List of levels for 25MG

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

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
585.042	1/2+	3.38 ns 7	585.028 30	E2			B(E2)(W.u.)=0.563 12
974.746	3/2+	11.2 ps 7	389.710 35	M1+E2	+0.13 3		B(E2)(W.u.)=10 +5-4, B(M1)(W.u.)=0.0153 10
974.746	3/2+	11.2 ps 7	974.742 35	M1+E2	+0.34 12		B(E2)(W.u.)=0.7 +5-4, B(M1)(W.u.)=0.00101 10
1611.767	7/2+	17 fs 3	1611.712 11	M1+E2	-0.207 13	1.05×10^-4	B(E2)(W.u.)=29 +8-5, B(M1)(W.u.)=0.30 +7-5, α=1.05E-4 2, α(K)=5.59E-6 8, α(L)=3.59E-7 5, α(M)=1.331E-8 19
1964.615	5/2+	0.69 ps 6	989.865 30	M1+E2	-0.25 7		B(E2)(W.u.)=3.0 +18-14, B(M1)(W.u.)=0.0080 8
	5/2+	0.69 ps 6	1379.543 30	E2		5.90×10^-5	B(E2)(W.u.)=17.1 +17-15, α=5.90E-5 8, α(K)=9.14E-6 13, α(L)=5.87E-7 8, α(M)=2.174E-8 30
	5/2+	0.69 ps 6	1964.501 45	M1+E2	-0.58 7	2.51×10^-4	B(E2)(W.u.)=0.45 +10-9, B(M1)(W.u.)=0.00087 +10-9, α=2.51E-4 5, α(K)=4.14E-6 6, α(L)=2.66E-7 4, α(M)=9.86E-9 15
2563.40	1/2+	11 fs +5-4	2563.6 5	[E2]		5.90×10^-4	B(E2)(W.u.)=3.0 +25-12, α=5.90E-4 8, α(K)=2.86E-6 4, α(L)=1.835E-7 26, α(M)=6.80E-9 10
2737.95	7/2+	0.286 ps +24-25	1763.13 15	E2		2.07×10^-4	B(E2)(W.u.)=23.2 +23-18, α=2.07E-4 3, α(K)=5.56E-6 8, α(L)=3.57E-7 5, α(M)=1.322E-8 19
2737.95	7/2+	0.286 ps +24-25	2737.8	M1+E2	-0.12 6	5.56×10^-4	B(E2)(W.u.)=0.0025 +32-19, B(M1)(W.u.)=2.22E-4 +40-37, α=5.56E-4 8, α(K)=2.402E-6 34, α(L)=1.542E-7 22, α(M)=5.72E-9 8
2801.46	3/2+	26 fs 3	836.86 5	M1(+E2)	-0.25 LT		B(M1)(W.u.)<0.67
	3/2+	26 fs 3	2216.267 50	M1+E2	+0.21 9	3.40×10^-4	B(E2)(W.u.)=1.5 +15-10, B(M1)(W.u.)=0.0282 +36-33, α=3.40E-4 6, α(K)=3.33E-6 5, α(L)=2.136E-7 31, α(M)=7.92E-9 12
	3/2+	26 fs 3	2801.30 5	M1+E2	-0.64 8	6.14×10^-4	B(E2)(W.u.)=1.69 +38-34, B(M1)(W.u.)=0.0055 +9-7, α=6.14E-4 11, α(K)=2.365E-6 34, α(L)=1.518E-7 22, α(M)=5.63E-9 8
3404.59	9/2+	7.6 fs 4	1793.1 3	M1+E2	-0.13 2	1.68×10^-4	B(E2)(W.u.)=12.5 +43-35, B(M1)(W.u.)=0.400 +23-21, α=1.68E-4 2, α(K)=4.66E-6 7, α(L)=2.99E-7 4, α(M)=1.110E-8 16
3404.59	9/2+	7.6 fs 4	3403.0 4	E2		9.54×10^-4	B(E2)(W.u.)=7.2 5, α=9.54E-4 13, α(K)=1.830E-6 26, α(L)=1.175E-7 16, α(M)=4.35E-9 6
3413.41	3/2-	7 fs 4	849.9 3	[E1]			B(E1)(W.u.)=0.00031 +33-14
	3/2-	7 fs 4	2438.53 3	E1(+M2)	0.2 LT	9.21×10^-4	B(E1)(W.u.)=0.0011 +16-5, α=9.21E-4 18, α(K)=2.08E-6 5, α(L)=1.334E-7 33, α(M)=4.94E-9 12
	3/2-	7 fs 4	2828.27 9	E1(+M2)		1.16×10^-3	B(E1)(W.u.)=0.0037 +35-14, α=1.16E-3 2, α(K)=1.675E-6 23, α(L)=1.075E-7 15, α(M)=3.98E-9 6
	3/2-	7 fs 4	3413.25 12	E1(+M2)	0.2 LT	1.42×10^-3	B(E1)(W.u.)=0.00032 +49-14, α=1.42E-3 3, α(K)=1.342E-6 28, α(L)=8.61E-8 18, α(M)=3.19E-9 7
3908.11	5/2+	6 fs 2	2933.18 18	M1+E2		0.00070	α=0.00070 6, α(K)=2.23×10^-6 7, α(L)=1.43E-7 5, α(M)=5.31E-9 17
3908.11	5/2+	6 fs 2	3907.8	M1+E2	-0.56 14	1.03×10^-3	B(E2)(W.u.)=0.62 +42-26, B(M1)(W.u.)=0.0051 +27-14, α=1.03E-3 2, α(K)=1.453E-6 21, α(L)=9.32E-8 13, α(M)=3.46E-9 5
3970.59	7/2-	22 fs 5	1232.6	[E1]		8.57×10^-5	B(E1)(W.u.)=0.00039 +23-18, α=8.57E-5 12, α(K)=5.76E-6 8, α(L)=3.70E-7 5, α(M)=1.370E-8 19
	7/2-	22 fs 5	2006.0 3	E1(+M2)	-0.04 4	6.50×10^-4	B(E1)(W.u.)=0.00067 +28-18, α=6.50E-4 9, α(K)=2.67E-6 4, α(L)=1.716E-7 26, α(M)=6.36E-9 10
	7/2-	22 fs 5	2358.7	[E1]		8.84×10^-4	B(E1)(W.u.)=5.5E-5 +34-26, α=8.84E-4 12, α(K)=2.129E-6 30, α(L)=1.366E-7 19, α(M)=5.06E-9 7
	7/2-	22 fs 5	3970.3	E1(+M2)	-0.02 3	1.67×10^-3	B(E1)(W.u.)=0.00047 +14-9, α=1.67E-3 2, α(K)=1.100E-6 15, α(L)=7.06E-8 10, α(M)=2.62E-9 4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
4059.2	9/2+	50 fs 4	2447.3	M1+E2	-0.49 10	4.53×10^-4	B(E2)(W.u.)=2.2 8, B(M1)(W.u.)=0.0094 11, α=4.53E-4 9, α(K)=2.89E-6 4, α(L)=1.855E-7 28, α(M)=6.88E-9 10
4059.2	9/2+	50 fs 4	4058.9 5	E2		1.19×10^-3	B(E2)(W.u.)=1.42 +13-11, α=1.19E-3 2, α(K)=1.414E-6 20, α(L)=9.07E-8 13, α(M)=3.36E-9 5
4276.43	1/2-	< 4 fs	1712.94 4	E1		4.37×10^-4	α=4.37×10^-4 6, α(K)=3.37E-6 5, α(L)=2.162E-7 30, α(M)=8.01E-9 11
	1/2-	< 4 fs	3301.9 3	[E1]		1.39×10^-3	α=1.39×10^-3 2, α(K)=1.377E-6 19, α(L)=8.84E-8 12, α(M)=3.28E-9 5
	1/2-	< 4 fs	3691.17 13	E1		1.56×10^-3	α=1.56×10^-3 2, α(K)=1.201E-6 17, α(L)=7.71E-8 11, α(M)=2.86E-9 4
4359.62	3/2+	< 7 fs	3384.6 2	M1+E2	+0.09 7	8.09×10^-4	α=8.09×10^-4 12, α(K)=1.763E-6 25, α(L)=1.131E-7 16, α(M)=4.19E-9 6
4359.62	3/2+	< 7 fs	3774.3 2	M1+E2	-0.19 9	9.52×10^-4	α=9.52×10^-4 14, α(K)=1.513E-6 21, α(L)=9.71E-8 14, α(M)=3.60E-9 5
4711.7	9/2+	27 fs 3	2746.9 5	E2		6.74×10^-4	B(E2)(W.u.)=29.0 +36-30, α=6.74E-4 9, α(K)=2.55E-6 4, α(L)=1.639E-7 23, α(M)=6.08E-9 9
5012.4	7/2+	< 7 fs	2210.8	[E2]		4.21×10^-4	α=4.21×10^-4 6, α(K)=3.67E-6 5, α(L)=2.359E-7 33, α(M)=8.74E-9 12
5012.4	7/2+	< 7 fs	5011.9	D+Q	+0.27 3
5116.80	1/2-	< 7 fs	2553.7 8	E1		1.00×10^-3	α=1.00×10^-3 1, α(K)=1.914E-6 27, α(L)=1.228E-7 17, α(M)=4.55E-9 6
5116.80	1/2-	< 7 fs	4531.3	E1		1.87×10^-3	α=1.87×10^-3 3, α(K)=9.41E-7 13, α(L)=6.04E-8 8, α(M)=2.238E-9 31
