List of levels for 25AL

Authors: M. Shamsuzzoha Basunia, Anagha Chakraborty | Citation: Nucl. Data Sheets 205, 1 (2025) | Cutoff date: 31-May-2025

Other reactions:

²²Mg(α,p): 2023Ja08 - reported a direct measurement of the energy- and angle-integrated cross sections for E_c.m.=3.3-6.9 MeV.

²⁵Mg(⁶Li,⁶He): 1976Ci02 and 1982Ci01 - listed in the (³He,t) dataset.

²⁴Mg(¹⁹F,¹⁸O): 1976Ts03 - listed in the (d,n) dataset

²⁴Mg(⁷Li,⁶He): 1974Ke15 and 1975Mo07 - listed in the (d,n)

Q-value: S(2n)=31806.7 4, S(2p)=13964.06 6 (2021Wa16)

E(level): From a least-squares fit to the γ-ray energies, except where

T_1/2(level): LABEL=T_1/2 or Γ

T_1/2(level): From (p,γ),(p,p’γ), except where otherwise noted.

E(γ): From level energy differences corrected for recoil energy, except

I(γ): From (p,γ),(p,p’γ), except where otherwise noted.

M(γ): From (p,γ),(p,p’γ), except where otherwise noted. Electric and/or

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
451.8	1/2+	2.29 ns 5	451.9 6	[E2]		2.79×10^-4	B(E2)(W.u.)=3.02 7, α=2.79E-4 4, α(K)=0.000261 4, α(L)=1.777E-5 26, α(M)=9.42E-7 14
944.9	3/2+	4.3 ps 11	493.1 6	(M1+E2)	-0.09 6	7.32×10^-5	B(E2)(W.u.)=5 +10-4, B(M1)(W.u.)=0.025 +9-5, α=7.32E-5 22, α(K)=6.83E-5 20, α(L)=4.65E-6 14, α(M)=2.47E-7 7
944.9	3/2+	4.3 ps 11	944.4 5	M1+E2		2.5×10^-5	α=2.5×10^-5 5, α(K)=2.3E-5 5, α(L)=1.58E-6 34, α(M)=8.4E-8 18
1612.9	(7/2)+	11 fs 2	1612.8 5	M1+E2	+0.17 4	1.07×10^-4	B(E2)(W.u.)=31 +18-13, B(M1)(W.u.)=0.46 +10-7, α=1.07E-4 2, α(K)=7.08E-6 10, α(L)=4.82E-7 7, α(M)=2.56E-8 4
1789.7	5/2+	390 fs +40-30	844.0 6	M1+E2	+0.17 2	2.48×10^-5	B(E2)(W.u.)=9.0 +23-22, B(M1)(W.u.)=0.038 4, α=2.48E-5 4, α(K)=2.312E-5 34, α(L)=1.574E-6 23, α(M)=8.38E-8 12
	5/2+	390 fs +40-30	1338.0 5	E2(+M3)	-0.1 3	5.15×10^-5	B(E2)(W.u.)=28 +6-9, α=5.15E-5 19, α(K)=1.25E-5 26, α(L)=8.5E-7 18, α(M)=4.5E-8 10
	5/2+	390 fs +40-30	1789.9 6	M1+E2	+0.56 3	1.80×10^-4	B(E2)(W.u.)=0.98 +14-15, B(M1)(W.u.)=0.00169 21, α=1.80E-4 3, α(K)=6.14E-6 9, α(L)=4.17E-7 6, α(M)=2.222E-8 32
2485.4	1/2+	3.9 fs +20-17	2485.1	[E2]		5.54×10^-4	B(E2)(W.u.)=10 +8-3, α=5.54E-4 8, α(K)=3.80E-6 5, α(L)=2.58E-7 4, α(M)=1.376E-8 19
