List of levels for 51CR

Authors: Wang Jimin and Huang Xiaolong | Citation: Nucl. Data Sheets 144, 1 (2017) | Cutoff date: 1-Mar-2016

Other Reactions:

⁴⁸Ti(α,n): 1989PeZY: E=9,11,13 MeV, measured σ(θ) θ=0|’-150|’ in 25|’ steps. 1983Vo13: E=6-13 MeV, measured yield of residual nuclides; deduced total σ(Eα). Comparison with optical-model calculation. 1971Gr03: E=11.5-22.7 MeV, measured σ(Eα; E(n),θ), ⁵¹Cr deduced level densities.

⁵⁴Fe(n,α): 1988Av04: E=14.8, 20 MeV; measured σ(θ); calculated σ with hybrid preequilibrium emission model. 1987SaZY: E=8 MeV; measured σ; Hauser-Feshbach analysis.

⁵⁰Cr(n,γ) E=Resonance (1986Br12): E=5-300 keV; measured capture and transmission data; deduced resonance parameters.

Levels: IAS investigated in ⁵¹V(³He,t), ⁵²Cr(³He,α) and ⁵¹V(p,n).

Levels: For band configurations, see 1985Av04, 1980Ka10, and 1980Ah04.

E(level): For bound states connected by gammas, E(level) are from level scheme and Eγ’s, using least-squares fit to data. In addition to the levels given here, broad peaks are observed in (³He,n), at 0, 2500, 6700, and 9000. For unbound states, E(level) are from (n,γ), except as noted.

J^π(level): From L value in ⁵⁰Cr(d,p) or ⁵²Cr(³He,α), and IAR in ⁵¹Mn, except as noted.

T_1/2(level): From ΔS(a) measurement in ⁴⁸Ti(α,nγ), except as noted.

E(γ): From ⁵¹Mn ε decay and ⁴⁸Ti(α,nγ), except as noted.

I(γ): Relative photon branching from each level. Values are weighted average of all available sources, except as noted.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
749.10	3/2-	7.35 ns 3	749.07 9	E2			B(E2)(W.u.)=0.065 8
776.95	1/2-	5.53 ns 7	27.85 19	M1		0.905	B(M1)(W.u.)=0.077 8, α=0.905, α(K)=0.800, α(L)=0.0794
1164.59	9/2-	73 fs 7	1164.5 1	M1+E2	-0.19 +4-2		B(E2)(W.u.)=11 5, B(M1)(W.u.)=0.177 17
1352.65	5/2-	3.8 ps +24-14	575.6 1	E2			B(E2)(W.u.)=19 +7-12
	5/2-	3.8 ps +24-14	603.5 3	M1+E2	+0.40 +8-4		B(E2)(W.u.)=13 5, B(M1)(W.u.)=0.0128 7
	5/2-	3.8 ps +24-14	1353.7 6	M1(+E2)	+0.06 +6-9		B(M1)(W.u.)=0.000807 6
1480.07	11/2-	0.55 ps +24-4	315.60 20	M1(+E2)	+0.03 3
1480.07	11/2-	0.55 ps +24-4	1480.3 3	E2			B(E2)(W.u.)=6.7 +6-3
1557.26	7/2-	4.2 ps +17-10	204.0 8	[M1]			B(M1)(W.u.)=0.031 +8-13
	7/2-	4.2 ps +17-10	808.19 21	E2			B(E2)(W.u.)=28 +7-12
	7/2-	4.2 ps +17-10	1557.5 3	M1+E2	-0.38 11		B(E2)(W.u.)=0.024 13, B(M1)(W.u.)=0.000188 14
1899.2	3/2-	0.29 ps +3-2	1899.41 25	E2			B(E2)(W.u.)=5.2 4
2001.91	5/2-	17 fs 2	2001.35 12	M1+E2	-0.09 6		B(M1)(W.u.)=0.160 19
2255.5	15/2-	45.8 ps 14	775.4 2	E2			B(E2)(W.u.)=3.92 12
2312.58	7/2-	15 fs 4	1148.0 3	[M1]			B(M1)(W.u.)=0.84 23
2312.58	7/2-	15 fs 4	2312.52 23	[M1]			B(M1)(W.u.)=0.016 5
2379.46	9/2-	0.31 ps 8	822.3 3	M1+E2	+1.2 +5-8
	9/2-	0.31 ps 8	899.9 5	M1(+E2)	+0.02 +14-13		B(M1)(W.u.)=0.017 6