5251.45	11/2+	15 fs 2	1192.4 6	M1+E2	-0.12 2	1.554×10^-5	B(E2)(W.u.)=12 +5-4, B(M1)(W.u.)=0.203 +33-26, α=1.554E-5 23, α(K)=9.40E-6 13, α(L)=6.04E-7 9, α(M)=2.237E-8 32
	11/2+	15 fs 2	1846.4 5	M1+E2	+0.18 3	1.89×10^-4	B(E2)(W.u.)=3.4 +13-11, B(M1)(W.u.)=0.060 +10-8, α=1.89E-4 3, α(K)=4.45E-6 6, α(L)=2.86E-7 4, α(M)=1.060E-8 15
	11/2+	15 fs 2	2513.4	[E2]		5.67×10^-4	B(E2)(W.u.)=10.5 +19-15, α=5.67E-4 8, α(K)=2.95E-6 4, α(L)=1.896E-7 27, α(M)=7.03E-9 10
	11/2+	15 fs 2	3639.5 3	E2		1.05×10^-3	B(E2)(W.u.)=5.1 +8-6, α=1.05E-3 2, α(K)=1.656E-6 23, α(L)=1.063E-7 15, α(M)=3.94E-9 6
5460.6	13/2+	1.9 ps 7	2055.9 2	E2		3.46×10^-4	B(E2)(W.u.)=1.9 +11-5, α=3.46E-4 5, α(K)=4.18E-6 6, α(L)=2.68E-7 4, α(M)=9.94E-9 14
5521.20	5/2-	46 fs 6	3909.1	D+Q	+0.15 5
5521.20	5/2-	46 fs 6	5520.6	D+Q	+0.07 1
5533.2	11/2+	6 fs 2	2128.5 6	M1+E2	-0.119 9	3.02×10^-4	B(E2)(W.u.)=4.1 +22-12, B(M1)(W.u.)=0.22 +11-6, α=3.02E-4 4, α(K)=3.54E-6 5, α(L)=2.270E-7 32, α(M)=8.41E-9 12
5533.2	11/2+	6 fs 2	3921.1	[E2]		1.14×10^-3	B(E2)(W.u.)=9.5 +48-25, α=1.14E-3 2, α(K)=1.486E-6 21, α(L)=9.54E-8 13, α(M)=3.54E-9 5
5792.94	(7/2-)	46 fs 9	1822.4 2	(E2)		2.34×10^-4	B(E2)(W.u.)=48 +12-9, α=2.34E-4 3, α(K)=5.22E-6 7, α(L)=3.35E-7 5, α(M)=1.241E-8 17
5792.94	(7/2-)	46 fs 9	2388.1 2	(E1)		9.03×10^-4	B(E1)(W.u.)=0.00081 +20-14, α=9.03E-4 13, α(K)=2.094E-6 29, α(L)=1.344E-7 19, α(M)=4.98E-9 7
5860	5/2+	< 7 fs	5859	M1+E2	0.14 GT	0.00163	α=0.00163 9, α(K)=8.49×10^-7 14, α(L)=5.45E-8 9, α(M)=2.020E-9 34
5971.3	9/2+	< 7 fs	4359.1 5	M1+E2	-0.31 4	1.15×10^-3	α=1.15×10^-3 2, α(K)=1.244E-6 17, α(L)=7.98E-8 11, α(M)=2.96E-9 4
5971.3	9/2+	< 7 fs	5970.5	E2		1.74×10^-3	α=1.74×10^-3 2, α(K)=8.36E-7 12, α(L)=5.37E-8 8, α(M)=1.990E-9 28
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
5977.1	7/2+	< 7 fs	4012.4 10	D+Q	-0.14 3
6082	5/2+	< 7 fs	2111	[E1]		7.23×10^-4	α=7.23×10^-4 10, α(K)=2.482E-6 35, α(L)=1.593E-7 22, α(M)=5.90E-9 8
6434	9/2+	< 7 fs	2526	E2		5.73×10^-4	α=5.73×10^-4 8, α(K)=2.93E-6 4, α(L)=1.880E-7 26, α(M)=6.97E-9 10
6434	9/2+	< 7 fs	4822	D+Q	1.0 +15-6
6678	5/2	10 fs +30-3	2770	D+Q	-0.10 9
	5/2	10 fs +30-3	3876	D+Q	-0.30 4
	5/2	10 fs +30-3	4713	D(+Q)	+0.4 +7-4
	5/2	10 fs +30-3	6677	D(+Q)	+0.25 +12-35
6832	(3/2-,5/2)	< 28 fs	4030	D(+Q)	-0.36 +46-22
6840	5/2	< 7 fs	4102	D(+Q)	+0.07 8
7493	11/2(+)	21 fs 8	1522	D(+Q)	+0.00 3
	11/2(+)	21 fs 8	2032	D+Q	+0.07 6
	11/2(+)	21 fs 8	3434	D+Q	-0.07 6
7505	5/2	< 10 fs	6529	D+Q	+0.10 +90-3
7524	(7/2+,5/2)	< 10 fs	7523	D+Q	-1.5 +6-20
7551	(13/2)+	< 21 fs	2299	D+Q	-0.23 4
7577.47	(5/2+)	31 eV 5	5965.0	Q(+D)	+2.7 +50-15
7652	9/2	< 21 fs	1681	D+Q	+0.5 4
7801	9/2	< 12 fs	2008	D+Q	+0.14 2
7801	9/2	< 12 fs	6188	D(+Q)	-0.10 15
8532	(7/2,11/2)	< 10 fs	5127	D+Q	+0.10 6
8548	(5/2,7/2,9/2)	< 17 fs	6935	D+Q	-1.4 +6-36
8551	11/2	< 5 fs	3299	D+Q	-0.14 9
8656	7/2	< 10 fs	3944	D+Q	+0.21 15
8656	7/2	< 10 fs	8654	D(+Q)	+0.04 9
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
9948	(15/2)+		2397	D+Q	-0.16 4

Q(β-)=-4276.81 keV 4	S(n)= 7330.52 keV 5	S(p)= 12063.85 keV 5	Q(α)= -9885.92 keV 6
Reference: 2021WA16

References:
A	²⁵Na β^- decay (59.3 S)	B	²⁵Al ε decay (7.168 S)
C	⁶Li(²²Ne,t),(²²Ne,tγ)	D	⁹Be(¹⁸O,2nγ)
E	¹²C(¹⁴N,pγ),(¹⁵N,pnγ)	F	²¹Ne(⁶Li,d)
G	²²Ne(α,nγ)	H	²³Na(³He,p)
I	²⁴Mg(n,γ) E=THERMAL	J	²⁴Mg(n,γ) E=resonance
K	²⁴Mg(d,p),(pol d,p)	L	²⁴Mg(d,pγ)
M	²⁵Mg(γ,γ’)	N	²⁵Mg(E,E’)
O	²⁵Mg(p,p’γ)	P	²⁵Mg(n,n’γ)
Q	²⁵Mg(d,d’)	R	²⁵Mg(α,α)
S	Coulomb Excitation	T	²⁶Mg(γ,n),(γ,nγ’)
U	²⁶Mg(³He,α),(d,t),(p,d)	V	²⁷Al(μ^-,NU2NG)
W	²⁷Al(d,α),(d,αγ)	X	²⁸Si(μ^-,NUP2NG)

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 E F G I K L M N O P Q S T U V W X	5/2+	STABLE
585.042 22	A B C D E F G I K L O P Q S T U V W X	1/2+	3.38 ns 7	585.028 30	100	E2	0	5/2+
974.746 23	A B C D E F G I K L N O P Q S T U V W X	3/2+	11.2 ps 7	389.710 35 974.742 35	86.6 15 100.0 15	M1+E2 M1+E2	585.042 0	1/2+ 5/2+
1611.767 11	A B C E F G K L M N O P Q S T U V W X	7/2+	17 fs 3	1611.712 11	100	M1+E2	0	5/2+
1964.615 24	A B C E F G I K L N O P Q T U V W X	5/2+	0.69 ps 6	989.865 30 1379.543 30 1964.501 45	56.9 21 100.0 21 61.9 16	M1+E2 E2 M1+E2	974.746 585.042 0	3/2+ 1/2+ 5/2+
2563.40 4	C F G I K L N O P Q T U V W X	1/2+	11 fs +5-4	1588.65 9 1978.25 3 2563.6 5	21.3 14 100.0 13 4.1 12	[E2]	974.746 585.042 0	3/2+ 1/2+ 5/2+
2737.95 15	C E F G K L N O P Q U V W	7/2+	0.286 ps +24-25	773.3 1763.13 15 2737.8	8.4 7 100.0 12 6.9 12	M1+E2 E2 M1+E2	1964.615 974.746 0	5/2+ 3/2+ 5/2+
2801.46 4	A C E F G I K L N O Q T U W	3/2+	26 fs 3	836.86 5 2216.267 50 2801.30 5	100.0 25 89.9 20 47.5 15	M1(+E2) M1+E2 M1+E2	1964.615 585.042 0	5/2+ 1/2+ 5/2+
3404.59 20	C E F G K L N O P Q U W	9/2+	7.6 fs 4	1793.1 3 3403.0 4	100.0 12 23.5 18	M1+E2 E2	1611.767 0	7/2+ 5/2+
3413.41 4	C E F G I K L O U W	3/2-	7 fs 4	849.9 3 2438.53 3 2828.27 9 3413.25 12	0.23 7 19.7 6 100.0 13 16.3 9	[E1] E1(+M2) E1(+M2) E1(+M2)	2563.40 974.746 585.042 0	1/2+ 3/2+ 1/2+ 5/2+