2673.6	3/2+	4 fs 3	2221.4 18	M1(+E2)	+0.05 5	3.41×10^-4	B(M1)(W.u.)=0.2 +5-1, α=3.41×10^-4 5, α(K)=4.19E-6 6, α(L)=2.85E-7 4, α(M)=1.515E-8 21
2673.6	3/2+	4 fs 3	2673.6 6	M1+E2	+0.36 11	5.42×10^-4	B(E2)(W.u.)=7 +10-4, B(M1)(W.u.)=0.06 +8-3, α=5.42E-4 11, α(K)=3.17E-6 5, α(L)=2.157E-7 32, α(M)=1.148E-8 17
2720.4	7/2+	223 fs 31	930.4 7	M1+E2	+0.18 +15-13	2.05×10^-5	B(E2)(W.u.)=5 +11-4, B(M1)(W.u.)=0.021 4, α=2.05E-5 8, α(K)=1.92E-5 7, α(L)=1.30E-6 5, α(M)=6.94E-8 27
2720.4	7/2+	223 fs 31	1775.5 6	E2(+M3)	-0.08 15	2.13×10^-4	B(E2)(W.u.)=25 +6-5, α=2.13E-4 8, α(K)=7.0E-6 4, α(L)=4.75E-7 29, α(M)=2.53E-8 15
3061.9	3/2-	1.3 keV 4	2117.0	(E1+M2)	+0.06 4
	3/2-	1.3 keV 4	2610.2	D(+Q)	0.00 2
	3/2-	1.3 keV 4	3061.8	D(+Q)	-0.03 6
3424.7	(9/2)+	9.0 fs 14	1811.8 4	M1+E2	+0.14 4	1.77×10^-4	B(E2)(W.u.)=12 +9-6, B(M1)(W.u.)=0.34 +7-5, α=1.77E-4 3, α(K)=5.82E-6 8, α(L)=3.96E-7 6, α(M)=2.108E-8 30
3424.7	(9/2)+	9.0 fs 14	3424.5	E2(+M3)	-0.13 16	9.55×10^-4	B(E2)(W.u.)=4.8 +25-20, α=9.55E-4 34, α(K)=2.32E-6 11, α(L)=1.58E-7 8, α(M)=8.4E-9 4
3695.5	7/2-	0.3 keV	975.3	D(+Q)	-0.20 25
	7/2-	0.3 keV	1905.6 4	D(+Q)	-0.01 2	5.80×10^-4	α=5.80×10^-4 8, α(K)=3.62E-6 5, α(L)=2.462E-7 35, α(M)=1.310E-8 18
	7/2-	0.3 keV	3695.6 7	D(+Q)	-0.02 2	1.56×10^-3	α=1.56×10^-3 2, α(K)=1.508E-6 21, α(L)=1.025E-7 14, α(M)=5.45E-9 8
3858.9	5/2+	0.1 keV	1138.9	D(+Q)	-0.01 6
	5/2+	0.1 keV	1185.3	D+Q	+0.11 5
	5/2+	0.1 keV	2069.5	D(+Q)	0.00 5
	5/2+	0.1 keV	2914.0	D(+Q)	+0.03 3
	5/2+	0.1 keV	3858.8	D+Q	+0.07 4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
4197	3/2+	0.15 keV	3252	D+Q	-0.07 3
4197	3/2+	0.15 keV	3745	D+Q	+0.18 1
7903.0	5/2+	0.111 keV 18	6289 3	D+Q	+0.08 6
	5/2+	0.111 keV 18	6957	D(+Q)	+0.07 6
	5/2+	0.111 keV 18	7902 3	D(+Q)	+0.02 3
7971	3/2+	1.30 keV 14	7970	D+Q	+0.11 2

Q(β-)=-12743 keV 10	S(n)= 16938.48 keV 24	S(p)= 2271.37 keV 6	Q(α)= -9156.03 keV 8
Reference: 2021WA16

References:
A	²⁵Si ε decay (218.7 MS)	B	²⁶P εp decay (43.6 MS)
C	²⁷S ε2p decay (15.9 MS)	D	²⁴Mg(p,γ),(p,p’γ)
E	²⁴Mg(pol p,p),(pol p,p’)	F	²⁴Mg(d,n)
G	²⁴Mg(³He,d),(pol ³He,d)	H	²⁵Mg(³He,t)
I	²⁷Al(p,t)	J	²⁸Si(p,α)

