List of levels for 63GA

ADOPTED LEVELS, GAMMAS for ⁶³Ga

Author: Jun Chen | Citation: Nucl. Data Sheets 196, 17 (2024) | Cutoff date: 30-Sep-2023

Full ENSDF file | Adopted Levels (PDF version)

Q(β-)=-9630 keV 40	S(n)= 12631.4 keV 15	S(p)= 2668.0 keV 14	Q(α)= -2613.6 keV 14
Reference: 2021WA16

References:
A	⁶³Ge ε decay (153.3 MS)	B	⁶⁴As εp decay (69.0 MS)
C	⁴⁰Ca(²⁸Si,αpγ)	D	⁴⁰Ca(²⁹Si,APNG)
E	⁴⁰Ca(³²S,2APG)

Mass measurements: 2021Pa44, 2007Gu09, 2007Sc24, 1989Sh10

Other measurements:

See ⁶³Ge ε decay dataset for a preliminary decay scheme proposed by 2019Ru07, which is not adopted here due to very limited information available in this conference proceeding about the decay scheme

2012Pr11: U(p,X) E=1.4 GeV at ISOLDE-CERN facility. Measured hyperfine structure and isotope shift. Deduced spin, moments, rms charge radius.

1975AgZX: ⁶⁴Zn(p,2nγ) E=25, 33, 40 MeV. Measured Eγ, Iγ, γγ-coin. No data are available.

The level scheme is as that proposed by 2021Ru07 in (²⁸Si,αpγ).

Levels: Band assignments are from (²⁸Si,αpγ) (2021Ru07)

Q-value: S(2n)=25560 40, S(2p)=9141.0 16, Q(ε)=5666.3 20 (2021Wa16)