3908.11 19	E F G I K L N O Q T U W	5/2+	6 fs 2	1106.6 1170.1 2933.18 18 3907.8	15.4 15 18.6 22 100 3 16.4 15	M1+E2 M1+E2	2801.46 2737.95 974.746 0	3/2+ 7/2+ 3/2+ 5/2+
3970.59 22	C E G K L O Q U W	7/2-	22 fs 5	1232.6 2006.0 3 2358.7 3970.3	2.5 13 26.0 20 2.5 13 100.0 13	[E1] E1(+M2) [E1] E1(+M2)	2737.95 1964.615 1611.767 0	7/2+ 5/2+ 7/2+ 5/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4059.2 4	E G K L N O Q U W	9/2+	50 fs 4	654.6 2447.3 4058.9 5	1.7 3 65.0 17 100.0 17	M1+E2 E2	3404.59 1611.767 0	9/2+ 7/2+ 5/2+
4276.43 5	C G I K L O U W	1/2-	< 4 fs	863.03 7 1712.94 4 3301.9 3 3691.17 13	6.6 4 15.4 13 100.0 25 11.3 4	E1 [E1] E1	3413.41 2563.40 974.746 585.042	3/2- 1/2+ 3/2+ 1/2+
4359.62 15	C F G H I K L O T U W	3/2+	< 7 fs	1796.2 3384.6 2 3774.3 2	5.5 18 76.4 18 100.0 18	M1+E2 M1+E2	2563.40 974.746 585.042	1/2+ 3/2+ 1/2+
4711.7 5	C E F G K L O W	9/2+	27 fs 3	1973.5 13 2746.9 5	6.4 11 100.0 11	E2	2737.95 1964.615	7/2+ 5/2+
4722.1 13	C E F G H K L O T U W	5/2+,3/2+	< 7 fs	2757.3 3747.1 4721.6	18 6 100 5 1.2 6	D+Q	1964.615 974.746 0	5/2+ 3/2+ 5/2+
5012.4 3	E F G K L O W	7/2+	< 7 fs	1041.8 1104.3 2210.8 3047.6 3 3400.4 5011.9	2.5 13 4.8 12 30.2 23 100.0 23 28.1 23 74.4 23	[E1] [E2] D D+Q	3970.59 3908.11 2801.46 1964.615 1611.767 0	7/2- 5/2+ 3/2+ 5/2+ 7/2+ 5/2+
5116.80 12	G I K L O U W	1/2-	< 7 fs	1702.6 7 2553.7 8 4141.70 12 4531.3	4.1 14 22 5 100 5 6.9 28	E1 E1	3413.41 2563.40 974.746 585.042	3/2- 1/2+ 3/2+ 1/2+
5251.45 25	E F G K L N O W	11/2+	15 fs 2	1192.4 6 1846.4 5 2513.4 3639.5 3	61 4 68 3 31 3 100.0 26	M1+E2 M1+E2 [E2] E2	4059.2 3404.59 2737.95 1611.767	9/2+ 9/2+ 7/2+ 7/2+
5460.6 3	E G K L O W	13/2+	1.9 ps 7	2055.9 2	100	E2	3404.59	9/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5474.38 19	G I K L O U	1/2+	< 7 fs	2061 2911? 4499 4888.82 18	6 3 4.7 16 49 3 100 11		3413.41 2563.40 974.746 585.042	3/2- 1/2+ 3/2+ 1/2+
5521.20 25	E G K L O W	5/2-	46 fs 6	1550.1 5 2107.7 2719.8 3 3556.1 6 3909.1 5520.6	53 3 12 4 35 5 53 7 100 10 73 3	D D D D+Q D+Q	3970.59 3413.41 2801.46 1964.615 1611.767 0	7/2- 3/2- 3/2+ 5/2+ 7/2+ 5/2+
5533.2 7	E G K L O W	11/2+	6 fs 2	2128.5 6 3921.1	100 5 70 7	M1+E2 [E2]	3404.59 1611.767	9/2+ 7/2+
5746.4 14	K L O W	7/2,9/2+	< 7 fs	1687.1 2341.7 3008.3 5745.7	3.5 24 4.4 13 8.2 24 100 13	D+Q	4059.2 3404.59 2737.95 0	9/2+ 9/2+ 7/2+ 5/2+
5748 2	E G K L O W	3/2+,5/2+	< 7 fs	1840 2946 3783 4773 5162 5747	4.4 22 11 5 31 7 67 11 9 5 100 33	D+Q	3908.11 2801.46 1964.615 974.746 585.042 0	5/2+ 3/2+ 5/2+ 3/2+ 1/2+ 5/2+
5792.94 23	E G K L O U W	(7/2-)	46 fs 9	1822.4 2 2388.1 2	51.9 16 100.0 15	(E2) (E1)	3970.59 3404.59	7/2- 9/2+
5860 2	G K L O U W	5/2+	< 7 fs	2455 3058 3122 4885 5859	18 14 62 30 29 6 25 6 100 12	M1+E2	3404.59 2801.46 2737.95 974.746 0	9/2+ 3/2+ 7/2+ 3/2+ 5/2+
5971.3 4	E G K L O W	9/2+	< 7 fs	1912.0 2 4359.1 5 5970.5	62 9 100 4 10.5 12	D M1+E2 E2	4059.2 1611.767 0	9/2+ 7/2+ 5/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
5977.1 8	G K L O	7/2+	< 7 fs	3238.7 10 4012.4 10 5976.3	52 3 100 3 13 5	D D+Q	2737.95 1964.615 0	7/2+ 5/2+ 5/2+
6041.1 4	E G K L O W	7/2+,11/2+	< 6 fs	1982 2636.4 3 3303 4429	6.3 13 100.0 24 16 4 12.7 24	D+Q	4059.2 3404.59 2737.95 1611.767	9/2+ 9/2+ 7/2+ 7/2+
6082 1	K L O U W	5/2+	< 7 fs	1722 2111 2668 3280 4117 4470 5107 6081	4.4 22 8.7 22 13.0 22 6.5 22 48 4 100 4 8.7 22 20.1 19	[E1] D D+Q D+Q	4359.62 3970.59 3413.41 2801.46 1964.615 1611.767 974.746 0	3/2+ 7/2- 3/2- 3/2+ 5/2+ 7/2+ 3/2+ 5/2+
6168 3	K L W	(3/2)	< 7 fs	1891 2754 3366 4203 5193 5582 6167	7.5 25 5.0 25 20 5 83 10 100 13 15 5 20 5		4276.43 3413.41 2801.46 1964.615 974.746 585.042 0	1/2- 3/2- 3/2+ 5/2+ 3/2+ 1/2+ 5/2+
6361 2	E K L W	3/2	< 7 fs	2001 4396 5386 5775 6360	2.9 14 10 3 17 5 14 3 100 10	D+Q	4359.62 1964.615 974.746 585.042 0	3/2+ 5/2+ 3/2+ 1/2+ 5/2+
6409 10	K
6434 2	E K L W	9/2+	< 7 fs	901 1183 1422 1722 2375 2526 3696 4822	26 8 11 4 60 15 35 8 48 11 44 11 30 8 100 22	D D+Q E2 D+Q	5533.2 5251.45 5012.4 4711.7 4059.2 3908.11 2737.95 1611.767	11/2+ 11/2+ 7/2+ 9/2+ 9/2+ 5/2+ 7/2+ 7/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6468 2	K L U W	3/2-	< 7 fs	1351 1746 2191 2560 3054 4503 5493 5882	39 11 14 4 21 4 61 14 11 4 100 18 50 11 61 14		5116.80 4722.1 4276.43 3908.11 3413.41 1964.615 974.746 585.042	1/2- 5/2+,3/2+ 1/2- 5/2+ 3/2- 5/2+ 3/2+ 1/2+
6570 1	L W	1/2+,3/2	< 7 fs	2293 2662 4006 4605 5595 5984	9 3 12 3 42 9 52 9 88 12 100 12		4276.43 3908.11 2563.40 1964.615 974.746 585.042	1/2- 5/2+ 1/2+ 5/2+ 3/2+ 1/2+
6678 1	K L W	5/2	10 fs +30-3	1157 1666 2770 3876 4713 6677	1.3 7 2.7 13 6.7 13 100 9 5.3 13 17 4	D+Q D+Q D(+Q) D(+Q)	5521.20 5012.4 3908.11 2801.46 1964.615 0	5/2- 7/2+ 5/2+ 3/2+ 5/2+ 5/2+
6777 3	K L U W	1/2+	< 7 fs	2500 3363 3975 4213 5802 6191 6776	2.5 13 53 10 8 5 23 5 48 10 100 18 18 5	[E2]	4276.43 3413.41 2801.46 2563.40 974.746 585.042 0	1/2- 3/2- 3/2+ 1/2+ 3/2+ 1/2+ 5/2+