	9/2-	0.31 ps 8	1026.7 2	E2			B(E2)(W.u.)=37 11
	9/2-	0.31 ps 8	1215.5 5	M1+E2			B(E2)(W.u.)<9.8, B(M1)(W.u.)<0.0063
	9/2-	0.31 ps 8	2379.3 2	M1+E2	-0.78 +25-33		B(E2)(W.u.)=0.23 11, B(M1)(W.u.)=0.0009 4
2385.4	13/2-	58 fs 12	905.3 3	M1+E2	-0.07 2		B(E2)(W.u.)=14 13, B(M1)(W.u.)=0.50 11
2704.39	11/2-	85 fs 3	1147.9 3	E2			B(E2)(W.u.)=220 19
	11/2-	85 fs 3	1224.7 3	M1(+E2)	+0.3 +8-5		B(M1)(W.u.)=0.013 6
	11/2-	85 fs 3	1538.8 3	M1(+E2)	-0.09 +39-24		B(M1)(W.u.)=0.0064 10
	11/2-	85 fs 3	2703.6 6				B(E2)(W.u.)=0.163 24
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2762.6	1/2+	0.071 ps 10	2013.6 5	[E1]			B(E1)(W.u.)=0.00085 12
2767.30	9/2-	41 fs 8	1287.2 4	M1+E2	+0.09 2		B(E2)(W.u.)=0.4 +17-3, B(M1)(W.u.)=0.054 12
	9/2-	41 fs 8	1603.4 5	[M1]			B(M1)(W.u.)=0.034 8
	9/2-	41 fs 8	2767.1 2	M1+E2	-0.36 11		B(E2)(W.u.)=0.39 25, B(M1)(W.u.)=0.0114 25
2828.5	(3/2)-	59 fs +12-10	2079.62 16	M1(+E2)	+0.09 +30-25		B(M1)(W.u.)=0.0202 11
2948.2	5/2-,7/2-	0.119 ps +13-10	1391.3 2	M1(+E2)	-0.22 +22-26
3001.7	5/2-	15 ps +5-4	3001.6 3	M1(+E2)	-0.07 +7-10		B(M1)(W.u.)=5.40×10^-5 6
3004.4	3/2+	0.34 ps 4	1002.7 4	E1(+M2)	+0.12 +23-19		B(E1)(W.u.)=0.00078 12
3004.4	3/2+	0.34 ps 4	2255.1 3	E1(+M2)	+1.9 +18-19		B(E1)(W.u.)<6.5E-5
3018.6	11/2-	49 fs +21-15	633	[M1]			B(M1)(W.u.)=0.32 +10-14
	11/2-	49 fs +21-15	1538	[M1]			B(M1)(W.u.)=0.0071 +23-31
	11/2-	49 fs +21-15	1853	[M1]			B(M1)(W.u.)=0.013 +5-6
	11/2-	49 fs +21-15	3020.3 2	[E2]			B(E2)(W.u.)=2.4 +9-11
3055.9	1/2-	69 fs 35	1157	(M1)			B(M1)(W.u.)=0.05 3
3109.21	(7/2,9/2-)	54 fs +12-16	1944.6 2	M1(+E2)	-0.18 +27-21		B(M1)(W.u.)=0.0134 13
3207.22	7/2-,9/2-	55 fs 14	2042.5 7	M1+E2	-0.42 +15-28		B(E2)(W.u.)=2.4 16, B(M1)(W.u.)=0.025 7
3262.6	(3/2-)	31 fs +15-12	3262	[E2]			B(E2)(W.u.)=1.8 +8-10
3447.5	13/2-	< 70 fs	1192.0 8	M1(+E2)	+0.03 3
3900.3	(5/2+)	55 fs +21-15	2001	[E1]			B(E1)(W.u.)=8.E-5 5
3900.3	(5/2+)	55 fs +21-15	3901.9 3	[E1]			B(E1)(W.u.)=0.00014 +4-6
3927.5	(5/2+)	< 25 fs	1037.7 11	[E1]			B(E1)(W.u.)>0.0068
3927.5	(5/2+)	< 25 fs	3926 2	[E1]			B(E1)(W.u.)>9.1E-5
3953.2	(5/2+)	31 fs +10-7	2600.4 4	[E1]			B(E1)(W.u.)=0.00028 +7-10
	(5/2+)	31 fs +10-7	3202	[E1]			B(E1)(W.u.)=0.00012 +4-5
	(5/2+)	31 fs +10-7	3954.4 6	[E1]			B(E1)(W.u.)=0.00012 +3-4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
3977.4	3/2+,5/2+	< 35 fs	2419	[E1]			B(E1)(W.u.)>0.00018
	3/2+,5/2+	< 35 fs	2624	[E1]			B(E1)(W.u.)>0.00040
	3/2+,5/2+	< 35 fs	3230	[E1]			B(E1)(W.u.)>0.00013
3984.8	(5/2+)	22 fs +5-4	983	[E1]			B(E1)(W.u.)=0.0073 +25-27
	(5/2+)	22 fs +5-4	1982	[E1]			B(E1)(W.u.)=0.00046 +21-22
	(5/2+)	22 fs +5-4	2428	[E1]			B(E1)(W.u.)=0.00014 +7-8
	(5/2+)	22 fs +5-4	3984.3 13	[E1]			B(E1)(W.u.)=0.00016 1

