List of levels for 58MN

ADOPTED LEVELS, GAMMAS for ⁵⁸Mn

Authors: Caroline D. Nesaraja, Scott D. Geraedts and Balraj Singh | Citation: Nucl. Data Sheets 111, 897 (2010) | Cutoff date: 12-Jan-2010

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=6327 keV 3	S(n)= 6413 keV 3	S(p)= 10592 keV 4	Q(α)= -8360 keV 16
Reference: 2012WA38

References:
A	⁵⁸Cr β^- decay (7.0 S)	B	⁵⁸Mn IT decay (65.4 S)
C	¹³C(⁴⁸Ca,p2nγ),¹⁴C(⁴⁸Ca,p3nγ)	D	⁴⁸Ca(¹³C,2npγ)
E	⁵⁸Fe(t,³He)	F	²³⁸U(⁷⁰Zn,xγ)

First identification of ⁵⁸Mn nuclide by 1961Ch04 in ⁵⁸Fe(n,p) reaction.

2007Na31: ¹³⁶Xe(p,X) E=1 GeV/nucleon, measured cross section

2006Li15: Shell-model calculations in the full pf space.

Other reaction: 1989AnZZ: ⁵⁸Fe(¹²C,¹²N) E=70 MeV/nucleon. Deduced Gamow-Teller strengths. The details of this study are not available

Q-value: Note: Current evaluation has used the following Q record 6250 30 6491 30 10672 30 -8441 34 2009AuZZ,2003Au03