6832 2	K L	(3/2-,5/2)	< 28 fs	2472 2861 3418 4030	56 11 61 11 61 17 100 17	D(+Q)	4359.62 3970.59 3413.41 2801.46	3/2+ 7/2- 3/2- 3/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6840 2	E L U W	5/2	< 7 fs	4102 5228 5865 6839	100 10 41 10 63 15 33 10	D(+Q) D D	2737.95 1611.767 974.746 0	7/2+ 7/2+ 3/2+ 5/2+
6862.2 12	E K		< 9 fs	5250	100		1611.767	7/2+
6885 3	K L W	7/2,9/2	97 fs 42	3480 5273	19 5 100 5	D+Q D(+Q)	3404.59 1611.767	9/2+ 7/2+
6914 2	E K L U W	5/2-		3006 4112 4176 4949 5302 5939 6913	6.3 21 31 6 23 4 17 4 13 4 19 4 100 15		3908.11 2801.46 2737.95 1964.615 1611.767 974.746 0	5/2+ 3/2+ 7/2+ 5/2+ 7/2+ 3/2+ 5/2+
6958 2	E K L U W	5/2-	< 7 fs	3544 4156 4220 5982 6957	4.9 16 13.1 16 23 3 23 3 100 10		3413.41 2801.46 2737.95 974.746 0	3/2- 3/2+ 7/2+ 3/2+ 5/2+
7042.7 2	I K L N W	5/2	< 21 fs	3072 3629 4304 5077.53 19 5430 6067	10 3 23 5 15 3 100 15 63 13 40 8	D+Q D	3970.59 3413.41 2737.95 1964.615 1611.767 974.746	7/2- 3/2- 7/2+ 5/2+ 7/2+ 3/2+
7088 4	K L U W	(5/2,3/2)+	< 7 fs	6112 7087	14 5 100 5	D+Q	974.746 0	3/2+ 5/2+
7181 2	E K L W	(3/2,7/2)	< 18 fs	5216 7180	100 5 25 5	D+Q	1964.615 0	5/2+ 5/2+
7185 2	E L		< 14 fs	4447 5573	8.7 22 100.0 22		2737.95 1611.767	7/2+ 7/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7228 3	E K L U W	(3/2,5/2)+	< 7 fs	6252 7227	22 5 100 5	D+Q D+Q	974.746 0	3/2+ 5/2+
7265.52 4	J	1/2+
7285 2	C E K L U W	(7/2)-	< 7 fs	5320 5673 7284	64 7 18 4 100 11	D+Q D	1964.615 1611.767 0	5/2+ 7/2+ 5/2+
7375.15 4	J K L W	3/2+	1.9 eV 2	7374	100	D	0	5/2+
7411.22 4	J K W	3/2-	6.1 keV 12
7493 2	E K L W	11/2(+)	21 fs 8	1522 1960 2032 3434 4088 5880	44 12 32 9 53 12 100 18 29 9 35 9	D(+Q) D+Q D+Q	5971.3 5533.2 5460.6 4059.2 3404.59 1611.767	9/2+ 11/2+ 13/2+ 9/2+ 9/2+ 7/2+
7500.24 4	J	(1/2-)	3 eV
7505 3	E L	5/2	< 10 fs	4767 6529 7504	100 12 73 12 31 8	D+Q D+Q	2737.95 974.746 0	7/2+ 3/2+ 5/2+
7524 2	E K L W	(7/2+,5/2)	< 10 fs	3616 4786 6548 7523	44 7 100 15 17 7 83 12	D+Q D+Q D+Q	3908.11 2737.95 974.746 0	5/2+ 7/2+ 3/2+ 5/2+
7551 1	E L W	(13/2)+	< 21 fs	2018 2090 2299 4146	39 10 19 6 100 14 53 14	D+Q	5533.2 5460.6 5251.45 3404.59	11/2+ 13/2+ 11/2+ 9/2+
7577.47 4	J K L W	(5/2+)	31 eV 5	5965.0	100	Q(+D)	1611.767	7/2+
7587.36 4	J K	1/2-	≈ 79 keV
7633 5	K L W	3/2,5/2,7/2	< 49 fs	6020 7632	100 13 61 13	D+Q	1611.767 0	7/2+ 5/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7652 2	E K L W	9/2	< 21 fs	1681 1906 2119 2639 3593 4914 6039	15 4 17.4 22 6.5 22 22 4 26 7 100 13 30 7	D+Q D+Q D	5971.3 5746.4 5533.2 5012.4 4059.2 2737.95 1611.767	9/2+ 7/2,9/2+ 11/2+ 7/2+ 9/2+ 7/2+ 7/2+
7685 3	E			3626	100		4059.2	9/2+
7744.07 4	J K	3/2-	31 keV 5
7786.85 4	E J K T U W	5/2+	20.4 eV 20	4382 6174	3 2 100 2		3404.59 1611.767	9/2+ 7/2+
7801 2	L	9/2	< 12 fs	2008 2268 2549 5063 6188	6 3 2.6 13 3.8 13 15 4 100 9	D+Q D(+Q)	5792.94 5533.2 5251.45 2737.95 1611.767	(7/2-) 11/2+ 11/2+ 7/2+ 7/2+
7808.85 4	J	3/2-	0.56 keV 1
7838 2	L U W	7/2	< 28 fs	2092 4433 5099 7837	4.5 15 34 6 10 3 100 10	D D	5746.4 3404.59 2737.95 0	7/2,9/2+ 9/2+ 7/2+ 5/2+
7859.47 7	J N T U W	3/2+	13 eV 4
7866 2	E L	7/2+,11/2+	< 12 fs	2333 2614 2853 3806 4461 5128	27 10 33 10 33 10 67 13 73 13 100 17	D+Q D+Q	5533.2 5251.45 5012.4 4059.2 3404.59 2737.95	11/2+ 11/2+ 7/2+ 9/2+ 9/2+ 7/2+
7946.8 6	J W	1/2-	0.9 keV 3
7961 2	L W	7/2(+)	< 14 fs	3239 3249 4556 5996 6348 7960	7 3 12 5 7 3 13 5 28 7 100 15	D+Q D D+Q	4722.1 4711.7 3404.59 1964.615 1611.767 0	5/2+,3/2+ 9/2+ 9/2+ 5/2+ 7/2+ 5/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
7962.6 7	J K	1/2+	21 keV 4
8012 3	E L W	(9/2,13/2+)	37 fs 4	1971 2760 3300	65 15 85 15 100 20	D+Q	6041.1 5251.45 4711.7	7/2+,11/2+ 11/2+ 9/2+
8076 2	E L W	5/2,7/2,9/2	< 14 fs	6463	100	D+Q	1611.767	7/2+
8119 3	K L W	7/2(+)	< 10 fs	4211 8118	15 6 100 6	D+Q	3908.11 0	5/2+ 5/2+
8140.8 8	J K	3/2+	13 keV 7
8244.3 10	J W
8267 2	E K L W	(7/2+)	< 10 fs	4862 6302 6654 8266	35 10 20 8 100 20 49 16	D(+Q) D+Q	3404.59 1964.615 1611.767 0	9/2+ 5/2+ 7/2+ 5/2+
8311.2 10	J W	5/2+
8316.5 10	J
8324.4 10	J K	1/2+	14 keV 4
8351.3 11	J K W
8362.5 11	J K	1/2+	18 keV 6
8400	W
8447 6	W
8532 2	E K L	(7/2,11/2)	< 10 fs	3820 4472 5127	31 12 18 8 100 14	D+Q D+Q	4711.7 4059.2 3404.59	9/2+ 9/2+ 9/2+
8548 3	E L	(5/2,7/2,9/2)	< 17 fs	5143 6935	25 13 100 13	D+Q	3404.59 1611.767	9/2+ 7/2+
8551	L	11/2	< 5 fs	2510 3018 3299 3839 4491	28 6 30 6 26 6 30 6 100 17	D+Q D+Q D	6041.1 5533.2 5251.45 4711.7 4059.2	7/2+,11/2+ 11/2+ 11/2+ 9/2+ 9/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8552 3	K W	(1/2)	8 keV 4
8558.7 13	J	5/2+
8569.5 13	J	3/2-
8579.5 13	J K	3/2+	12 keV 5
8596.6 13	J K
8656 2	L W	7/2	< 10 fs	3944 5251 5917 6690 7043 8654	35 8 58 12 100 23 46 12 54 12 92 23	D+Q D(+Q)	4711.7 3404.59 2737.95 1964.615 1611.767 0	9/2+ 9/2+ 7/2+ 5/2+ 7/2+ 5/2+
8720 15	W
8791 7	U	1/2+