Q(β-)=-3207.5 keV 3	S(n)= 9260.64 keV 20	S(p)= 9516.35 keV 23	Q(α)= -8939.9 keV 4
Reference: 2017WA10

References:
A	⁵¹Mn ε decay	B	⁴⁸Ti(α,nγ)
C	⁴⁹Ti(³He,n)	D	(HI,xnγ)
E	⁵⁰V(³He,d)	F	⁵⁰Cr(n,γ),(pol n,γ) E=THERMAL
G	⁵⁰Cr(d,p),(pol d,p)	H	⁵¹V(p,n)
I	⁵¹V(p,nγ)	J	⁵¹V(³He,t)
K	⁵²Cr(³He,α)	L	⁵²Cr(γ,nγ’)
M	⁵²Cr(n,2nγ)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - K^π=1/2- band.
749.10 8	3/2-	7.35 ns 3
776.95 17	1/2-	5.53 ns 7	27.85 19 776.95 17 S	100 <0.6	M1	749.10 0.0	3/2- 7/2-
1352.65 17	5/2-	3.8 ps +24-14	575.6 1 603.5 3 1353.7 6	16.0 5 100.0 21 61.5 14	E2 M1+E2 M1(+E2)	776.95 749.10 0.0	1/2- 3/2- 7/2-
1557.26 13	7/2-	4.2 ps +17-10	204.0 8 808.19 21 1557.5 3	6.42 13 100.0 25 19.5 4	[M1] E2 M1+E2	1352.65 749.10 0.0	5/2- 3/2- 7/2-
2379.46 14	9/2-	0.31 ps 8	822.3 3 899.9 5 1026.7 2 1215.5 5 2379.3 2	46 7 64 11 93 11 54 7 100 11	M1+E2 M1(+E2) E2 M1+E2 M1+E2	1557.26 1480.07 1352.65 1164.59 0.0	7/2- 11/2- 5/2- 9/2- 7/2-
2704.39 19	11/2-	85 fs 3	1147.9 3 1224.7 3 1538.8 3 2703.6 6	100 6 18.9 14 12.2 14 4.1 14	E2 M1(+E2) M1(+E2)	1557.26 1480.07 1164.59 0.0	7/2- 11/2- 9/2- 7/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - K^π=3/2- band.
1899.2 3	3/2-	0.29 ps +3-2
2001.91 21	5/2-	17 fs 2	2001.35 12	100	M1+E2	0.0	7/2-
2312.58 17	7/2-	15 fs 4	1148.0 3 2312.52 23	100 3 16.1 12	[M1] [M1]	1164.59 0.0	9/2- 7/2-
2767.30 18	9/2-	41 fs 8	454.8 5 1287.2 4 1603.4 5 2767.1 2	4.2 43 4 53 4 100 6	M1+E2 [M1] M1+E2	2312.58 1480.07 1164.59 0.0	7/2- 11/2- 9/2- 7/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - f7/2 band.
0.0	7/2-	27.704 d 4 % ε = 100
1164.59 14	9/2-	73 fs 7	1164.5 1	100	M1+E2	0.0	7/2-
1480.07 16	11/2-	0.55 ps +24-4	315.60 20 1480.3 3	92.7 21 100 3	M1(+E2) E2	1164.59 0.0	9/2- 7/2-
2255.5 3	15/2-	45.8 ps 14	775.4 2	100	E2	1480.07	11/2-
3180.7 6	(17/2)-		925.2 5	100	D+Q	2255.5	15/2-
3816.7 12	(19/2-)		636	100	D+Q	3180.7	(17/2)-
5563	(21/2-)		1746	100		3816.7	(19/2-)
5711	(23/2-)		1894	100	Q	3816.7	(19/2-)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	7/2-	27.704 d 4 % ε = 100	μ=(-)0.934 5 (1970Ad07,1989Ra17,2014StZZ). E(level): f7/2 band.
749.10	3/2-	7.35 ns 3	μ=-0.86 12 (1974Ko10,1989Ra17,2014StZZ) XREF: K(731). E(level): K^π=1/2- band.
776.95	1/2-	5.53 ns 7	IAS of 5077 in ⁵¹Mn. E(level): K^π=1/2- band.
1164.59	9/2-	73 fs 7	E(level): f7/2 band.
1352.65	5/2-	3.8 ps +24-14	XREF: K(1347). E(level): K^π=1/2- band.
1480.07	11/2-	0.55 ps +24-4	XREF: E(1490). E(level): f7/2 band.
1557.26	7/2-	4.2 ps +17-10	XREF: K(1546). E(level): K^π=1/2- band.
1899.2	3/2-	0.29 ps +3-2	XREF: K(1896). E(level): K^π=3/2- band.
2001.91	5/2-	17 fs 2	E(level): K^π=3/2- band. T_1/2(level): From ΔS(a) measurement in ⁵¹V(p,nγ).
2255.5	15/2-	45.8 ps 14	E(level): f7/2 band.
2312.58	7/2-	15 fs 4	XREF: γ(2319). E(level): K^π=3/2- band. T_1/2(level): From ΔS(a) measurement in ⁵¹V(p,nγ).
2379.46	9/2-	0.31 ps 8	E(level): K^π=1/2- band.
2385.4	13/2-	58 fs 12	XREF: E(2393)K(2391). T_1/2(level): From ΔS(a) measurement in ⁵¹V(p,nγ).
2704.39	11/2-	85 fs 3	XREF: γ(2709). E(level): K^π=1/2- band. T_1/2(level): From ΔS(a) measurement in ⁵¹V(p,nγ).
2762.6	1/2+	0.071 ps 10	XREF: B(2769).
2767.30	9/2-	41 fs 8	E(level): K^π=3/2- band.
2828.5	(3/2)-	59 fs +12-10	IAR of 7274 in ⁵¹Mn.
2890.2	3/2-	0.35 ps +5-3	IAR of 7314 and 7339 in ⁵¹Mn.
2908.1	(5/2)-		E(level): E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels. J^π(level): E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels.
2911.0	(5/2)-	30 fs +19-10	E(level): E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels. J^π(level): E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels.
2948.2	5/2-,7/2-	0.119 ps +13-10	XREF: K(2955).
3016	5/2+		J^π(level): From corresponding IAR in ⁵¹Mn.
3055.9	1/2-	69 fs 35	XREF: γ(3051).
3125.9	3/2-	83 fs +14-28	XREF: γ(3122)K(3116).