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	3/2-	32.1 s 5 % ε = 100
75.10 8	A B C D E	(5/2)-	≈ 25 ns	75.1 1	100	M1+E2	0.0	3/2-
442.76 10	A C E	(3/2-)		367.5 1 442.9 2	19 6 100 11	(D+Q)	75.10 0.0	(5/2)- 3/2-
722.33 8	A C E	(5/2-)		279.2 4 647.4 1 722.2 1	7.4 35 69 24 100 14		442.76 75.10 0.0	(3/2-) (5/2)- 3/2-
1152.33 18	C D E	(9/2-)		1077.2 2	100	Q	75.10	(5/2)-
1421.58 13	C D E	7/2(-)		699.3 2 978.4 2 1422.4 3	25 5 22 5 100 4	(D+Q) (Q) Q	722.33 442.76 0.0	(5/2-) (3/2-) 3/2-
2046.16 19	C D E	(9/2+)	< 2 ns	624.6 2 893.8 2	26.6 15 100.0 33	(E1) (E1)	1421.58 1152.33	7/2(-) (9/2-)
2940.27 28	C D E	(13/2+)		894.1 2	100	Q	2046.16	(9/2+)
4080.25 34	C D E	(17/2+)		1139.8 2	100	Q	2940.27	(13/2+)
5243.9 5	C E			2305.7 7	100		2940.27	(13/2+)
5715.38 38	C E	(21/2+)		1634.9 2	100	Q	4080.25	(17/2+)
5852.64 37	C D E	(19/2-)		609.4 4 1772.4 2	1.20 14 100.0 31	(E1)	5243.9 4080.25	(17/2+)
6501.25 39	C D E	(23/2-)		648.8 2 785.7 2	100.0 31 8.9 9	Q D	5852.64 5715.38	(19/2-) (21/2+)
7334.8 6	C	(21/2)		3255.1 22	100		4080.25	(17/2+)
7656.2 7	C E	(23/2)		1154.4 8 1804.0 11 ?	100 8 46 8	(D+Q)	6501.25 5852.64	(23/2-) (19/2-)
7710.15 43	C D E	(27/2-)		1208.9 2	100	Q	6501.25	(23/2-)
7912.3 10	C E	(25/2-)		1412.0 14	100	D+Q	6501.25	(23/2-)
8213.3 6	C	(25/2)		878.5 2 1712.4 8 2497.5 6	65 8 31 8 100 12		7334.8 6501.25 5715.38	(21/2) (23/2-) (21/2+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
8856.7 8	C	(27/2)		1146.8 8 1200.2 8	100 8 74 8	(D+Q) (Q)	7710.15 7656.2	(27/2-) (23/2)
9039.9 5	C E	(31/2-)		1329.7 2	100	Q	7710.15	(27/2-)
9254.8 6	C E	(29/2-)		1343.0 11 1544.8 4	38 4 100.0 35	Q+D	7912.3 7710.15	(25/2-) (27/2-)
9482.6 6	C E	(29/2)		1269.2 2 1773.0 10	76 6 100 13	Q (D)	8213.3 7710.15	(25/2) (27/2-)
10161.3 8 ?	C E	(31/2)		1304.6 2	100	(Q)	8856.7	(27/2)
10868.7 6	C E	(35/2-)		1828.7 3	100	Q	9039.9	(31/2-)
10908.3 5	C E	(33/2)		1425.8 9 1868.3 2	56 8 100.0 33	Q (D)	9482.6 9039.9	(29/2) (31/2-)
10980.1 6	C E	(33/2-)		1725.6 4 1939.7 5	59 9 100 5	Q Q+D	9254.8 9039.9	(29/2-) (31/2-)
11972.9 9	C E	(35/2)		1811.6 4	100		10161.3	(31/2)
12736.7 8	C E	(37/2-)		1756.4 8 1868.2 9	71 5 100 5	Q Q+D	10980.1 10868.7	(33/2-) (35/2-)
12832.6 8	C E	(37/2)		1924.8 9 1963.4 10	100 5 18.8 21	Q (D)	10908.3 10868.7	(33/2) (35/2-)
14212.4 18	C	(39/2)		3343.4 22	100		10868.7	(35/2-)
14463.8 9	C E	(41/2)		1631.1 2	100	Q	12832.6	(37/2)
14541.6 22	C	(39/2)		3671.9 31	100		10868.7	(35/2-)
15140 6 ?	C	(35/2-)
15764.8 39	C	(39/2-)		4895.9 38	100	(Q)	10868.7	(35/2-)
16297.3 42	C	(39/2-)
16427.1 42 ?	C	(39/2-)
16634.1 26	C			3801.3 25	100		12832.6	(37/2)
16695 6	C	(39/2-)		1555.1 12 ? 5825.6 56	167 33 100 17	(Q)	15140 10868.7	(35/2-) (35/2-)
16754.6 22	C	(41/2-)		2213.0 4 4018.5 28	24 4 100 8	(Q)	14541.6 12736.7	(39/2) (37/2-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
17170.8 21	C			2707.0 19	100		14463.8	(41/2)
