-4, α(K)=0.0001694 24, α(L)=1.86E-5 3, α(M)=3.26E-6 5, α(N)=4.78E-7 7, α(O)=2.81E-8 4
5557.8	15(-)		2744.2	Q		7.61×10^-4	α=7.61×10^-4, α(K)=8.85E-5 13, α(L)=9.62E-6 14, α(M)=1.690E-6 24, α(N)=2.48E-7 4, α(O)=1.468E-8 21
5576.5	(15-)		1904.3 3	D		4.27×10^-4	α=4.27×10^-4, α(K)=0.0001750 25, α(L)=1.91E-5 3, α(M)=3.36E-6 5, α(N)=4.94E-7 7, α(O)=2.92E-8 4
5762.6	(17+)		1694.6 3	Q		4.03×10^-4	α=4.03×10^-4, α(K)=0.000211 3, α(L)=2.32E-5 4, α(M)=4.07E-6 6, α(N)=5.97E-7 9, α(O)=3.50E-8 5
6147.1	(18+)		384.5 3	D		0.00661	α=0.00661, α(K)=0.00581 9, α(L)=0.000658 10, α(M)=0.0001159 17, α(N)=1.699×10^-5 24, α(O)=9.86E-7 14
6155.5	16(-)		597.7	M1		0.00232	α=0.00232, α(K)=0.00204 3, α(L)=0.000228 4, α(M)=4.02×10^-5 6, α(N)=5.90E-6 9, α(O)=3.45E-7 5
6742.3	17(+)		586.8	E1		9.50×10^-4	α=9.50×10^-4, α(K)=0.000839 12, α(L)=9.27E-5 13, α(M)=1.628E-5 23, α(N)=2.38E-6 4, α(O)=1.370E-7 20
7024.2	18(+)		281.9	M1		0.01429	α=0.01429, α(K)=0.01257 18, α(L)=0.001435 20, α(M)=0.000253 4, α(N)=3.70×10^-5 6, α(O)=2.14E-6 3
7351.0	(17-)		1774.4 3	Q		4.19×10^-4	α=4.19×10^-4, α(K)=0.000193 3, α(L)=2.12E-5 3, α(M)=3.73E-6 6, α(N)=5.47E-7 8, α(O)=3.21E-8 5
7768.1	19(+)		744.0	M1		1.41×10^-3	α=1.41×10^-3, α(K)=0.001241 18, α(L)=0.0001380 20, α(M)=2.43E-5 4, α(N)=3.57E-6 5, α(O)=2.09E-7 3
7768.1	19(+)		1025.7	E2		6.80×10^-4	α=6.80×10^-4, α(K)=0.000599 9, α(L)=6.72E-5 10, α(M)=1.182E-5 17, α(N)=1.727E-6 25, α(O)=9.92E-8 14
8094.8	(18-)		743.8 3	D		1.41×10^-3	α=1.41×10^-3, α(K)=0.001242 18, α(L)=0.0001381 20, α(M)=2.43E-5 4, α(N)=3.57E-6 5, α(O)=2.09E-7 3

Levels: For influence of the chemical and physical environment on T_1/2(125), see 1965Co12, 1969Ol01, 1970Ol04, 1971Sm07, 1977Do07, 1978Me03.

Levels: For activities not definitely assigned to ⁹⁰Mo, see 1965Mc03 (80 μs), 1967Iv04 (20.1 ms), 1975DeYP (53 ms, 10 ms), 1977DeZT and 1977DeXV (85 ms 6). No trace of a 50-100 ms component in the decay of the 382 level was found in a search with a mini-orange spectrometer (1982Hu01).