3180.7	(17/2)-		E(level): f7/2 band.
E(level)	J^π(level)	T_1/2(level)	Comments
3344.21			1787γ to 3344 and 3345 same final levels in (p,nγ) and (α,nγ). E(level): 1787γ to 3344 and 3345 same final levels in (p,nγ) and (α,nγ).
3351.1	3/2-,5/2-,7/2-		E(level): From (HI,xnγ). J^π(level): Jπ=5/2- for E=3352 8 in (d,p) from L=3 and analyzing power, and Jπ=5/2-,7/2- for E=3349 10 in (³He,α) from L=3. These peaks could correspond to either or both the 3348.3 and 3351.1 levels. Possible IAR with Jπ=5/2- are observed at 7787 and 7792 in ⁵¹Mn. If the analog association is correct, then both the 3348.3 and 3351.1 levels can be assigned Jπ=5/2-.
3376	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
3590	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
3759	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
3766.8	1/2-,3/2-		J^π(level): L(d,p),(³He,α)=1 for the 3766.8 and/or 3770.2 levels. In (pol d,p), 1977Ba14 suggest the possibility of a 1/2-,3/2- doublet. Possible parent analogs of levels in ⁵¹Mn with E=8199 and 8216, both with Jπ=(3/2-). If L=1 for 3770.2, then γ-CP in (n,γ) gives J=3/2.
3770.5	1/2-,3/2-	< 28 fs	Jπ=(3/2-) for possible IAR at 8216 in ⁵¹Mn. E(level): Jπ=(3/2-) for possible IAR at 8216 in ⁵¹Mn. J^π(level): L(d,p),(³He,α)=1 for the 3766.8 and/or 3770.2 levels. In (pol d,p), 1977Ba14 suggest the possibility of a 1/2-,3/2- doublet. Possible parent analogs of levels in ⁵¹Mn with E=8199 and 8216, both with Jπ=(3/2-). If L=1 for 3770.2, then γ-CP in (n,γ) gives J=3/2.
3816.7	(19/2-)		E(level): f7/2 band.
3870.7			XREF: E(3878).
3900.3	(5/2+)	55 fs +21-15	IAR of 8282 in ⁵¹Mn.
3927.5	(5/2+)	< 25 fs	IAR of 8307 in ⁵¹Mn.
3933.7	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
3953.2	(5/2+)	31 fs +10-7	IAR of 8336 in ⁵¹Mn.
3977.4	3/2+,5/2+	< 35 fs	5/2⁺ for possible IAR at 8352, 8358 in ⁵¹Mn.
3984.8	(5/2+)	22 fs +5-4	IAR of 8340 in ⁵¹Mn.
3990	3/2+,5/2+		Jπ=3/2⁺ for IAR at 8389 in ⁵¹Mn.
4005.2	5/2-,7/2-		Jπ=5/2- for IAR at 8391 in ⁵¹Mn.
4020	9/2- TO 15/2-		XREF: B(4030).
4040.0	1/2-		IAR of 8403 in ⁵¹Mn.
4071.2	3/2+,5/2+	< 40 fs	XREF: K(4079).
4099	7/2+,9/2+		Jπ=9/2⁺ for the IAR at 8453 in ⁵¹Mn.
4155	7/2+,9/2+		Jπ=9/2⁺ for IAR at 8466 in ⁵¹Mn.
4174	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
4189.2	3/2+,5/2+		Jπ=5/2⁺ for IAR at 8491 in ⁵¹Mn.
4258	3/2+,5/2+		Jπ=5/2⁺ for IAR at 8492 in ⁵¹Mn.
E(level)	J^π(level)	T_1/2(level)	Comments
4336	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
4426	1/2-		Jπ=1/2- for IAR at 8893 in ⁵¹Mn.
4451	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
4552	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
4609	1/2+		IAR of 8915 in ⁵¹Mn.
4742	9/2- TO 15/2-		XREF: E(4746). J^π(level): L=1 in ⁵⁰V(³He,d).
4769.6	1/2-,3/2-		XREF: γ(4767).
4939	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5053	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5155	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5203	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5205.2	1/2-		XREF: γ(5202).
5222	1/2-,3/2-		Jπ=1/2- for IAR at 9516 in ⁵¹Mn.
5230	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5344	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5395	(1/2)-		XREF: E(5393).
5560	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
5563	(21/2-)		E(level): f7/2 band.
5668.2	(1/2)-		XREF: γ(5663).
5711	(23/2-)		E(level): f7/2 band.
5964	9/2- TO 15/2-		J^π(level): L=1 in ⁵⁰V(³He,d).
6378	(3/2)+		XREF: γ(6377).
6611	7/2-		XREF: H(6650)K(6630). E(level): IAS of 7/2- g.s. in ⁵¹V.
7208.4	(1/2)-		XREF: γ(7205).
7302	1/2+		XREF: K(7310).
E(level)	J^π(level)	T_1/2(level)	Comments
7670	1/2+		XREF: K(7680).
9220	1/2+		E(level): IAS of 1/2⁺ 2546 in ⁵¹V.
9330	3/2+,5/2+		E(level): IAS of (3/2)+ 2677 in ⁵¹V.