17192.1 17	C	(43/2)		2728.4 17 2979.3 22	100 11 21 11	(D)	14463.8 14212.4	(41/2) (39/2)
17477.9 20	C			3014.1 18	100		14463.8	(41/2)
17573.3 43	C	(41/2-)		4836.4 42	100		12736.7	(37/2-)
17641.6 31	C	(41/2-)		4903.7 41	100	(Q)	12736.7	(37/2-)
17660.1 31	C	(41/2-)		4924.1 40	100	(Q)	12736.7	(37/2-)
17705.0 39	C	(41/2-)		4968.3 51	100	(Q)	12736.7	(37/2-)
17754.1 40	C	(41/2-)		5016.9 55	100	(Q)	12736.7	(37/2-)
18089.5 41	C	(43/2-)		1662.3 11 ? 1792.1 11 2324.6 13	30 4 74 9 100 9	(Q) (Q)	16427.1 16297.3 15764.8	(39/2-) (39/2-) (39/2-)
18451.8 28	C			3987.9 27	100		14463.8	(41/2)
18523 6	C	(43/2-)		1828.8 12	100		16695	(39/2-)
18930.8 25	C	(45/2-)		2176.1 13	100	(Q)	16754.6	(41/2-)
19033.9 32	C			2399.8 18	100		16634.1
19536.0 45	C	(45/2-)		1962.7 13	100	(Q)	17573.3	(41/2-)
19701.1 31	C	(45/2-)		2041.1 12 2059.4 13	100 15 85 15	(Q)	17660.1 17641.6	(41/2-) (41/2-)
19763.4 39	C	(45/2-)		2009.3 14 2058.4 13	100 29 71 29	(Q) (Q)	17754.1 17705.0	(41/2-) (41/2-)
20099.9 43	C	(47/2-)		2010.4 13	100	(Q)	18089.5	(43/2-)
20625 6	C	(47/2-)		2101.6 13	100	(Q)	18523	(43/2-)
21375.6 31	C	(49/2-)		2444.8 17	100	(Q)	18930.8	(45/2-)
21806 5	C	(49/2-)		2269.6 14	100	(Q)	19536.0	(45/2-)
22071.6 34	C	(49/2-)		2370.4 13	100	(Q)	19701.1	(45/2-)
22114.2 42	C	(49/2-)		2350.7 13	100		19763.4	(45/2-)
22612 5	C	(51/2-)		2512.0 16	100	(Q)	20099.9	(47/2-)
23069 6	C	(51/2-)		2444.2 15	100	(Q)	20625	(47/2-)
24234.3 36	C	(53/2-)		2858.6 19	100		21375.6	(49/2-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
24454 5	C	(53/2-)		2648.3 15	100	(Q)	21806	(49/2-)
24795.5 45	C	(53/2-)		2681.3 16	100	(Q)	22114.2	(49/2-)
24899.9 38	C	(53/2-)		2828.3 17	100		22071.6	(49/2-)
25952 6	C	(55/2-)		2882.6 18	100		23069	(51/2-)
25987 6 ?	C	(55/2-)		3374.6 29 ?	100		22612	(51/2-)
27612 5	C	(57/2-)		3158.1 19	100		24454	(53/2-)
27869 5	C	(57/2-)		3072.9 23	100		24795.5	(53/2-)
28122.3 43	C	(57/2-)		3222.3 21	100		24899.9	(53/2-)
29439 7 ?	C	(59/2-)		3486.8 26 ?	100		25952	(55/2-)
31328 6 ?	C	(61/2-)		3459.0 29 ?	100		27869	(57/2-)
X	C	J1
2191.2+X 13	C	J1+2		2191.2 13	100		X	J1
2227.8+X 24 ?	C
4661.7+X 19	C	J1+4		2433.8 15 ? 2470.4 14	39 6 100 11		2227.8+X 2191.2+X	J1+2
7339.2+X 25	C	J1+6		2677.4 16	100	(Q)	4661.7+X	J1+4
10254.2+X 30	C	J1+8		2915.0 17	100	(Q)	7339.2+X	J1+6
13502.9+X 37	C	J1+10		3248.6 22	100		10254.2+X	J1+8
Y	C	J2
2327.1+Y 14	C	J2+2		2327.0 14	100		Y	J2
4896.3+Y 21	C	J2+4		2569.2 15	100	(Q)	2327.1+Y	J2+2
7673.0+Y 26	C	J2+6		2776.6 16	100	(Q)	4896.3+Y	J2+4
10743.7+Y 33	C	J2+8		3070.6 20	100		7673.0+Y	J2+6
14206.8+Y 41	C	J2+10		3463.0 24	100		10743.7+Y	J2+8
Z?	C	J3
2200.0+Z 19	C	J3+2		2200.0 19 ?	100		Z	J3
4645.0+Z 25	C	J3+4		2444.9 16	100	(Q)	2200.0+Z	J3+2
7350.6+Z 30	C	J3+6		2705.5 17	100		4645.0+Z	J3+4
10382.4+Z 37	C	J3+8		3031.8 21	100	(Q)	7350.6+Z	J3+6
13792+Z 6	C	J3+10		3409.3 44	100		10382.4+Z	J3+8