8811 2	L	9/2,11/2	< 8 fs	2770 3278 4099	97 14 100 14 89 23	D+Q D+Q	6041.1 5533.2 4711.7	7/2+,11/2+ 11/2+ 9/2+
8834.4 13	E J K U W	1/2+	50 keV 10
8869.0 16	J	3/2-
8888 3	L		< 17 fs	4828	100	D+Q	4059.2	9/2+
8893.9 16	J K	1/2-	32 keV 8
8896 1	E L		17 fs 8	3103 4836	100 3 4 3	D+Q	5792.94 4059.2	(7/2-) 9/2+
8970.7 17	J K W	5/2+	16 keV 4
8999.5 15	E W		< 9 fs	3748 4287	75 26 100 26		5251.45 4711.7	11/2+ 9/2+
9013.9 18	J K		< 10 keV
9014 3	L	7/2,9/2,11/2	< 5 fs	3762 4302 4954	63 13 100 20 88 18	D(+Q)	5251.45 4711.7 4059.2	11/2+ 9/2+ 9/2+
9071.7 7	J K
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9153 4	K	(3/2)
9325.7 9	J K
9410 3	L		12 fs 8	3369 3617 4158	48 9 37 9 100 15	D(+Q) D	6041.1 5792.94 5251.45	7/2+,11/2+ (7/2-) 11/2+
9502.0 15	J K
9651 2	E L		< 5 fs	4190	100		5460.6	13/2+
9685 2	E L	(11/2,7/2)	< 5 fs	4151 6280	59 11 100 11	D+Q	5533.2 3404.59	11/2+ 9/2+
9830 10	K L			6424	100		3404.59	9/2+
9948 2	E K L	(15/2)+		2397 4487 4696	64 18 100 27 18 9	D+Q D	7551 5460.6 5251.45	(13/2)+ 13/2+ 11/2+
10038.7 15	J K
10050 20	K
10137 4	E L			4603	100		5533.2	11/2+
10252.5 9	J K
10270 40	K
10360 30	K N
10520 40	K
10618 8	K U	(3/2,5/2)+
10653 2	E K	(15/2+)		3102 5119	6 3 100 3		7551 5533.2	(13/2)+ 11/2+
10730 40	K
10860 40	K
10996 10	L			5535	100		5460.6	13/2+
11004 3	E			5543	100		5460.6	13/2+
11045.4 18	J K
11200 10	K L			5739	100		5460.6	13/2+
11361 3	E K			5567	100		5792.94	(7/2-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
11388.9 14	J
11410 3	E L			3859 5949	10 3 100 3		7551 5460.6	(13/2)+ 13/2+
11460 3	E			5999 6209			5460.6 5251.45	13/2+ 11/2+
11486 6	E K			3474 6025	100 <61		8012 5460.6	(9/2,13/2+) 13/2+
11590 30	K
11725 5	U	(1/2,3/2)-
11747 10	U
11775 10	U
11998.7 18	J
12810	T
12898 10	T U	(3/2,1/2)-
13040	T
13143 4	E			7349	100		5792.94	(7/2-)
13332 10	E T			7870	100		5460.6	13/2+
13440	T
13670	T
13830	T
14490	T
15100	T
15590	T
18.20E3 23	R
18.55E3 20	R
19.27E3 18	R
19.85E3 18	R
20.34E3 18	R
20.69E3 18	R
21.12E3 15	R
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
22.02E3 13	R
22.49E3 13	R

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+	STABLE
1611.767 11	7/2+	17 fs 3	1611.712 11	100	M1+E2	0	5/2+
3404.59 20	9/2+	7.6 fs 4	1793.1 3 3403.0 4	100.0 12 23.5 18	M1+E2 E2	1611.767 0	7/2+ 5/2+
5533.2 7	11/2+	6 fs 2	2128.5 6 3921.1	100 5 70 7	M1+E2 [E2]	3404.59 1611.767	9/2+ 7/2+
7551 1	(13/2)+	< 21 fs	2018 2090 2299 4146	39 10 19 6 100 14 53 14	D+Q	5533.2 5460.6 5251.45 3404.59	11/2+ 13/2+ 11/2+ 9/2+
10653 2	(15/2+)		3102 5119	6 3 100 3		7551 5533.2	(13/2)+ 11/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - 1/2[211]
585.042 22	1/2+	3.38 ns 7
974.746 23	3/2+	11.2 ps 7	389.710 35 974.742 35	86.6 15 100.0 15	M1+E2 M1+E2	585.042 0	1/2+ 5/2+
1964.615 24	5/2+	0.69 ps 6	989.865 30 1379.543 30 1964.501 45	56.9 21 100.0 21 61.9 16	M1+E2 E2 M1+E2	974.746 585.042 0	3/2+ 1/2+ 5/2+
2737.95 15	7/2+	0.286 ps +24-25	773.3 1763.13 15 2737.8	8.4 7 100.0 12 6.9 12	M1+E2 E2 M1+E2	1964.615 974.746 0	5/2+ 3/2+ 5/2+
4711.7 5	9/2+	27 fs 3	1973.5 13 2746.9 5	6.4 11 100.0 11	E2	2737.95 1964.615	7/2+ 5/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - 1/2[330]
3413.41 4	3/2-	7 fs 4
3970.59 22	7/2-	22 fs 5	1232.6 2006.0 3 2358.7 3970.3	2.5 13 26.0 20 2.5 13 100.0 13	[E1] E1(+M2) [E1] E1(+M2)	2737.95 1964.615 1611.767 0	7/2+ 5/2+ 7/2+ 5/2+
5521.20 25	5/2-	46 fs 6	1550.1 5 2107.7 2719.8 3 3556.1 6 3909.1 5520.6	53 3 12 4 35 5 53 7 100 10 73 3	D D D D+Q D+Q	3970.59 3413.41 2801.46 1964.615 1611.767 0	7/2- 3/2- 3/2+ 5/2+ 7/2+ 5/2+

E(level)	J^π(level)	T_1/2(level)	Comments
0	5/2+	STABLE	Q=+0.199 2, μ=-0.8533 3 δ<r²>(²⁶Mg,²⁵Mg)=-0.030 fm² 4 (stat) 11 (syst) (2012Yo01). E(level): δ<r²>(²⁶Mg,²⁵Mg)=-0.030 fm² 4 (stat) 11 (syst) (2012Yo01). 5/2[202].
585.042	1/2+	3.38 ns 7	E(level): 1/2[211].
974.746	3/2+	11.2 ps 7	E(level): 1/2[211].
1611.767	7/2+	17 fs 3	E(level): From (α,nγ). 5/2[202]. J^π(level): From vector analyzing power (pol d,p). T_1/2(level): From (e,e’).
1964.615	5/2+	0.69 ps 6	E(level): 1/2[211]. J^π(level): From vector analyzing power (pol d,p).
2563.40	1/2+	11 fs +5-4	J^π(level): From vector analyzing power (pol d,p).
2737.95	7/2+	0.286 ps +24-25	E(level): 1/2[211].
2801.46	3/2+	26 fs 3	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
3404.59	9/2+	7.6 fs 4	E(level): From (α,nγ). 5/2[202]. T_1/2(level): From (e,e’).
3413.41	3/2-	7 fs 4	E(level): 1/2[330].
3908.11	5/2+	6 fs 2	E(level): From (n,n’γ). T_1/2(level): From (¹⁴N,pγ).
3970.59	7/2-	22 fs 5	E(level): 1/2[330].
4276.43	1/2-	< 4 fs	E(level): Level not shown in the level scheme in 1988He15 (¹⁴N,pγ),(¹⁵N,pnγ), however, Nilsson quantum numbers 1/2[300]. are given as a possible assignment to rotational band for J^π=1/2- in their Table IV. J^π(level): From vector analyzing power (pol d,p). T_1/2(level): From (n,γ) E=Thermal.
4711.7	9/2+	27 fs 3	XREF: K(4701). E(level): 1/2[211].