Q-value: S(2n)=22630 60, S(2p)=12940 4 (2017Wa10)

Q(β-)=-2489 keV 3	S(n)= 10108 keV 24	S(p)= 5075 keV 5	Q(α)= -5803 keV 15
Reference: 2017Wa10

References:
A	⁹⁰Mo ε decay	B	⁹⁰Zr(p,nγ)
C	⁹⁰Zr(³He,t)	D	⁹²Mo(d,α)
E	⁹⁰Zr(p,n)	F	⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ)
G	⁹⁰Zr(¹²C,¹²B)	H	⁶³Cu(³¹P,3PNG)
I	⁷⁶Ge(¹⁹F,5nγ)	J	⁹Be(¹²⁴Xe,xγ)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0	A B C D F G H I J	8+	14.60 h 5 % ε = 100
122.370 22	A B C F H	6+	63 µs 2 % IT = 100	122.370 22	100	E2	0	8+
124.67 25	A B D F	4-	18.91 s 6 % IT = 100	2.3 4 S		[M2,E3]	122.370	6+
171.10 10	B C D F	7+	< 1 µs	171.1 1	100	D	0	8+
285.30 10	A B C D F H	5+		162.93 9	100	M1+E2	122.370	6+
328.00 10	A B C F H	4(+)		42.70 4	100	M1+(E2)	285.30	5+
362.4 3	B C F	5-		237.7 1	100	D	124.67	4-
382.01 25	A B D	1+	6.19 ms 8 % IT = 100	257.34 4	100 3	E3(+M4)	124.67	4-
651.19 19	A B C D F H	4(+)		323.20 18	100	M1+E2	328.00	4(+)
812.90 10	C D F H I J	(9)+		812.9 1	100	M1	0	8+
822.6 6	A B			440.5 6	100		382.01	1+
827.4 3	A B			445.37 21	100		382.01	1+
847.7 4	B C D F			485.4 3 722 1			362.4 124.67	5- 4-
854.32 21	A B C D F H	2-		203.13 10 472.2 3	100 9 22 3	E1	651.19 382.01	4(+) 1+
958 7	C D E G	(3,4,5)
1128.2 4	B D			477.1 3 1003 1			651.19 124.67	4(+) 4-
1195.2 9	B D			1071 1	100		124.67	4-
1231 10	D
1255 10	D
1279.7 11	B C			1155 1	100		124.67	4-
1286 10	C D	(3,4,5)
1344.1 4	A B D H	1+		489.8 4	100		854.32	2-
1362.7 6	B C D	(3+)		711 1 981 1 1035 1 1238 1			651.19 382.01 328.00 124.67	4(+) 1+ 4(+) 4-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1372.1 4	B			517.7 3 1248 1			854.32 124.67	2- 4-
1414.2 11	B C D			763 1	100		651.19	4(+)
1433.3 8	B			1105 1 1309 1			328.00 124.67	4(+) 4-
1498 7	C D	2-,3-,4-
1558 7	C D	4-,5-,6-
1630.7 11	B			1506 1	100		124.67	4-
1646.7 11	B C D			1522 1	100		124.67	4-
1692 7	C D
1769.1 4	A B C D H	1+		425.1 3 941.5 4 946.4 8 1387.4 5	6.5 14 100 12 12 4 33 4	M1+E2	1344.1 827.4 822.6 382.01	1+ 1+
1804 10	D
1809.11 20	F H I J	(9-)		996.2 2	100	D	812.90	(9)+
1815.7 11	B C			1691 1	100		124.67	4-
1835.7 9	B D			641 1 1184 1			1195.2 651.19	4(+)
1844.8 6	A B H	(1+)		990.2 6 1463.5 9	100 10 69 23	D	854.32 382.01	2- 1+
1873 10	C D F H
1880.21 20	F H I J	(11-)	463 ns 13	71.1 2 1067.3 2	6.7 19 100 4	(E2) (M2)	1809.11 812.90	(9-) (9)+