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	5/2+	7.168 s 4 % ε = 100
451.8 4	A B D F G I J	1/2+	2.29 ns 5	451.9 6	100	[E2]	0	5/2+
944.9 4	A B D F G I J	3/2+	4.3 ps 11	493.1 6 944.4 5	100 4 71 3	(M1+E2) M1+E2	451.8 0	1/2+ 5/2+
1612.9 5	A B D F G H I J	(7/2)+	11 fs 2	1612.8 5	100	M1+E2	0	5/2+
1789.7 4	A B D F G I J	5/2+	390 fs +40-30	844.0 6 1338.0 5 1789.9 6	100 5 88 10 55 5	M1+E2 E2(+M3) M1+E2	944.9 451.8 0	3/2+ 1/2+ 5/2+
2485.4 23	D F G I J	1/2+	3.9 fs +20-17	1540.2 2033.4 2485.1	19.2 3 100.0 11 3.31 12	[E2]	944.9 451.8 0	3/2+ 1/2+ 5/2+
2673.6 4	A D F G I J	3/2+	4 fs 3	883.8 6 1728.3 8 2221.4 18 2673.6 6	100.0 19 1.2 5 73.4 16 59.1 12	M1(+E2) M1+E2	1789.7 944.9 451.8 0	5/2+ 3/2+ 1/2+ 5/2+
2720.4 6	B D F G I J	7/2+	223 fs 31	930.4 7 1775.5 6 2720.0	23.9 27 100 5 8.9 20	M1+E2 E2(+M3)	1789.7 944.9 0	5/2+ 3/2+ 5/2+
3061.9 7	D F G I J	3/2-	1.3 keV 4	2117.0 2610.2 3061.8	15.1 7 100.0 16 17.2 8	(E1+M2) D(+Q) D(+Q)	944.9 451.8 0	3/2+ 1/2+ 5/2+
3410 5	F J	(5/2+)
3424.7 7	D F G I J	(9/2)+	9.0 fs 14	1811.8 4 3424.5	100 5 19 5	M1+E2 E2(+M3)	1612.9 0	(7/2)+ 5/2+
3695.5 5	D F G I J	7/2-	0.3 keV	975.3 1905.6 4 3695.6 7	2.8 4 100 4 38 3	D(+Q) D(+Q) D(+Q)	2720.4 1789.7 0	7/2+ 5/2+ 5/2+
3823.0 20	D F G J	1/2-	36 keV 7	1337.7 2877.9 3371.1	8.2 4 100 3 35.1 13		2485.4 944.9 451.8	1/2+ 3/2+ 1/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
3858.9 8	A D F G I	5/2+	0.1 keV	797.1 1138.9 1185.3 2069.5 2245.9 2914.0 3407.2 3858.8	0.60 6 14.7 5 12.3 3 9.5 3 3.03 11 100 3 0.62 6 15.5 5	D(+Q) D+Q D(+Q) D(+Q) D+Q	3061.9 2720.4 2673.6 1789.7 1612.9 944.9 451.8 0	3/2- 7/2+ 3/2+ 5/2+ (7/2)+ 3/2+ 1/2+ 5/2+
4025 3	D F G J	(9/2,5/2)+	18 fs 3	600 2412 4025	2.0 10 98 6 100 6		3424.7 1612.9 0	(9/2)+ (7/2)+ 5/2+
4197 2	A D F G I J	3/2+	0.15 keV	3252 3745	100 100	D+Q D+Q	944.9 451.8	3/2+ 1/2+
4520 4	D G J	(9/2)+
4582 2	A D F I	5/2+	0.3 keV	3637	100		944.9	3/2+
4852 4	F G
4906 4	A D F G I J
5068 5	D F G J		< 4 keV
5083	D I
5101 10	G		< 4 keV
5116 7	F G		47 keV 5
5232 4	F G
5285	D F I	1/2+	185 keV
5526 7	F G		≈ 18 keV
5597 5	A D F I	(3/2,5/2,7/2)+	56 keV 20
5686 7	G J
5785 7	D G	1/2+	≈ 20 keV
5804 4	A D F G I	(3/2,5/2,7/2)+
6069 9	A F G J
6121 3	A D E F G H I	3/2+	53 keV 2
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6170 2	A F	(3/2,5/2,7/2)+
6327 2	D G	7/2	> 0.4 keV
6385 3	D E F	3/2-	< 15 keV
6409 10	F G J		58 keV 7
6518 7	D E G	3/2+	59 keV 13
6620 9	A F	3/2+,5/2+,7/2+
6649 5	A D E G H	5/2+	58 keV 9
6734 22	E F	7/2-	197 keV 39
6740 5	E	1/2+	152 keV 11
6770 7	D F G
6879 7	A G	(3/2,5/2,7/2)+
6895 3	E	7/2-	53 keV 4
6909 10	D G
6944 10	A D G		104 keV 10
7022	D F
7055 9	E F	3/2-	616 keV 20
7112 4	A D E G H	3/2+	117 keV 4
7150 7	E F	5/2-	20 keV 6
7183 7	F G J
7242 3	A D E G H	5/2+	19 keV 4
7297 3	D E F	3/2-	69 keV 9
7409 4	E	5/2-	< 12 keV
7421 5	D G H	(7/2)+
7480 30	F J
7588	D G J
7646	D		50 keV 15
7684 3	A E	7/2-	21 keV 3
7716 10	E	3/2+	230 keV 20
7770	D		340 keV 15
7820 15	A G		209 keV 20
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7848	D		20 keV 8
7892 8	E	5/2-	94 keV 15
7903.0 22	A D E I	5/2+	0.111 keV 18	6289 3 6957 7902 3	74 6 26 4 100 6	D+Q D(+Q) D(+Q)	1612.9 944.9 0	(7/2)+ 3/2+ 5/2+
7943 20	A D		35 keV 10
7971 3	D E	3/2+	1.30 keV 14	7025 7518 7970	21 7 20 6 100 10	D+Q	944.9 451.8 0	3/2+ 1/2+ 5/2+
8025	D		20 keV 10
8077	D	(7/2,9/2)+	15 keV 7
8089 3	D E F I	5/2-	40 keV 9
8189 3	A D H	(3/2,5/2,7/2)+	40 keV 10
8300 30	F
8600 30	F
8670 30	F
8820 30	F
9000 30	F
9068 7	A	(3/2,5/2,7/2)+
9210 30	F
9275 25	A