5116.80	1/2-	< 7 fs	XREF: K(5511). J^π(level): From vector analyzing power (pol d,p).
5251.45	11/2+	15 fs 2	E(level): From (n,n’γ). T_1/2(level): From (¹⁴N,pγ).
5460.6	13/2+	1.9 ps 7	XREF: W(5465).
5474.38	1/2+	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
5521.20	5/2-	46 fs 6	E(level): From (n,n’γ). 1/2[330]. T_1/2(level): From (¹⁴N,pγ).
5533.2	11/2+	6 fs 2	E(level): From (n,n’γ). 5/2[202]. T_1/2(level): From (¹⁴N,pγ).
5746.4	7/2,9/2+	< 7 fs	E(level): From (d,pγ). J^π(level): Selection/rejection of parity based on the RUL for hypothetical M2 transition rate/s (d,pγ) (1991He05). T_1/2(level): From (d,pγ).
5748	3/2+,5/2+	< 7 fs	E(level): From (n,γ) E=Thermal. From (d,pγ). From (n,n’γ). J^π(level): Selection/rejection of parity based on the RUL for hypothetical M2 transition rate/s (d,pγ) (1991He05). T_1/2(level): From (¹⁴N,pγ).
5860	5/2+	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
6041.1	7/2+,11/2+	< 6 fs	XREF: E(6033.4). E(level): From (n,n’γ). T_1/2(level): From (¹⁴N,pγ).
6082	5/2+	< 7 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
E(level)	J^π(level)	T_1/2(level)	Comments
6168	(3/2)	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
6361	3/2	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
6434	9/2+	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
6468	3/2-	< 7 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
6570	1/2+,3/2	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
6678	5/2	10 fs +30-3	E(level): From (n,γ) E=Thermal. From (d,pγ).
6777	1/2+	< 7 fs	XREF: U(6790)W(6766). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
6832	(3/2-,5/2)	< 28 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
6840	5/2	< 7 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
6862.2		< 9 fs	E(level): From (n,γ) E=Thermal. From (¹⁴N,pγ). T_1/2(level): From (¹⁴N,pγ).
6885	7/2,9/2	97 fs 42	XREF: W(6876). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
6914	5/2-		XREF: U(6919). E(level): From (n,γ) E=Thermal. From (d,pγ).
6958	5/2-	< 7 fs	XREF: K(6944). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7042.7	5/2	< 21 fs	XREF: K(7026)L(7038). E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
7088	(5/2,3/2)+	< 7 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7181	(3/2,7/2)	< 18 fs	XREF: W(7178). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7185		< 14 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7228	(3/2,5/2)+	< 7 fs	XREF: K(7215). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7285	(7/2)-	< 7 fs	XREF: K(7271). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7375.15	3/2+	1.9 eV 2	XREF: K(7364)W(7370).
7493	11/2(+)	21 fs 8	E(level): From (¹⁴N,pγ). From (p,p’γ). T_1/2(level): From (d,pγ).
7505	5/2	< 10 fs	XREF: E(7501). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7524	(7/2+,5/2)	< 10 fs	XREF: K(7513). E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7551	(13/2)+	< 21 fs	E(level): From (d,pγ). 5/2[202]. T_1/2(level): From (d,pγ).
7577.47	(5/2+)	31 eV 5	XREF: K(7563)W(7571).
E(level)	J^π(level)	T_1/2(level)	Comments
7633	3/2,5/2,7/2	< 49 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7652	9/2	< 21 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
7801	9/2	< 12 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7838	7/2	< 28 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
7859.47	3/2+	13 eV 4	T=3/2 XREF: t(7863.4).
7866	7/2+,11/2+	< 12 fs	E(level): From (d,pγ). J^π(level): Selection/rejection of parity based on the RUL for hypothetical M2 transition rate/s (d,pγ) (1991He05). T_1/2(level): From (d,pγ).
7961	7/2(+)	< 14 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
8012	(9/2,13/2+)	37 fs 4	E(level): From (n,γ) E=Thermal. From (d,pγ). From (n,n’γ). T_1/2(level): From (¹⁴N,pγ).
8076	5/2,7/2,9/2	< 14 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
8119	7/2(+)	< 10 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
8267	(7/2+)	< 10 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
8324.4	1/2+	14 keV 4	Γ from (d,p).
8351.3			Γ=1.34 6/(2J+1) keV. E(level): Γ=1.34 6/(2J+1) keV.
8362.5	1/2+	18 keV 6	Γ from (d,p).
8532	(7/2,11/2)	< 10 fs	XREF: K(8510). E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
8548	(5/2,7/2,9/2)	< 17 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
8551	11/2	< 5 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
8552	(1/2)	8 keV 4	Γ from (d,p).
8579.5	3/2+	12 keV 5	T=3/2 XREF: K(8573).
8596.6			XREF: K(8581).
8656	7/2	< 10 fs	E(level): From (d,pγ). T_1/2(level): From (d,pγ).
8811	9/2,11/2	< 8 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
8834.4	1/2+	50 keV 10	T=3/2 Γ from (d,p).
8888		< 17 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
8893.9	1/2-	32 keV 8	XREF: K(8899).
E(level)	J^π(level)	T_1/2(level)	Comments
8896		17 fs 8	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
8970.7	5/2+	16 keV 4	Γ from (d,p).
8999.5		< 9 fs	E(level): From (n,γ) E=Thermal. From (¹⁴N,pγ). T_1/2(level): From (¹⁴N,pγ).
9013.9		< 10 keV	Γ from (d,p) . Γ=5.2 8/(2J+1) keV. E(level): Γ from (d,p) . Γ=5.2 8/(2J+1) keV.
9014	7/2,9/2,11/2	< 5 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
9071.7			XREF: K(9050).
9325.7			XREF: K(9335).
9410		12 fs 8	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
9651		< 5 fs	E(level): From (p,p’γ). T_1/2(level): From (d,pγ).
9685	(11/2,7/2)	< 5 fs	E(level): From (¹⁴N,pγ). From (p,p’γ). T_1/2(level): From (d,pγ).
9948	(15/2)+		E(level): From (¹⁴N,pγ).
10137			E(level): From (¹⁴N,pγ).
10252.5			XREF: K(10200).
10270			E(level): From (α,nγ).
10360			XREF: n(10430). E(level): From (α,nγ).
10520			E(level): From (α,nγ).
10653	(15/2+)		E(level): 5/2[202].
11045.4			XREF: K(11070).
11200			XREF: K(11180).
11361			XREF: K(11350). E(level): From (¹⁴N,pγ).
13332			E(level): From (¹⁴N,pγ).

E(level)	E(gamma)	Comments
974.746	389.710	I(γ): weighted average of 84.8 15 from ²⁵Na β^- decay, 88 12 from ²⁵Al ε decay, 85 6 from (α,nγ), 88 4 from (n,γ) E=thermal, 96 10 from (d,pγ), 96 4 from (p,p’γ), 96 10 from (μ^-,ν2nγ), and 73 20 from (μ^-,νp2nγ)
974.746	974.742	I(γ): From ²⁵Na β- decay
1611.767	1611.712	E(γ): weighted average of 1611.716 11 from ²⁵Na β^- decay and 1611.708 11 from ²⁵Al ε decay
1964.615	989.865	I(γ): weighted average of 50 6 from (¹⁴N,pγ), 56.5 22 from (α,nγ), 50 10 from (n,γ) E=thermal, 68 7 from (d,pγ), 57.5 21 from (p,p’γ), and 54 29 from (μ^-,ν2nγ). Others: 100 10 from (μ^-,νp2nγ), 71.9 14 and 58 12 from 1982Al27 and 1971Al10, respectively, in ²⁵Na β^- decay.
	1379.543	I(γ): From (p,p’γ) M(γ): from Q in (¹⁴N,pγ) and RUL
	1964.501	I(γ): weighted average of 63.4 10 from ²⁵Na β^- decay, 50 6 from (¹⁴N,pγ), 61 5 from (α,nγ), 60 20 from (n,γ) E=thermal, 76 7 from (d,pγ), 55.3 21 from (p,p’γ), and 70 12 from (μ^-,ν2nγ). Other: 70 70 from (μ^-,νp2nγ).