Q-value: S(2n)=15140 30, S(2p)=24400 210 (2009AuZZ)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0.0	A B E	1+	3.0 s 1 % β^- = 100
71.77 5	B C D E F	4+	65.4 s 5 % IT ≈ 10 % β^- ≈ 90	71.78 5	100	M3	0.0	1+
125.69 16	C	(2+)		125.5 2	100		0.0	1+
169.92 15	C	(3+)		44.2 3 97.9 3	42 8 100.0 22		125.69 71.77	(2+) 4+
183 10	E	1+
289.4 4	A E	1+		289.5 4	100		0.0	1+
429.67 15	C	(3+)		303.1 4 358.0 2	45 9 100 27		125.69 71.77	(2+) 4+
448.03 10	C D F	(5+)	< 35 ps	376.1 1	100	D+Q	71.77	4+
463.4 11	A E	(0:3+)		174 1	100		289.4	1+
591.22 18	C	(4+)		421.4 2 465.8 5	100 14 13 3		169.92 125.69	(3+) (2+)
651 15	E	1+
661.11 14	C E	5+		212.8 2 490.9 4 589.8 2	14.2 18 14.8 18 100 14		448.03 169.92 71.77	(5+) (3+) 4+
683.1 6	A	(0:3+)		682.9 6	100		0.0	1+
735.38 12	C	(4+)		286.8 2 305.6 2 565.3 2 663.8 2	18.6 14 21.1 23 100 9 17.4 17		448.03 429.67 169.92 71.77	(5+) (3+) (3+) 4+
748 10	E	1+
809.7 6	A	1+		126 1 520.4 5	100 4 21 1		683.1 289.4	(0:3+) 1+
817 10	E	1+
1044 15	E	1+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1240.16 19	C	(6+)		580.0 6 792.1 3	100 10 30 6		661.11 448.03	5+ (5+)
1250 20	E	(2)+
1275 20	E	1+
1338.13 19	C	(4)		601.9 5 890.3 2 1266.6 9	21 3 22 6 100 20		735.38 448.03 71.77	(4+) (5+) 4+
1350 15	E	3+
1385 15	E	5+
1413 15	E
1457.59 13	C	(5)		119.8 4 721.7 2 866.5 2 1009.5 2 1386.2 3	30 4 46 5 10.0 11 100 11 51 5		1338.13 735.38 591.22 448.03 71.77	(4) (4+) (4+) (5+) 4+
1470 15	E	(4)+
1535 20	E	(4)+
1601.43 16	C D F	(6)		143.7 2 361.4 2 940.3 2 1153.5 3	25.2 21 4.3 3 2.9 3 100 8	(D) D	1457.59 1240.16 661.11 448.03	(5) (6+) 5+ (5+)
1880.42 18	C D F	(7)	< 35 ps	279.0 1 640.2 2	100 6 6.1 6	D	1601.43 1240.16	(6) (6+)
2259 15	E	(3,4)+
2282 15	E	(5,4)+
2339.7 3	C			459.3 2	100		1880.42	(7)
2368 10	E	(2,3,4)+
2412 10	E	(2,3)+
2459.7 5	C D F	(8)	< 0.4 ps	579.1 5	100		1880.42	(7)
2487 10	E	(2,3)+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2506 15	E	(NOT 1+)
2564 10	E
2854.7 4	C			515.0 2	100		2339.7
2988 10	E
3040 10	E	(NOT 1+)
3042.6 5	C D F	(9)	< 0.4 ps	582.8 5 1162.4 5	100 13 41 3	D	2459.7 1880.42	(8) (7)
3218 10	E
3258 15	E
3415 20	E
3462.1 5	C			607.4 3	100		2854.7
3721.4 5	C D	(10)	< 0.3 ps	678.7 1 1261.6 7	100 7 27 3	D (Q)	3042.6 2459.7	(9) (8)
4707.6 18	C			2247.9 17	100		2459.7	(8)
4733.1 5	C D	(11)		1012.1 4 1690.5 2	99 8 100 7	D	3721.4 3042.6	(10) (9)
4812.4 5	C	(11)		1090.9 2 1770.6 7	100 9 73 4		3721.4 3042.6	(10) (9)
4941.1 6	C			1898.4 3	100		3042.6	(9)
5311.9 6	C			1590.5 3	100		3721.4	(10)
5424.4 5	C	(12)		612.0 2 691.6 2 1702.3 4	11.6 11 100 7 42 3		4812.4 4733.1 3721.4	(11) (11) (10)
6337.2 12	C			2615.7 11	100		3721.4	(10)
6566.4 7	C			1833.3 5	100		4733.1	(11)
6872.6 5	C	(13)		1448.2 2 2059.9 12 2138.9 10	100 9 23.2 23 68 5		5424.4 4812.4 4733.1	(12) (11) (11)
7442.5 9	C	(14)		2018.0 7	100		5424.4	(12)
9831.1 14	C	(16)		2388.6 11	100		7442.5	(14)

E(level): From least-squares fit to Eγ’s. In earlier evaluation (1997Bh02), energy of 72 keV was added to each level in the (t,³He) dataset. With the revised assignment of 4⁺ for the isomer, the adjustment in the energy levels seems to be no longer required

J^π(level): In (t,³He) reaction target Jπ=0⁺

T_1/2(level): From (¹³C,2npγ), except as noted otherwise

M(γ): From γ(θ) and γγ(θ) in (¹³C,2npγ), except as noted. Mult=d or D+Q indicates ΔJ=1; mult=Q indicates ΔJ=2 transition no multipolarity information is provided in the (⁴⁸Ca,p2nγ) reaction