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - 5/2[202]
0	5/2+	7.168 s 4 % ε = 100
1612.9 5	(7/2)+	11 fs 2	1612.8 5	100	M1+E2	0	5/2+
3424.7 7	(9/2)+	9.0 fs 14	1811.8 4 3424.5	100 5 19 5	M1+E2 E2(+M3)	1612.9 0	(7/2)+ 5/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - 1/2[211]
451.8 4	1/2+	2.29 ns 5
944.9 4	3/2+	4.3 ps 11	493.1 6 944.4 5	100 4 71 3	(M1+E2) M1+E2	451.8 0	1/2+ 5/2+
1789.7 4	5/2+	390 fs +40-30	844.0 6 1338.0 5 1789.9 6	100 5 88 10 55 5	M1+E2 E2(+M3) M1+E2	944.9 451.8 0	3/2+ 1/2+ 5/2+
2720.4 6	7/2+	223 fs 31	930.4 7 1775.5 6 2720.0	23.9 27 100 5 8.9 20	M1+E2 E2(+M3)	1789.7 944.9 0	5/2+ 3/2+ 5/2+
4520 4	(9/2)+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - 1/2[200]
2485.4 23	1/2+	3.9 fs +20-17
2673.6 4	3/2+	4 fs 3	883.8 6 1728.3 8 2221.4 18 2673.6 6	100.0 19 1.2 5 73.4 16 59.1 12	M1(+E2) M1+E2	1789.7 944.9 451.8 0	5/2+ 3/2+ 1/2+ 5/2+
3858.9 8	5/2+	0.1 keV	797.1 1138.9 1185.3 2069.5 2245.9 2914.0 3407.2 3858.8	0.60 6 14.7 5 12.3 3 9.5 3 3.03 11 100 3 0.62 6 15.5 5	D(+Q) D+Q D(+Q) D(+Q) D+Q	3061.9 2720.4 2673.6 1789.7 1612.9 944.9 451.8 0	3/2- 7/2+ 3/2+ 5/2+ (7/2)+ 3/2+ 1/2+ 5/2+
4906 4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - 3/2[202]
6121 3	3/2+	53 keV 2
6649 5	5/2+	58 keV 9
7421 5	(7/2)+