2563.40	1588.65	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 19.8 13 from (α,nγ), 26.2 29 from (n,γ) E=thermal, 18 6 from (d,pγ), and 23.5 25 from (p,p’γ)
	1978.25	E(γ): From (n,γ) E=Thermal. From (d,pγ). From (d,pγ) I(γ): From (α,nγ)
	2563.6	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 3.7 13 from (α,nγ), 5.0 14 from (n,γ) E=thermal, and 3.7 12 from (d,pγ)
2737.95	773.3	I(γ): weighted average of 8.1 7 from (α,nγ), 11 4 from (d,pγ), 8.1 12 from (p,p’γ), and 12.1 24 from (d,α)
	1763.13	E(γ): From (p,p’γ). From (d,pγ) I(γ): From (α,nγ)
	2737.8	I(γ): From (p,p’γ)
2801.46	836.86	E(γ): weighted average of 836.841 50 from ²⁵Na β^- decay and 836.95 10 from (n,γ) E=thermal I(γ): strongenst branch in ²⁵Na β^- decay and in (d,pγ): 100 9. Others: 97.6 25 (α,nγ), 97 5 (p,p’γ), 90 10 (d,α), and 84 12 (n,γ) E=thermal. From ²⁵Na β- decay
	2216.267	I(γ): other: 81 9 (d,pγ). In all other datasets, it is the strongest branch: 100 5 (α,nγ), 100 5 (p,p’γ), 100 16 (n,γ) E=thermal, and 100 15 (d,α).. From ²⁵Na β- decay
	2801.30	E(γ): weighted average of 2801.312 35 from ²⁵Na β^- decay, 2800.9 2 from (α,nγ), and 2801.50 25 from (n,γ) E=thermal I(γ): others: 46 5 from (α,nγ), and 59.0 26 from (p,p’γ), 52 16 from (n,γ) E=thermal, 51 16 from (d,pγ), and 54 15 from (d,α).. From ²⁵Na β- decay
3404.59	1793.1	E(γ): From (α,nγ) I(γ): From (p,p’γ)
3404.59	3403.0	E(γ): From (n,n’γ) I(γ): weighted average of 33 4 from (¹⁴N,pγ), 26.6 25 from (α,nγ), 21 6 from (d,pγ), and 22.0 12 from (p,p’γ) M(γ): from Q in (¹⁴N,pγ) and RUL
3413.41	849.9	E(γ): From (n,γ) E=Thermal. From (¹⁴N,pγ) I(γ): From (n,γ) E=Thermal
	2438.53	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 20.0 7 from (n,γ) E=thermal and 18.7 13 from (p,p’γ). Others: 21 7 from (α,nγ) and 25 8 from (d,pγ). M(γ): E1(+M2) from ΔJ^π based on d(+Q) (α,nγ).. From level scheme. D+Q or d or Q in (α,nγ) and/or (p,p’γ); RUL allows both the electric or magnetic multipolarity.
	2828.27	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): From (p,p’γ) M(γ): E1 from ΔJ^π based on d(+Q) (α,nγ).. From level scheme. D+Q or d or Q in (α,nγ) and/or (p,p’γ); RUL allows both the electric or magnetic multipolarity.
	3413.25	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 16.7 7 from (n,γ) E=thermal, and 14.7 13 from (p,p’γ). Others: 22 8 from (d,pγ), 10.5 26 from (α,nγ). M(γ): E1(+M2) from ΔJ^π based on d(+Q) (α,nγ).. From level scheme. D+Q or d or Q in (α,nγ) and/or (p,p’γ); RUL allows both the electric or magnetic multipolarity.
3908.11	1106.6	I(γ): weighted average of 17 4 from (α,nγ) and 15.2 15 from (p,p’γ)
	1170.1	I(γ): weighted average of 14.3 29 from (α,nγ) and 19.7 15 from (p,p’γ)
	2933.18	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): From (p,p’γ) M(γ): M1⁺E2 from ΔJ^π based on D+Q (α,nγ).
	3907.8	I(γ): weighted average of 11 6 from (α,nγ) and 16.7 15 from (p,p’γ) M(γ): M1⁺E2 from ΔJ^π based on D+Q (α,nγ).
E(level)	E(gamma)	Comments
3970.59	2006.0	E(γ): From (α,nγ) I(γ): weighted average of 29.9 26 from (α,nγ), and 25.0 13 from (p,p’γ). Other: 18.5 13 from (d,pγ).
3970.59	3970.3	I(γ): From (p,p’γ)
4059.2	654.6	I(γ): From (p,p’γ)
	2447.3	I(γ): (p,p’γ) reports all γ transitions. Others: 82 7 from (¹⁴N,pγ), 85 8 from (α,nγ), 79 9 from (d,pγ).. From (p,p’γ)
	4058.9	E(γ): From (α,nγ) I(γ): others: 100 7 from (¹⁴N,pγ), 100 8 from (α,nγ), 100 11 from (d,pγ).. From (p,p’γ)
4276.43	863.03	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 6.8 4 from (n,γ) E=thermal, 5.3 26 from (d,pγ), and 5.1 13 from (p,p’γ). Other: 4.0 27 from (α,nγ)
	1712.94	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 16.0 27 from (α,nγ), 18.7 26 from (n,γ) E=thermal, 14.5 13 from (d,pγ), and 15.2 13 from (p,p’γ)
	3301.9	E(γ): unweighted average of 3302.2 2 from (α,nγ) and 3301.52 10 from (n,γ) E=thermal I(γ): From (p,p’γ)
	3691.17	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): others: 13 4 from (α,nγ), 12 4 from (d,pγ), 6.3 13 from (p,p’γ),. From (n,γ) E=Thermal
4359.62	1796.2	I(γ): others: 2.0 10 from (α,nγ), 1.8 5 from (d,pγ).. From (p,p’γ)
	3384.6	E(γ): From (α,nγ) I(γ): others: 100 8 from (α,nγ), 90 4 from (d,pγ).. From (p,p’γ)
	3774.3	E(γ): From (α,nγ) I(γ): others: 98 8 from (α,nγ), 74 7 from (d,pγ). From (p,p’γ)
4711.7	1973.5	I(γ): From (p,p’γ)
4711.7	2746.9	E(γ): From (α,nγ) I(γ): From (p,p’γ)
5012.4	1104.3	E(γ): From (d,pγ) I(γ): From (α,nγ)
	2210.8	I(γ): others: 41 5 from (α,nγ), 20 5 from (d,pγ).. From (p,p’γ)
	3047.6	E(γ): From (α,nγ) I(γ): From (p,p’γ)
	3400.4	I(γ): weighted average of 33 10 from (α,nγ), 28 5 from (d,pγ), and 27.9 23 from (p,p’γ)
	5011.9	I(γ): others: 57 10 (α,nγ), 95 10 (d,pγ). Unweighted average of all: 76 11.. From (p,p’γ)
5116.80	1702.6	E(γ): From (n,γ) E=Thermal. From (d,pγ). From (d,pγ) I(γ): other: 21 5 [from (n,γ) - outlier, perhaps due to a misprint in the original publication.]. From (α,nγ)
	2553.7	E(γ): From (n,γ) E=Thermal. From (d,pγ) I(γ): weighted average of 26 4 from (α,nγ) and 16 5 from (n,γ) E=thermal
	4141.70	E(γ): From (n,γ) E=Thermal. From (¹⁴N,pγ) I(γ): From (n,γ) E=Thermal
	4531.3	E(γ): From (d,pγ) I(γ): From (α,nγ)
5251.45	1192.4	E(γ): From (α,nγ) I(γ): weighted average of 46 8 from (¹⁴N,pγ), 43 14 from (α,nγ), and 63.2 26 from (p,p’γ). Other: 68 24 from (d,pγ).
	1846.4	E(γ): From (α,nγ) I(γ): weighted average of 52 14 from (α,nγ), and 68.4 26 from (p,p’γ). Others: 100 12 from (d,pγ), 40 6 from (¹⁴N,pγ),
	2513.4	I(γ): weighted average of 25 8 from (¹⁴N,pγ), 32 14 from (α,nγ), and 31.6 26 from (p,p’γ). Other: 38 12 from (d,pγ).
	3639.5	E(γ): From (α,nγ) I(γ): From (p,p’γ)
E(level)	E(gamma)	Comments
5460.6	2055.9	E(γ): From (α,nγ)
5474.38	2061	I(γ): weighted average of 4.7 31 from (α,nγ) and 7.8 31 from (d,pγ)
	4499	I(γ): weighted average of 51.6 31 from (α,nγ) and 44 5 from (d,pγ)
	4888.82	E(γ): From (n,γ) E=Thermal. From (d,pγ). From (d,pγ) I(γ): From (α,nγ)
5521.20	1550.1	E(γ): From (α,nγ) I(γ): From (p,p’γ)
	2107.7	I(γ): weighted average of 10.3 33 [from 10.0 33 (d,pγ) w.r. to Iγ(3909)=100] and 20 7 from (p,p’γ).
	2719.8	E(γ): From (α,nγ) I(γ): weighted average of 63 13 from (α,nγ), and 33.3 33 from (p,p’γ). Other: 37 13 from (d,pγ).