E(level)	E(gamma)	Comments
776.95	27.85	E(γ): from E(level) difference. M(γ): from ⁵¹V(p,nγ). Comparison to RUL gives δ²<7.8×10^-4.
776.95	776.95	E(γ): transition not observed. Eγ from E(level) difference I(γ): from 1970Sa15 in (p,nγ) and (α,nγ).
1164.59	1164.5	E(γ): from (p,nγ)
1352.65	575.6	E(γ): from (p,nγ) I(γ): From ⁵¹V(p,nγ).
	603.5	E(γ): from weighted average of 603.3 4 in (n,γ) and 603.8 5 in ε decay. Other:603.4 9 in (p,nγ) I(γ): From ⁵¹V(p,nγ).
	1353.7	E(γ): from a weighted average of 1353.5 9 in (n,γ) and 1353.9 8 in ε decay. other: 1352.8 3 in (α,nγ) I(γ): From ⁵¹V(p,nγ).
1480.07	315.60	M(γ): d(+Q) from γ(θ) in (α,nγ); polarity from level scheme
1480.07	1480.3	I(γ): From ⁵¹V(p,nγ).
1557.26	204.0	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	808.19	I(γ): From ⁵¹V(p,nγ).
	1557.5	I(γ): other: 17.3 25 in (α,nγ), 27 4 in ε decay. From ⁵¹V(p,nγ).
1899.2	1124.0	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From (α,nγ) and (n,γ).
	1149.4	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From (α,nγ) and (n,γ).
	1899.41	E(γ): from ε decay I(γ): From (α,nγ) and (n,γ).
2379.46	822.3	E(γ): From ⁵¹V(p,nγ).. IAS of 1/2⁺ 2546 in ⁵¹V. I(γ): Iγ=151 6 in (p,nγ); therefore, part of 2379γ in (p,nγ) probably belongs elsewhere. M(γ): D+Q from (p,nγ) and (HI,xnγ)
	899.9	E(γ): From ⁵¹V(p,nγ). I(γ): Iγ=151 6 in (p,nγ); therefore, part of 2379γ in (p,nγ) probably belongs elsewhere.
	1026.7	E(γ): From ⁵¹V(p,nγ). I(γ): Iγ=151 6 in (p,nγ); therefore, part of 2379γ in (p,nγ) probably belongs elsewhere.
	1215.5	E(γ): From ⁵¹V(p,nγ). I(γ): Iγ=151 6 in (p,nγ); therefore, part of 2379γ in (p,nγ) probably belongs elsewhere.
	2379.3	E(γ): From ⁵¹V(p,nγ).. IAS of 1/2⁺ 2546 in ⁵¹V. I(γ): Iγ=151 6 in (p,nγ); therefore, part of 2379γ in (p,nγ) probably belongs elsewhere.
2704.39	1147.9	E(γ): From ⁵¹V(p,nγ). I(γ): From (α,nγ). The 1539γ and 2704γ are multiply placed in (p,nγ).
	1224.7	E(γ): From ⁵¹V(p,nγ). I(γ): From (α,nγ). The 1539γ and 2704γ are multiply placed in (p,nγ).
	1538.8	E(γ): From ⁵¹V(p,nγ). I(γ): From (α,nγ). The 1539γ and 2704γ are multiply placed in (p,nγ).
	2703.6	E(γ): From ⁵¹V(p,nγ). I(γ): From (α,nγ). The 1539γ and 2704γ are multiply placed in (p,nγ).
2762.6	2013.6	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
2767.30	454.8	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1287.2	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1603.4	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	2767.1	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ). M(γ): D+Q from (p,nγ)
E(level)	E(gamma)	Comments
2828.5	826.9	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	928.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	2079.62	M(γ): d(+Q) from γ(θ) in (α,nγ); polarity from no parity change based on L(³He,α)=1
2890.2	510.8	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	888.2	E(γ): other: 888.7 2 in (p,nγ). From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	990.4	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	1537.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	2113.4	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	2141.3	E(γ): Multiply placed with undivided intensity. From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): Multiply placed with undivided intensity. From ⁵⁰Cr(n,γ), (pol n,γ).
2908.1	2159.0	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
2948.2	1391.3	E(γ): from (p,nγ) M(γ): d(+Q) from γ(θ) in (α,nγ); polarity from no parity change based on L(³He,α)=3
2948.2	2948.8	E(γ): from (p,nγ) I(γ): other: 64 10 in (p,nγ)
3001.7	3001.6	E(γ): From ⁵¹V(p,nγ). M(γ): From γ(θ) & γ(pol) in (α,nγ).
3004.4	1002.7	E(γ): From ⁵¹V(p,nγ). M(γ): d(+Q) from ⁴⁸Ti(α,nγ) and comparison to RUL
3004.4	2255.1	E(γ): From ⁵¹V(p,nγ). M(γ): d(+Q) from ⁴⁸Ti(α,nγ) and comparison to RUL
3018.6	633	M(γ): Assumed in (α,nγ)
	1538	M(γ): Assumed in (α,nγ)
	1853	M(γ): Assumed in (α,nγ)
	3020.3	E(γ): From ⁵¹V(p,nγ). M(γ): Assumed in (α,nγ)
3055.9	2279.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3109.21	1107.3	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1755.7	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1944.6	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ). M(γ): from d(+Q) to 9/2- 1164 and comparison to RUL.
	3109.0	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3125.9	2348.9	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): from (α,nγ)
3125.9	2376.7	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): from (α,nγ)
E(level)	E(gamma)	Comments
3134.8	1782.2	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3134.8	3134.0	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3180.7	925.2	M(γ): from γ(θ) in (HI,xnγ)
3207.22	296.0	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1649.8	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1854.6	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	2042.5	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ). M(γ): from D+Q to 9/2- 1164 and comparison to RUL
	3207.3	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3344.21	432.0	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	1787.4	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	3343.6	E(γ): From ⁵¹V(p,nγ).
3348.3	2598.9	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3447.5	1192.0	M(γ): From γ(θ) & γ(pol) in (α,nγ)
3722.1	2164.6	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3722.1	3722.7	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3766.8	2990.0	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3766.8	3017.3	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3770.5	862.3	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3770.5	3021.3	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3816.7	636	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ). M(γ): From (HI,xnγ)
3831.37	1453.4	E(γ): From ⁵¹V(p,nγ).. E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels. I(γ): From ⁵¹V(p,nγ). M(γ): From comparison to RUL
	2273.6	E(γ): From ⁵¹V(p,nγ).. E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels. I(γ): From ⁵¹V(p,nγ). M(γ): From comparison to RUL
	2350.5	E(γ): From ⁵¹V(p,nγ).. E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels. I(γ): From ⁵¹V(p,nγ). M(γ): From comparison to RUL
	3831.6	E(γ): From ⁵¹V(p,nγ).. E=2907 8 in (d,p) and 2914 10 in (³He,α), both with L=3, could correspond to either or both of the 2908.1 and 2911.0 levels. There is a 5/2- resonance at 7357 in ⁵¹Mn that could be the IAR of either or both of these levels. I(γ): From ⁵¹V(p,nγ). M(γ): From comparison to RUL
3900.3	3901.9	E(γ): From ⁵¹V(p,nγ).
E(level)	E(gamma)	Comments
3927.5	1037.7	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
	2448.9	E(γ): Multiply placed with intensity suitably divided. From ⁵¹V(p,nγ). I(γ): Multiply placed with intensity suitably divided. From ⁵¹V(p,nγ).
	3926	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3953.2	2600.4	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
3953.2	3954.4	E(γ): from (p,nγ)
3971.2	845.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
3984.8	3984.3	E(γ): from (p,nγ)
4006.6	2448.9	E(γ): Multiply placed with intensity suitably divided. From ⁵¹V(p,nγ). I(γ): Multiply placed with intensity suitably divided. From ⁵¹V(p,nγ).
4006.6	4006.4	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
4040.0	913.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	2141.3	E(γ): Multiply placed with undivided intensity. From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): Multiply placed with undivided intensity. From ⁵⁰Cr(n,γ), (pol n,γ).
	3262.8	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	3290.8	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
4071.2	4071	E(γ): from (p,nγ)
4106.7	4108	E(γ): From ⁵¹V(p,nγ).
4155	4155	E(γ): From ⁵¹V(p,nγ).
4189.2	4190	E(γ): from (p,nγ)
4273	4273	E(γ): From ⁵¹V(p,nγ). I(γ): From ⁵¹V(p,nγ).
4289.3	3512.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
4560.9	3207.5	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
4637.0	1808.8	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	3284.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	3859.8	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
4769.6	1002.1	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
4769.6	4020.5	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
E(level)	E(gamma)	Comments
4833.6	4833.2	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
5205.2	3305.8	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
5563	1746	E(γ): From (HI,xnγ).
5668.2	834.1	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	1106.5	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
	4891.4	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ). I(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
5711	1894	E(γ): From (HI,xnγ). M(γ): From (HI,xnγ)
6162	2345	E(γ): From (HI,xnγ).
6894	1331	E(γ): From (HI,xnγ).
7208.4	5206.1	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
7247.9	3276.8	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
7247.9	3898.9	E(γ): From ⁵⁰Cr(n,γ), (pol n,γ).
8485	2774	E(γ): From (HI,xnγ).