E(level)	J^π(level)	T_1/2(level)	Comments
0	5/2+	7.168 s 4 % ε = 100	Q=0.24 2, μ=3.6447 12 E(level): 5/2[202].
451.8	1/2+	2.29 ns 5	E(level): 1/2[211].
944.9	3/2+	4.3 ps 11	E(level): 1/2[211].
1612.9	(7/2)+	11 fs 2	E(level): 5/2[202].
1789.7	5/2+	390 fs +40-30	XREF: F(1810). E(level): 1/2[211].
2485.4	1/2+	3.9 fs +20-17	Γ_γ/Γ=0.91 4 (p,γ). E(level): 1/2[200].
2673.6	3/2+	4 fs 3	XREF: F(2690). E(level): 1/2[200].
2720.4	7/2+	223 fs 31	E(level): 1/2[211].
3061.9	3/2-	1.3 keV 4	XREF: F(3080).
3424.7	(9/2)+	9.0 fs 14	Γ_pΓ_γ/Γ=6.5 meV 13 (p,γ). E(level): 5/2[202].
3695.5	7/2-	0.3 keV	Γ_pΓ_γ/Γ=17.5 25 (1975Tr04 - (p,γ)).
3823.0	1/2-	36 keV 7	XREF: F(3840)J(3848). E(level): From (p,γ),(p,p’γ). T_1/2(level): From (³He,d),(pol ³He,d).
3858.9	5/2+	0.1 keV	(2J+1)Γ_pΓ_γ/Γ=190 meV 30 (1975Tr04 - (p,γ)). E(level): 1/2[200].
4025	(9/2,5/2)+	18 fs 3	XREF: J(4021).
4197	3/2+	0.15 keV	XREF: I(4220)J(4205).
4520	(9/2)+		E(level): 1/2[211].
4582	5/2+	0.3 keV	XREF: F(4620)I(4590). E(level): From ²⁵Si ε decay (219.2 ms).
4906			XREF: d(4882)F(4920)J(4921). E(level): From ²⁵Si ε decay (219.2 ms). 1/2[200].
5068		< 4 keV	XREF: F(4990)J(5050). E(level): From (³He,d),(pol ³He,d).
5083			E(level): From (p,γ),(p,p’γ).
5116		47 keV 5	XREF: F(5120).
5232			XREF: F(5250).
5285	1/2+	185 keV	XREF: F(5340)I(5300).
5526		≈ 18 keV	XREF: F(5470).
5597	(3/2,5/2,7/2)+	56 keV 20	XREF: F(5560). E(level): From ²⁵Si ε decay (219.2 ms). T_1/2(level): From ²⁵Si ε decay (219.2 ms).
E(level)	J^π(level)	T_1/2(level)	Comments
5686			XREF: J(5722).
5785	1/2+	≈ 20 keV	XREF: d(5764).
5804	(3/2,5/2,7/2)+		XREF: F(5840).
6121	3/2+	53 keV 2	E(level): 3/2[202]. J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06).
6170	(3/2,5/2,7/2)+		XREF: F(6190).
6385	3/2-	< 15 keV	XREF: d(6407)F(6370). T_1/2(level): From (pol p,p’).
6409		58 keV 7	XREF: F(6450)J(6439). T_1/2(level): From (³He,d),(pol ³He,d).
6518	3/2+	59 keV 13	Γ_p=5 keV 1 (pol p,p). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06).
6620	3/2+,5/2+,7/2+		E(level): From ²⁵Si ε decay (219.2 ms).
6649	5/2+	58 keV 9	XREF: d(6676). E(level): 3/2[202]. J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
6734	7/2-	197 keV 39	E(level): From (p,γ),(p,p’γ). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
6740	1/2+	152 keV 11	J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
6770			E(level): From (³He,d),(pol ³He,d).
6895	7/2-	53 keV 4	J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
6944		104 keV 10	XREF: α(6982). T_1/2(level): From (³He,d),(pol ³He,d).
7022			XREF: F(6990).
7055	3/2-	616 keV 20	XREF: F(7090). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7112	3/2+	117 keV 4	Γ_p=88 keV 3 (pol p,p). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7150	5/2-	20 keV 6	Γ_p=1.4 keV 1 (pol p,p). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7183			E(level): From (³He,d),(pol ³He,d).
7242	5/2+	19 keV 4	Γ_p=5 keV 1 (pol p,p). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7297	3/2-	69 keV 9	Γ_p=51 keV 3 (pol p,p). E(level): From (p,γ),(p,p’γ). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06).
7409	5/2-	< 12 keV	J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7421	(7/2)+		E(level): 3/2[202].
7588			XREF: γ(?).
E(level)	J^π(level)	T_1/2(level)	Comments
7684	7/2-	21 keV 3	E(level): From (p,γ),(p,p’γ). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7716	3/2+	230 keV 20	J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7820		209 keV 20	XREF: γ(?). E(level): From ²⁵Si ε decay (219.2 ms). T_1/2(level): From (³He,d),(pol ³He,d).
7892	5/2-	94 keV 15	Γ_p=3.6 keV 15 (pol p,p). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
7903.0	5/2+	0.111 keV 18	T=3/2 Γ_p=18 eV 4 (pol p,p).
7943		35 keV 10	E(level): From ²⁵Si ε decay (219.2 ms).
7971	3/2+	1.30 keV 14	T=3/2 other: Γ=0.36 keV 5 (p,γ) - authors of 1992Wi13 - (pol p,p) note that polarized beam datum is superior than unpolarized beam. Γ_p=232 eV 12 - (pol p,p). E(level): other: Γ=0.36 keV 5 (p,γ) - authors of 1992Wi13 - (pol p,p) note that polarized beam datum is superior than unpolarized beam. Γ_p=232 eV 12 - (pol p,p). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).
8089	5/2-	40 keV 9	XREF: F(8100). E(level): From (pol p,p’). J^π(level): From (pol p,p’), based on phase shift analysis (1991Pr06). T_1/2(level): From (pol p,p’).