1971.7 11	B C D	(3,4,5)		1847 1	100		124.67	4-
1985.61 23	F H	(10+)		1172.7 2	100	D	812.90	(9)+
1990.4 8	B C			1340 1 1865 1			651.19 124.67	4(+) 4-
2000 7	B D
2037 10	C
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2063.32 24	I	(10+)		1249.9 3 2063.3 3	16 7 100 14	D Q	812.90 0	(9)+ 8+
2082 10	C
2104 10	C
2125.6 7	A B C H	1+		1271.3 6	100	M1	854.32	2-
2168 7	C D	(3,4,5)
2180.6 5	H	(12-)		300.4	100	M1	1880.21	(11-)
2309.0 7	A G H	3+		1454.6 7 1481.6 14	100 30 13 13	E1	854.32 827.4	2-
2344 7	C D H
2370 15	C D
2430 15	C
2479 15	D
2487.3 3	F H I	(12-)		607.1 2	100	M1	1880.21	(11-)
2530 15	C
2560 15	C
2580 15	C
2650 15	C
2680 15	C
2690.0 3	I	(11+)		626.7 3 1876.6 3	53 21 1.0E+2 3	Q Q	2063.32 812.90	(10+) (9)+
2710 15	C
2730 15	C G
2780 15	C
2793.2 6	H			807.7?	100		1985.61	(10+)
2813.6 5	H	(13-)		633.2 933.3	91 18 100 18		2180.6 1880.21	(12-) (11-)
2818.8 4	I	(12+)		755.5 3	100	Q	2063.32	(10+)
2850 15	C
2880 15	C
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2950 15	C
2980 15	C E
3020 15	C H
3071.8 6	F H	(13-)		584.5 5	100	D	2487.3	(12-)
3074.7 6	I	(13-)		587.1 3	100	D	2487.3	(12-)
3160 15	C
3314.8 5	I	(13+)		496.0 3	100	D	2818.8	(12+)
3497.0 5	I	(13+)		678.2 3	100	D	2818.8	(12+)
3654.3 5	H	13-		1773.9	100	E2	1880.21	(11-)
3672.2 7	I	(14-)		597.5 3	100	D	3074.7	(13-)
3975.7 6	I	(14+)		660.9 3	100	D	3314.8	(13+)
4068.0 6	I	(15+)		571.0 3	100	(Q)	3497.0	(13+)
4330.6 6	H	14(-)		676.4	100	D	3654.3	13-
4422.1 7	I	(15+)		446.4 3	100	D	3975.7	(14+)
5037 6	C	0+
5051.2 6	H			720.6?	100		4330.6	14(-)
5557.8 5	H	15(-)		1903.4 2744.2	100 18 47 9	Q Q	3654.3 2813.6	13- (13-)
5576.5 8	I	(15-)		1904.3 3	100	D	3672.2	(14-)
5762.6 7	I	(17+)		1694.6 3	100	Q	4068.0	(15+)
6147.1 8	I	(18+)		384.5 3	100	D	5762.6	(17+)
6155.5 6	H	16(-)		597.7 1824.9		M1	5557.8 4330.6	15(-) 14(-)
6229.9 6	H			672.1?	100		5557.8	15(-)
6684.6 8	I			537.5 3 ?	100		6147.1	(18+)
6742.3 6	H	17(+)		586.8	100	E1	6155.5	16(-)
7024.2 7	H	18(+)		281.9	100	M1	6742.3	17(+)
7351.0 8	I	(17-)		1774.4 3	100	Q	5576.5	(15-)
7768.1 7	H	19(+)		744.0 1025.7	100 18 48 9	M1 E2	7024.2 6742.3	18(+) 17(+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8094.8 9	I	(18-)		743.8 3	100	D	7351.0	(17-)
8376.3 9	I			281.5 3	100		8094.8	(18-)