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	7/2-	27.704 d 4 % ε = 100
749.10 8	A B D F G H I K L M	3/2-	7.35 ns 3	749.07 9	100	E2	0.0	7/2-
776.95 17	B F G H I L	1/2-	5.53 ns 7	27.85 19 776.95 17 S	100 <0.6	M1	749.10 0.0	3/2- 7/2-
1164.59 14	A B D E G H I K L	9/2-	73 fs 7	1164.5 1	100	M1+E2	0.0	7/2-
1352.65 17	A B F G H I K L	5/2-	3.8 ps +24-14	575.6 1 603.5 3 1353.7 6	16.0 5 100.0 21 61.5 14	E2 M1+E2 M1(+E2)	776.95 749.10 0.0	1/2- 3/2- 7/2-
1480.07 16	B D E G H I	11/2-	0.55 ps +24-4	315.60 20 1480.3 3	92.7 21 100 3	M1(+E2) E2	1164.59 0.0	9/2- 7/2-
1557.26 13	A B G H I K L	7/2-	4.2 ps +17-10	204.0 8 808.19 21 1557.5 3	6.42 13 100.0 25 19.5 4	[M1] E2 M1+E2	1352.65 749.10 0.0	5/2- 3/2- 7/2-
1899.2 3	A B F G H I K L	3/2-	0.29 ps +3-2	1124.0 9 1149.4 9 1899.41 25	10.7 12 24.60 7 100.0 5	E2	776.95 749.10 0.0	1/2- 3/2- 7/2-
2001.91 21	A B E F G H I K L	5/2-	17 fs 2	2001.35 12	100	M1+E2	0.0	7/2-
2255.5 3	B D E H I	15/2-	45.8 ps 14	775.4 2	100	E2	1480.07	11/2-
2312.58 17	A B G H I K	7/2-	15 fs 4	1148.0 3 2312.52 23	100 3 16.1 12	[M1] [M1]	1164.59 0.0	9/2- 7/2-
2379.46 14	B G H I	9/2-	0.31 ps 8	822.3 3 899.9 5 1026.7 2 1215.5 5 2379.3 2	46 7 64 11 93 11 54 7 100 11	M1+E2 M1(+E2) E2 M1+E2 M1+E2	1557.26 1480.07 1352.65 1164.59 0.0	7/2- 11/2- 5/2- 9/2- 7/2-
2385.4 4	B E I K	13/2-	58 fs 12	905.3 3	100	M1+E2	1480.07	11/2-
2500	C
2699 10	K	5/2-,7/2-
2704.39 19	B G I	11/2-	85 fs 3	1147.9 3 1224.7 3 1538.8 3 2703.6 6	100 6 18.9 14 12.2 14 4.1 14	E2 M1(+E2) M1(+E2)	1557.26 1480.07 1164.59 0.0	7/2- 11/2- 9/2- 7/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2762.6 5	B G I	1/2+	0.071 ps 10	2013.6 5	100	[E1]	749.10	3/2-
2767.30 18	E I K L	9/2-	41 fs 8	454.8 5 1287.2 4 1603.4 5 2767.1 2	4.2 43 4 53 4 100 6	M1+E2 [M1] M1+E2	2312.58 1480.07 1164.59 0.0	7/2- 11/2- 9/2- 7/2-
2828.5 4	A B F G I K	(3/2)-	59 fs +12-10	826.9 8 928.2 9 2079.62 16	77 10 27 13 100 12	M1(+E2)	2001.91 1899.2 749.10	5/2- 3/2- 3/2-
2890.2 4	B F G I	3/2-	0.35 ps +5-3	510.8 3 ? 888.2 8 990.4 9 1537.2 8 2113.4 7 2141.3 7	61 100 10 36 7 88 9 51 14 22 6		2379.46 2001.91 1899.2 1352.65 776.95 749.10	9/2- 5/2- 3/2- 5/2- 1/2- 3/2-
2908.1 7	F G K	(5/2)-		2159.0 7	100		749.10	3/2-
2911.0 4	B G I K	(5/2)-	30 fs +19-10	1353 1557 2161 2911	100 12 10 7 19 4 43 5		1557.26 1352.65 749.10 0.0	7/2- 5/2- 3/2- 7/2-
2948.2 6	B G I K	5/2-,7/2-	0.119 ps +13-10	1049 1391.3 2 2948.8 2	86 6 100 6 92 6	M1(+E2)	1899.2 1557.26 0.0	3/2- 7/2- 7/2-
2970 8	G	3/2+,5/2+
3001.7 3	B I	5/2-	15 ps +5-4	3001.6 3	100	M1(+E2)	0.0	7/2-
3004.4 3	B G I K	3/2+	0.34 ps 4	1002.7 4 2255.1 3	100 5 82 6	E1(+M2) E1(+M2)	2001.91 749.10	5/2- 3/2-
3016 8	G K	5/2+
3018.6 6	B I	11/2-	49 fs +21-15	633 1538 1853 3020.3 2	32 5 11 5 33 5 100 14	[M1] [M1] [M1] [E2]	2385.4 1480.07 1164.59 0.0	13/2- 11/2- 9/2- 7/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3055.9 6	B F G	1/2-	69 fs 35	1157 2279.2 7 2306	41 11 100 28 44 11	(M1)	1899.2 776.95 749.10	3/2- 1/2- 3/2-
3109.21 19	B G I	(7/2,9/2-)	54 fs +12-16	1107.3 2 1755.7 7 1944.6 2 3109.0 4	89.5 7.9 65.8 100	M1(+E2)	2001.91 1352.65 1164.59 0.0	5/2- 5/2- 9/2- 7/2-
3125.9 2	B F G K	3/2-	83 fs +14-28	1123 2348.9 5 2376.7 5	35 7 47 7 100 9		2001.91 776.95 749.10	5/2- 1/2- 3/2-
3134.8 4	B I	(3/2-)	45 fs +20-19	1782.2 3 3134.0 7	100 6.4		1352.65 0.0	5/2- 7/2-
3180.7 6	B D E	(17/2)-		925.2 5	100	D+Q	2255.5	15/2-
3204.1 10	B G	(5/2,7/2)-	43 fs +21-18	3204	100		0.0	7/2-
3207.22 25	B G I	7/2-,9/2-	55 fs 14	296.0 7 1649.8 5 1854.6 3 2042.5 7 3207.3 7	0.65 18 32 100 11.29	M1+E2	2911.0 1557.26 1352.65 1164.59 0.0	(5/2)- 7/2- 5/2- 9/2- 7/2-
3262.6 7	B G H I	(3/2-)	31 fs +15-12	2514 3262	100 7 72 7	[M1,E2] [E2]	749.10 0.0	3/2- 7/2-