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - MULTIPLET STRUCTURE
71.77 5	4+	65.4 s 5 % IT ≈ 10 % β^- ≈ 90
125.69 16	(2+)		125.5 2	100		0.0	1+
169.92 15	(3+)		44.2 3 97.9 3	42 8 100.0 22		125.69 71.77	(2+) 4+
429.67 15	(3+)		303.1 4 358.0 2	45 9 100 27		125.69 71.77	(2+) 4+
448.03 10	(5+)	< 35 ps
591.22 18	(4+)		421.4 2 465.8 5	100 14 13 3		169.92 125.69	(3+) (2+)
661.11 14	5+		212.8 2 490.9 4 589.8 2	14.2 18 14.8 18 100 14		448.03 169.92 71.77	(5+) (3+) 4+
735.38 12	(4+)		286.8 2 305.6 2 565.3 2 663.8 2	18.6 14 21.1 23 100 9 17.4 17		448.03 429.67 169.92 71.77	(5+) (3+) (3+) 4+
1240.16 19	(6+)		580.0 6 792.1 3	100 10 30 6		661.11 448.03	5+ (5+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - ΔJ=1 band based on (7).
1880.42 18	(7)	< 35 ps
2459.7 5	(8)	< 0.4 ps	579.1 5	100		1880.42	(7)
3042.6 5	(9)	< 0.4 ps	582.8 5 1162.4 5	100 13 41 3	D	2459.7 1880.42	(8) (7)
3721.4 5	(10)	< 0.3 ps	678.7 1 1261.6 7	100 7 27 3	D (Q)	3042.6 2459.7	(9) (8)
4733.1 5	(11)
5424.4 5	(12)		612.0 2 691.6 2 1702.3 4	11.6 11 100 7 42 3		4812.4 4733.1 3721.4	(11) (11) (10)
6872.6 5	(13)		1448.2 2 2059.9 12 2138.9 10	100 9 23.2 23 68 5		5424.4 4812.4 4733.1	(12) (11) (11)
7442.5 9	(14)		2018.0 7	100		5424.4	(12)
9831.1 14	(16)		2388.6 11	100		7442.5	(14)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Conversion Coefficient	Additional Data
71.77	4+	65.4 s 5 % IT ≈ 10 % β^- ≈ 90	71.78 5	M3	14.07	α=14.07, α(K)=12.09 18, α(L)=1.734 25, α(M)=0.236 4, α(N)=0.00891 13, α(N+)=0.00891 13

E(level)	J^π(level)	T_1/2(level)	Comments
71.77	4+	65.4 s 5 % IT ≈ 10 % β^- ≈ 90	XREF: E(88). E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
125.69	(2+)		E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
169.92	(3+)		E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
183	1+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
289.4	1+		XREF: E(303). J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
429.67	(3+)		E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
448.03	(5+)	< 35 ps	E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
463.4	(0:3+)		XREF: E(466).
591.22	(4+)		E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
651	1+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
661.11	5+		XREF: E(679). E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
735.38	(4+)		E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
748	1+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
817	1+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1044	1+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1240.16	(6+)		E(level): MULTIPLET STRUCTURE. J^π(level): From GXPF1A shell-model calculations and predictions (2010St01) for low-lying, low-spin states.
1250	(2)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1275	1+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1350	3+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1385	5+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1470	(4)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1535	(4)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
1880.42	(7)	< 35 ps	E(level): ΔJ=1 band based on (7).
2259	(3,4)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
2282	(5,4)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
E(level)	J^π(level)	T_1/2(level)	Comments
2368	(2,3,4)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
2412	(2,3)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
2459.7	(8)	< 0.4 ps	E(level): ΔJ=1 band based on (7).
2487	(2,3)+		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
2506	(NOT 1+)		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
3040	(NOT 1+)		J^π(level): From σ(θ) and coupled-channels analysis (1985Aj02) in ⁵⁸Fe(t,³He).
3042.6	(9)	< 0.4 ps	E(level): ΔJ=1 band based on (7).
3721.4	(10)	< 0.3 ps	E(level): ΔJ=1 band based on (7).
4733.1	(11)		E(level): ΔJ=1 band based on (7).
5424.4	(12)		E(level): ΔJ=1 band based on (7).
6872.6	(13)		E(level): ΔJ=1 band based on (7).
7442.5	(14)		E(level): ΔJ=1 band based on (7).
9831.1	(16)		E(level): ΔJ=1 band based on (7).

E(level)	E(gamma)	Comments
71.77	71.78	M(γ): from α(K)exp and α(L)exp (1993ScZS) in ⁵⁸Mn it decay