E(level)	E(gamma)	Comments
122.370	122.370	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
124.67	2.3	E(γ): from level energy difference.
171.10	171.1	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) M(γ): from (α,3nγ)
285.30	162.93	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
328.00	42.70	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
362.4	237.7	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) M(γ): from (α,3nγ)
382.01	257.34	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
651.19	323.20	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
812.90	812.9	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
822.6	440.5	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
827.4	445.37	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
847.7	485.4	E(γ): From ⁹⁰Zr(p,nγ)
847.7	722	E(γ): From ⁹⁰Zr(p,nγ)
854.32	203.13	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹p,3pnγ). Inconsistent with ce measurements in ⁹⁰Mo ε decay which give M1⁺E2 with δ<0.36
854.32	472.2	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
1128.2	477.1	E(γ): From ⁹⁰Zr(p,nγ)
1128.2	1003	E(γ): From ⁹⁰Zr(p,nγ)
1195.2	1071	E(γ): From ⁹⁰Zr(p,nγ)
1279.7	1155	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1344.1	489.8	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1362.7	711	E(γ): From ⁹⁰Zr(p,nγ)
	981	E(γ): From ⁹⁰Zr(p,nγ)
	1035	E(γ): From ⁹⁰Zr(p,nγ)
	1238	E(γ): From ⁹⁰Zr(p,nγ)
1372.1	517.7	E(γ): From ⁹⁰Zr(p,nγ)
1372.1	1248	E(γ): From ⁹⁰Zr(p,nγ)
E(level)	E(gamma)	Comments
1414.2	763	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1433.3	1105	E(γ): From ⁹⁰Zr(p,nγ)
1433.3	1309	E(γ): From ⁹⁰Zr(p,nγ)
1630.7	1506	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1646.7	1522	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1769.1	425.1	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
	941.5	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
	946.4	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
	1387.4	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay M(γ): from ⁹⁰Mo ε decay
1815.7	1691	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1835.7	641	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1835.7	1184	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1844.8	990.2	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay M(γ): from DCO ratio data of (³¹p,3pnγ)
1844.8	1463.5	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
1880.21	71.1	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ)
1880.21	1067.3	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ)
1971.7	1847	E(γ): From ⁹⁰Zr(p,nγ) I(γ): From ⁹⁰Zr(p,nγ)
1985.61	1172.7	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) M(γ): from (α,3nγ)
1990.4	1340	E(γ): From ⁹⁰Zr(p,nγ)
1990.4	1865	E(γ): From ⁹⁰Zr(p,nγ)
2125.6	1271.3	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
2180.6	300.4	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
2309.0	1454.6	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
2309.0	1481.6	E(γ): From ⁹⁰Mo ε decay I(γ): From ⁹⁰Mo ε decay
2487.3	607.1	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
E(level)	E(gamma)	Comments
2793.2	807.7	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ),
2813.6	633.2	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ),
2813.6	933.3	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ),
3071.8	584.5	E(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) I(γ): From ⁸⁹Y(α,3nγ),⁹⁰Zr(³He,p2nγ) M(γ): from γγ(θ) in ⁶³Cu(³¹P,3pnγ).
3654.3	1773.9	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
4330.6	676.4	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) in ⁶³Cu(³¹P,3pnγ).
5051.2	720.6	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ),
5557.8	1903.4	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) in ⁶³Cu(³¹P,3pnγ).
5557.8	2744.2	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) in ⁶³Cu(³¹P,3pnγ).
6155.5	597.7	E(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
6155.5	1824.9	E(γ): From ⁶³Cu(³¹P,3pnγ),
6229.9	672.1	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ),
6742.3	586.8	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
7024.2	281.9	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
7768.1	744.0	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).
7768.1	1025.7	E(γ): From ⁶³Cu(³¹P,3pnγ), I(γ): From ⁶³Cu(³¹P,3pnγ), M(γ): from γγ(θ) and γ(lin pol) in ⁶³Cu(³¹P,3pnγ).

E(level)	J^π(level)	T_1/2(level)	Comments
0	8+	14.60 h 5 % ε = 100	Q=+0.01 4, μ=+4.957 5 Δ<r²>(^91gNb,^90gNb)=+0.011 fm² 1 (2009Ch25). E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
122.370	6+	63 µs 2 % IT = 100	μ=+3.720 24 E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
124.67	4-	18.91 s 6 % IT = 100	Q=-0.26 4, μ=-0.018 9 Δ<r²>(^91gNb,^90mNb)=+0.042 fm² 2 (2009Ch25). E(level): From ⁹⁰Zr(p,nγ). J^π(level): Probable configuration=((π 2p_1/2)(ν 1g_9/2)).
171.10	7+	< 1 µs	E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
285.30	5+		E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
328.00	4(+)		E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
362.4	5-		E(level): From ⁹⁰Zr(p,nγ). J^π(level): Probable configuration=((π 2p_1/2)(ν 1g_9/2)).
382.01	1+	6.19 ms 8 % IT = 100	E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
651.19	4(+)		E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
812.90	(9)+		E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).
5037	0+		E(level): From ⁹⁰Mo ε decay. J^π(level): Probable configuration=((π 1g_9/2)(ν 1g_9/2)).