3266.9 8	B E	-		1787 2102	100 7 16 7		1480.07 1164.59	11/2- 9/2-
3344.21 25	B I			432.0 7 1343 1787.4 3 3343.6 4	2.17 45 9 100 9 6.5		2911.0 2001.91 1557.26 0.0	(5/2)- 5/2- 7/2- 7/2-
3348.3 7	F G K			2598.9 7	100		749.10	3/2-
3351.1 6	B G K	3/2-,5/2-,7/2-		1451 1792 2001	94 17 100 17 91 17		1899.2 1557.26 1352.65	3/2- 7/2- 5/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3376 15	E	9/2- TO 15/2-
3447.5 9	B E	13/2-	< 70 fs	1192.0 8	100	M1(+E2)	2255.5	15/2-
3578.4 11	B	(11/2,13/2,15/2)	< 70 fs	1193	100		2385.4	13/2-
3590 15	E	9/2- TO 15/2-
3719 8	G	1/2+
3722.1 8	I			2164.6 8 3722.7 15	100 9.9		1557.26 0.0	7/2- 7/2-
3759 10	E	9/2- TO 15/2-
3766.8 3	B F G K	1/2-,3/2-		2990.0 5 3017.3 4	91 18 100 18		776.95 749.10	1/2- 3/2-
3770.5 3	B F	1/2-,3/2-	< 28 fs	862.3 6 2995 3021.3 4	5 3 45 9 100 13		2908.1 776.95 749.10	(5/2)- 1/2- 3/2-
3816.7 12	D	(19/2-)		636	100	D+Q	3180.7	(17/2)-
3831.37 22	B E G I	(7/2,9/2,11/2)-	30 fs +8-6	1453.4 15 2273.6 3 2350.5 6 3831.6 3	9 100 42 71	(D,E2) (D,E2) (D,E2) (D,E2)	2379.46 1557.26 1480.07 0.0	9/2- 7/2- 11/2- 7/2-
3863 8	G
3870.7 10	B E			2706	100		1164.59	9/2-
3897 8	G
3900.3 8	B I	(5/2+)	55 fs +21-15	2001 3901.9 3	8 6 100 4	[E1] [E1]	1899.2 0.0	3/2- 7/2-
3927.5 10	B G I	(5/2+)	< 25 fs	1037.7 11 2448.9 10 ? 3926 2	100 85 72	[E1] [E1]	2890.2 1480.07 0.0	3/2- 11/2- 7/2-
3933.7 10	B E	9/2- TO 15/2-		2769	100		1164.59	9/2-
3947 10	G
3953.2 7	B I	(5/2+)	31 fs +10-7	2600.4 4 3202 3954.4 6	69 54 8 100 8	[E1] [E1] [E1]	1352.65 749.10 0.0	5/2- 3/2- 7/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3971.2 8	F			845.2 8	100		3125.9	3/2-
3977.4 6	B G	3/2+,5/2+	< 35 fs	2419 2624 3230	35 17 100 19 58 12	[E1] [E1] [E1]	1557.26 1352.65 749.10	7/2- 5/2- 3/2-
3984.8 5	B I	(5/2+)	22 fs +5-4	983 1982 2428 3984.3 13	70 18 36 14 20 9 100 18	[E1] [E1] [E1] [E1]	3001.7 2001.91 1557.26 0.0	5/2- 5/2- 7/2- 7/2-
3990 10	K	3/2+,5/2+
4005.2 8	B G	5/2-,7/2-		2001 2108			2001.91 1899.2	5/2- 3/2-
4006.6 9	I			2448.9 10 ? 4006.4 9	100 100		1557.26 0.0	7/2- 7/2-
4017.2 7	B E	(3/2-,5/2,7/2-)	21 fs +10-9	3267 4018			749.10 0.0	3/2- 7/2-
4020 15	B E	9/2- TO 15/2-		3281	100		749.10	3/2-
4040.0 3	F G	1/2-		913.2 9 2141.3 7 3262.8 4 3290.8 5	11 3 22 6 100 13 35 11		3125.9 1899.2 776.95 749.10	3/2- 3/2- 1/2- 3/2-
4056	B			2156 2703	47 18 100 18		1899.2 1352.65	3/2- 5/2-
4071.2 6	B G I K	3/2+,5/2+	< 40 fs	2513 3321 4071 2			1557.26 749.10 0.0	7/2- 3/2- 7/2-
4099 10	G	7/2+,9/2+
4106.7 8	B I			1105 2942 4108 2 ?	69 20 100 20		3001.7 1164.59 0.0	5/2- 9/2- 7/2-
4111.0 6	B			1350 2109 3360			2762.6 2001.91 749.10	1/2+ 5/2- 3/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4119.1 11	B			2117	100		2001.91	5/2-
4136.7 8	B G			1373 2785	18 15 100 15		2762.6 1352.65	1/2+ 5/2-
4155 3	G I	7/2+,9/2+		4155 3	100		0.0	7/2-
4161.5 8	B			2603 2998	61 16 100 16		1557.26 1164.59	7/2- 9/2-
4174 15	E G	9/2- TO 15/2-
4181.7 10	B			3017	100		1164.59	9/2-
4189.2 10	B G I	3/2+,5/2+		4190 3	100		0.0	7/2-
4198 10	K	(3/2)+
4214 15	E G	9/2- TO 15/2-
4239.2 10	B G			4239	100		0.0	7/2-
4254.2 10	B			4254	100		0.0	7/2-
4258 10	K	3/2+,5/2+
4273 4	I			4273 4	100		0.0	7/2-
4289.3 5	F G	1/2+		3512.2 4	100		776.95	1/2-
4318 10	G
4336 15	E	9/2- TO 15/2-
4354.6 11	B G	(1/2-,3/2-)		1592	100		2762.6	1/2+
4359 10	K	(3/2)+
4405.6 11	B G			1643	100		2762.6	1/2+
4426 10	G	1/2-
4439 10	G	(5/2)+
4451 15	E	9/2- TO 15/2-
4495 15	E	-
4508 10	G
4533 10	G
4552 15	E	9/2- TO 15/2-
4560.9 6	F G	(5/2)		3207.5 7	100		1352.65	5/2-
4569 10	K	(3/2+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4577 10	G	(1/2)-
4583 10	K	(7/2)-
4609 10	G	1/2+
4629 15	E
4637.0 4	F	3/2		1808.8 7 3284.2 8 3859.8 4	23 6 19 6 100 21		2828.5 1352.65 776.95	(3/2)- 5/2- 1/2-