	3556.1	E(γ): From (α,nγ) I(γ): others: 67 17 from (α,nγ), 43 13 from (d,pγ).. From (p,p’γ)
	3909.1	I(γ): others: 100 17 from (α,nγ), 97 10 from (d,pγ).. From (p,p’γ)
	5520.6	I(γ): others: 100 10 from (d,pγ), 47 17 from (α,nγ).. From (p,p’γ)
5533.2	2128.5	E(γ): From (α,nγ) I(γ): From (p,p’γ)
5533.2	3921.1	E(γ): From (d,pγ) I(γ): weighted average of 61 7 from (α,nγ), and 75 5 from (p,p’γ). Other: 41 6 from (¹⁴N,pγ).. From (α,nγ)
5746.4	2341.7	I(γ): weighted average of 5.9 24 from (d,pγ) and 3.9 13 from (p,p’γ)
5746.4	5745.7	I(γ): From (p,p’γ)
5792.94	1822.4	E(γ): From (α,nγ) I(γ): weighted average of 51.5 30 from (α,nγ), 64 7 from (d,pγ), and 51.5 15 from (p,p’γ). Other: 35 6 from (¹⁴N,pγ),
5792.94	2388.1	E(γ): From (α,nγ) I(γ): From (p,p’γ)
5860	2455	I(γ): From (p,p’γ)
5860	3058	E(γ): From (d,pγ) I(γ): From (α,nγ)
5971.3	1912.0	E(γ): From (α,nγ) I(γ): weighted average of 46 6 from (α,nγ), 67 7 from (d,pγ), and 74 4 from (p,p’γ). Other: 37 8 from (¹⁴N,pγ),
	4359.1	E(γ): From (α,nγ) I(γ): From (p,p’γ)
	5970.5	I(γ): weighted average of 9.5 32 from (α,nγ), 5.2 35 from (d,pγ), and 11.1 11 from (p,p’γ)
5977.1	3238.7	E(γ): From (α,nγ) I(γ): weighted average of 61 10 from (α,nγ), 48 5 from (d,pγ), and 53.9 31 from (p,p’γ)
5977.1	4012.4	E(γ): From (α,nγ) I(γ): From (p,p’γ)
6041.1	1982	I(γ): weighted average of 6.7 13 from (d,pγ) and 4.8 24 from (p,p’γ). Other: 33 11 from (α,nγ)
	2636.4	E(γ): From (α,nγ) I(γ): From (p,p’γ)
	4429	I(γ): weighted average of 10.7 27 from (d,pγ) and 14.3 24 from (p,p’γ)
E(level)	E(gamma)	Comments
6082	2668	I(γ): other: 23 4 from (p,p’γ) M(γ): From (d,pγ)
	4117	I(γ): weighted average of 54 9 from (d,pγ) and 47 4 from (p,p’γ)
	4470	I(γ): From (p,p’γ) M(γ): From (d,pγ)
	6081	I(γ): weighted average of 21.7 22 from (d,pγ) and 18.9 19 from (p,p’γ) M(γ): From (d,pγ)
6361	6360	E(γ): From (¹⁴N,pγ),(¹⁵N,pnγ) M(γ): From (d,pγ)
6434	901	M(γ): From (d,pγ)
	1422	I(γ): weighted average of 51 17 from (¹⁴N,pγ) and 67 15 from (d,pγ)
	1722	I(γ): weighted average of 42 17 from (¹⁴N,pγ) and 33 8 from (d,pγ)
	2375	I(γ): other: 17 10 from (¹⁴N,pγ) M(γ): From (d,pγ)
	2526	I(γ): weighted average of 34 10 from (¹⁴N,pγ) and 56 11 from (d,pγ)
	4822	I(γ): From (¹⁴N,pγ). Other: 100 22 (d,pγ) M(γ): From (d,pγ)
6678	2770	M(γ): From (d,pγ)
	3876	M(γ): From (d,pγ)
	4713	M(γ): From (d,pγ)
	6677	M(γ): From (d,pγ)
6832	4030	M(γ): From (d,pγ)
6840	4102	I(γ): from (¹⁴N,pγ). Other: 100 25 from (d,pγ) M(γ): From (d,pγ)
	5865	M(γ): From (d,pγ)
	6839	I(γ): weighted average of 23 13 from (¹⁴N,pγ) and 39 10 from (d,pγ) M(γ): From (d,pγ)
6885	5273	M(γ): From (d,pγ)
7042.7	3629	M(γ): From (d,pγ)
7042.7	5077.53	E(γ): from (n,γ) E=thermal M(γ): From (d,pγ)
7088	7087	M(γ): From (d,pγ)
7181	5216	M(γ): From (d,pγ)
7228	6252	M(γ): From (d,pγ)
7228	7227	M(γ): From (d,pγ)
E(level)	E(gamma)	Comments
7285	5320	M(γ): From (d,pγ)
7285	7284	M(γ): From (d,pγ)
7375.15	7374	M(γ): From (d,pγ)
7493	1522	M(γ): From (d,pγ)
	2032	M(γ): From (d,pγ)
	3434	M(γ): From (d,pγ)
7505	4767	M(γ): From (d,pγ)
7505	6529	M(γ): From (d,pγ)
7524	3616	M(γ): From (d,pγ)
	4786	M(γ): From (d,pγ)
	7523	M(γ): From (d,pγ)
7551	2018	I(γ): weighted average of 36 10 from (¹⁴N,pγ) and 50 18 from (d,pγ)
	2090	I(γ): weighted average of 18 6 from (¹⁴N,pγ) and 25 13 from (d,pγ)
	2299	I(γ): From (¹⁴N,pγ) M(γ): From (¹⁴N,pγ)
	4146	I(γ): weighted average of 46 14 from (¹⁴N,pγ) and 75 25 from (d,pγ)
7577.47	5965.0	M(γ): From (d,pγ)
7633	7632	M(γ): From (d,pγ)
7652	1681	M(γ): From (d,pγ)
	2639	M(γ): From (d,pγ)
	4914	M(γ): From (d,pγ)
7786.85	4382	I(γ): From (¹⁴N,pγ)
7786.85	6174	I(γ): From (¹⁴N,pγ)
7801	2008	M(γ): From (d,pγ)
7801	6188	M(γ): From (d,pγ)
7838	4433	M(γ): From (d,pγ)
7838	7837	M(γ): From (d,pγ)
E(level)	E(gamma)	Comments
7866	2853	M(γ): From (d,pγ)
7866	3806	M(γ): From (d,pγ)
7961	3249	M(γ): From (d,pγ)
	6348	M(γ): From (d,pγ)
	7960	M(γ): From (d,pγ)
8012	2760	M(γ): From (d,pγ)
8076	6463	M(γ): From (d,pγ)
8119	8118	M(γ): From (d,pγ)
8267	4862	M(γ): From (d,pγ)
8267	6654	M(γ): From (d,pγ)
8532	3820	M(γ): From (d,pγ)
8532	5127	I(γ): From (¹⁴N,pγ) M(γ): From (d,pγ)
8548	6935	M(γ): From (d,pγ)
8551	3018	M(γ): From (d,pγ)
	3299	M(γ): From (d,pγ)
	4491	M(γ): From (d,pγ)
8656	3944	M(γ): From (d,pγ)
8656	8654	M(γ): From (d,pγ)
8811	2770	M(γ): From (d,pγ)
8811	3278	M(γ): From (d,pγ)
8888	4828	M(γ): From (d,pγ)
8896	3103	I(γ): From (¹⁴N,pγ) M(γ): from (¹⁴N,pγ),(¹⁵N,pnγ)
8896	4836	I(γ): From (¹⁴N,pγ)
8999.5	3748	I(γ): From (¹⁴N,pγ)
8999.5	4287	I(γ): From (¹⁴N,pγ)
E(level)	E(gamma)	Comments
9014	4954	M(γ): From (d,pγ)
9410	3369	M(γ): From (d,pγ)
9410	4158	M(γ): From (d,pγ)
9685	6280	M(γ): From (d,pγ)
9948	2397	I(γ): From (¹⁴N,pγ) M(γ): From (d,pγ)
	4487	I(γ): From (¹⁴N,pγ) M(γ): From (d,pγ)
	4696	I(γ): From (¹⁴N,pγ)
10653	3102	E(γ): From (¹⁴N,pγ) I(γ): From (¹⁴N,pγ)
10653	5119	E(γ): From (¹⁴N,pγ) I(γ): From (¹⁴N,pγ)
10996	5535	E(γ): From (d,pγ). Eγ without uncertainty is from level energy difference.
11004	5543	E(γ): From (¹⁴N,pγ)
11200	5739	E(γ): From (d,pγ). Eγ without uncertainty is from level energy difference.
11361	5567	E(γ): From (¹⁴N,pγ)
11410	3859	E(γ): From (¹⁴N,pγ) I(γ): From (¹⁴N,pγ)
11410	5949	E(γ): From (¹⁴N,pγ) I(γ): From (¹⁴N,pγ)
11460	5999	E(γ): From (¹⁴N,pγ)
11460	6209	E(γ): From (¹⁴N,pγ)
11486	3474	E(γ): From (¹⁴N,pγ) I(γ): represents >62% decay branching for level.. From (¹⁴N,pγ)
11486	6025	E(γ): From (¹⁴N,pγ) I(γ): From (¹⁴N,pγ)
13143	7349	E(γ): From (¹⁴N,pγ)
13332	7870	E(γ): From (¹⁴N,pγ)