E(level)	E(gamma)	Comments
451.8	451.9	E(γ): From ²⁶P εp decay (43.6 ms)
944.9	493.1	E(γ): From ²⁶P εp decay (43.6 ms)
944.9	944.4	E(γ): From ²⁵Si ε decay (219.2 ms) I(γ): others: 50 4 from ²⁶P εp decay, and 75 4 from (p,γ). From ²⁵Si ε decay (219.2 ms)
1612.9	1612.8	E(γ): weighted average of 1613.1 6 from ²⁶P εp decay and 1612.5 5 from (p,γ)
1789.7	844.0	E(γ): weighted average of 844.6 7 from ²⁵Si ε decay and 843.5 6 from ²⁶P εp decay
	1338.0	E(γ): From ²⁶P εp decay (43.6 ms) I(γ): unweighted average of 68 4 from ²⁵Si ε decay, 100 13 from ²⁶P εp decay, and 95 5 from (p,γ)
	1789.9	E(γ): weighted average of 1789.4 9 from ²⁵Si ε decay, 1790.2 6 from ²⁶P εp decay, and 1789.6 13 from (p,γ) I(γ): others: 57 4 from ²⁵Si ε decay, 100 38 from ²⁶P εp decay
2673.6	883.8	E(γ): From ²⁵Si ε decay (219.2 ms)
	1728.3	E(γ): From ²⁵Si ε decay (219.2 ms)
	2221.4	E(γ): From ²⁵Si ε decay (219.2 ms)
	2673.6	E(γ): From ²⁵Si ε decay (219.2 ms)
2720.4	930.4	E(γ): From ²⁶P εp decay (43.6 ms) M(γ): D+Q in (p,γ),(p,p’γ), M1⁺E2 from RUL, since M2 component strength exceeds RUL.
2720.4	1775.5	E(γ): From ²⁶P εp decay (43.6 ms) M(γ): Q(+O) in (p,γ),(p,p’γ), E2(+M3) from RUL, since M2 component strength exceeds RUL.
3061.9	2117.0	M(γ): D+Q in (p,γ),(p,p’γ), (E1⁺M2) from ΔJ^π.
3424.7	1811.8	E(γ): From (p,γ),(p,p’γ)
3695.5	1905.6	E(γ): From (p,γ),(p,p’γ)
3695.5	3695.6	E(γ): From (p,γ),(p,p’γ)
7903.0	6289	E(γ): From ²⁵Si ε decay (219.2 ms)
7903.0	7902	E(γ): From ²⁵Si ε decay (219.2 ms)