4647 10	G
4668 10	K	(7/2)-
4669 10	G	(1/2-)
4684 10	G	(5/2)+
4707 15	G
4730 10	E G
4742 10	E G	9/2- TO 15/2-
4769.6 4	F G	1/2-,3/2-		1002.1 9 4020.5 4	28 7 100 30		3766.8 749.10	1/2-,3/2- 3/2-
4793 10	K	(3/2-)
4823 10	G
4833.6 4	F			4833.2 4	100		0.0	7/2-
4849 15	G	(1/2)-
4874 15	G	(1/2-)
4916 15	E
4930	G
4939 15	E	9/2- TO 15/2-
4964	G
4978 10	K	(3/2+)
4997 15	E G
5030 10	K	(3/2+,5/2,7/2-)
5053 15	E	9/2- TO 15/2-
5078 15	G
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5113 15	G	1/2+
5114 15	E	-
5121 10	K	(5/2)-
5145 15	G	(5/2-)
5155 15	E	9/2- TO 15/2-
5177 15	G
5203 15	E	9/2- TO 15/2-
5205.2 8	F G	1/2-		3305.8 7	100		1899.2	3/2-
5222 10	K	1/2-,3/2-
5230 15	E	9/2- TO 15/2-
5239.6 11	F	1/2,3/2
5249 15	G	(5/2)+
5265 10	K	(3/2)+
5270?	G
5284 15	G	(5/2)+
5306 10	K	(7/2-,5/2,3/2+)
5332 15	G	(5/2)+
5344 15	E	9/2- TO 15/2-
5346 10	K	(3/2+,5/2,7/2-)
5357 15	G
5395 15	E G	(1/2)-
5409 10	K	(3/2)+
5420 15	E	-
5447	G	(1/2-)
5449 15	E
5455 10	K	(7/2)-
5464 15	G
5473 15	E
5495 15	G	(1/2)-
5532 15	G	(5/2+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5537 10	K	(3/2)+
5560 15	E	9/2- TO 15/2-
5563	D	(21/2-)		1746	100		3816.7	(19/2-)
5580 15	G
5605 15	G
5630 15	G	(1/2-)
5656 15	E
5668.2 5	F G	(1/2)-		834.1 8 1106.5 9 4891.4 5	100 23 45 13 81 16		4833.6 4560.9 776.95	(5/2) 1/2-
5699 15	G
5711	D	(23/2-)		1894	100	Q	3816.7	(19/2-)
5711 15	E
5725 15	G
5741 15	G	(1/2)-
5761 10	K	(3/2)+
5769 15 ?	G
5787 15	E
5812 15	G
5832 10	K	(7/2)-
5850 15	G
5880 15	E
5928 15	G
5943 10	K	(1/2,3/2-)
5950 15	F G	(1/2)-
5964 15	E	9/2- TO 15/2-
5970	G
5991 15	G	1/2+
6034 15	G	(1/2)-
6075 15	G
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6107 15	G
6122 15	G	(1/2-)
6136	G
6157 15	G
6162	D	(21/2,23/2-)		2345			3816.7	(19/2-)
6184 15	G	1/2+
6219 15	G
6236 15	G	(1/2)-
6254 15	G	1/2+
6285	G
6306 15	G	(5/2+)
6332 15	G	(1/2-)
6360 15	G	1/2+
6378 10	G K	(3/2)+
6413 15	G
6438 15	G	1/2+
6478 15	G
6485 15	G
6518 15	G
6523	G
6564	G
6604 15	G	(5/2)+
6611 5	H J K	7/2-
6660 15	G	(5/2+)
6680 15	G
6693 15	C G
6718 15	G
6723 15	G
6741 15	G
6760 15	G
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6775 15	G	(5/2)+
6803 15	G	(5/2)+
6820	G
6866 15	G	(5/2)+
6879 15	G
6894	D	(23/2,25/2-)		1331	100		5563	(21/2-)
6896 15	G	(1/2)-
6920 15	G
6979 15	G
6995 15	G	(1/2-)
7018 15	G	1/2+
7038 15	G	(1/2)-
7078	G
7088	G
7130 15	G	(5/2)-
7141 15	G
7167 15	G	(5/2+)
7208.4 7	F G	(1/2)-		5206.1 6	100		2001.91	5/2-
7240 15	G
7247.9 9	F	(1/2,3/2,5/2+)		3276.8 7 3898.9 5	61 16 100 23		3971.2 3348.3
7271 15	G
7282 15	G
7302 15	G K	1/2+
7342 15	G	1/2+
7388 15	G	(5/2)+
7426 15	G	(5/2)+
7445 15	G
7479 15	G
7504 15	G
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7555 15	G	(5/2)+
7590 15	G	1/2+
7628	G
7643	G
7670 15	G K	1/2+
7689	G
7703	G
7721 15	G
7758 15	G
7787 15	G K	3/2+,5/2+
7818 15	G
7835 15	G
7856 15	G
7874 15	G	(5/2+)
7901 15	G	1/2+
7932 15	G	(5/2)+
7954	G	1/2+
8003	G	1/2+
8024	G
8047	G	1/2+
8078	G	1/2+
8124	G	(5/2)+
8420 20	K	(1/2+)
8480 20	K	1/2+
8485	D	(25/2,27/2-)		2774	100		5711
9000	C
9220 20	K	1/2+
9261.63 22	F	1/2+		2013.3 6 2052.9 5 3305.8 7 ? 3593.4 4 4057.4 5 4491.5 4 4625.0 4 4971.6 7 5222.0 4 5490.3 5 5494.5 3 6135.9 4 6206.3 5 6371.6 5 6433.7 8 7362.6 6 8484.2 7 8512.2 7	2.7 7 0.3 1 0.23 13 3.0 7 0.47 13 2.1 4 3.7 7 1.4 3 7.7 10 5.9 6 6.7 7 30.0 7 0.7 2 13.3 13 0.33 17 41.4 4 87 10 100.0 13		7247.9 7208.4 5950 5668.2 5203 4769.6 4637.0 4289.3 4040.0 3770.5 3766.8 3125.9 3055.9 2890.2 2828.5 1899.2 776.95 749.10	(1/2,3/2,5/2+) (1/2)- (1/2)- (1/2)- 9/2- TO 15/2- 1/2-,3/2- 3/2 1/2+ 1/2- 1/2-,3/2- 1/2-,3/2- 3/2- 1/2- 3/2- (3/2)- 3/2- 1/2- 3/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9330 20	K	3/2+,5/2+