E(level): From a least-squares fit to γ-ray energies, unless otherwise noted.

T_1/2(level): From particle-γ(t) in (²⁹Si,αpnγ) (1991Ba20), unless otherwise noted.

M(γ): From measured γγ(DCO) in (²⁸Si,αpγ), unless otherwise noted.

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - Band B1 based on (9/2⁺), α=+1/2. Configuration=[21₊; 40]
2046.16 19	(9/2+)	< 2 ns
2940.27 28	(13/2+)		894.1 2	100	Q	2046.16	(9/2+)
4080.25 34	(17/2+)		1139.8 2	100	Q	2940.27	(13/2+)
5715.38 38	(21/2+)		1634.9 2	100	Q	4080.25	(17/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - Band β₂ based on (19/2-), α=-1/2. Configuration=[21₊;
5852.64 37	(19/2-)
6501.25 39	(23/2-)		648.8 2 785.7 2	100.0 31 8.9 9	Q D	5852.64 5715.38	(19/2-) (21/2+)
7710.15 43	(27/2-)		1208.9 2	100	Q	6501.25	(23/2-)
9039.9 5	(31/2-)		1329.7 2	100	Q	7710.15	(27/2-)
10868.7 6	(35/2-)		1828.7 3	100	Q	9039.9	(31/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Band β₃ based on (25/2-), α=+1/2. Configuration=[21₊;
7912.3 10	(25/2-)
9254.8 6	(29/2-)		1343.0 11 1544.8 4	38 4 100.0 35	Q+D	7912.3 7710.15	(25/2-) (27/2-)
10980.1 6	(33/2-)		1725.6 4 1939.7 5	59 9 100 5	Q Q+D	9254.8 9039.9	(29/2-) (31/2-)
12736.7 8	(37/2-)		1756.4 8 1868.2 9	71 5 100 5	Q Q+D	10980.1 10868.7	(33/2-) (35/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22]
7334.8 6	(21/2)
8213.3 6	(25/2)		878.5 2 1712.4 8 2497.5 6	65 8 31 8 100 12		7334.8 6501.25 5715.38	(21/2) (23/2-) (21/2+)
9482.6 6	(29/2)		1269.2 2 1773.0 10	76 6 100 13	Q (D)	8213.3 7710.15	(25/2) (27/2-)
10908.3 5	(33/2)		1425.8 9 1868.3 2	56 8 100.0 33	Q (D)	9482.6 9039.9	(29/2) (31/2-)
12832.6 8	(37/2)		1924.8 9 1963.4 10	100 5 18.8 21	Q (D)	10908.3 10868.7	(33/2) (35/2-)
14463.8 9	(41/2)		1631.1 2	100	Q	12832.6	(37/2)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - Band B5 based on (23/2), α=-1/2. Configuration=[21₊;
7656.2 7	(23/2)
8856.7 8	(27/2)		1146.8 8 1200.2 8	100 8 74 8	(D+Q) (Q)	7710.15 7656.2	(27/2-) (23/2)
10161.3 8	(31/2)		1304.6 2	100	(Q)	8856.7	(27/2)
11972.9 9	(35/2)		1811.6 4	100		10161.3	(31/2)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - Band Q1 based on (39/2-), 15765 keV, α=-1/2.
15764.8 39	(39/2-)
18089.5 41	(43/2-)		1662.3 11 ? 1792.1 11 2324.6 13	30 4 74 9 100 9	(Q) (Q)	16427.1 16297.3 15764.8	(39/2-) (39/2-) (39/2-)
20099.9 43	(47/2-)		2010.4 13	100	(Q)	18089.5	(43/2-)
22612 5	(51/2-)		2512.0 16	100	(Q)	20099.9	(47/2-)
25987 6	(55/2-)		3374.6 29 ?	100		22612	(51/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - Band Q2 based on (41/2-), 16755 keV, α=+1/2
16754.6 22	(41/2-)
18930.8 25	(45/2-)		2176.1 13	100	(Q)	16754.6	(41/2-)
21375.6 31	(49/2-)		2444.8 17	100	(Q)	18930.8	(45/2-)
24234.3 36	(53/2-)		2858.6 19	100		21375.6	(49/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 8 - Band Q3 based on (39/2-), 16695 keV, α=-1/2.
16695 6	(39/2-)
18523 6	(43/2-)		1828.8 12	100		16695	(39/2-)
20625 6	(47/2-)		2101.6 13	100	(Q)	18523	(43/2-)
23069 6	(51/2-)		2444.2 15	100	(Q)	20625	(47/2-)
25952 6	(55/2-)		2882.6 18	100		23069	(51/2-)
29439 7	(59/2-)		3486.8 26 ?	100		25952	(55/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 9 - Band Q4 based on (41/2-), 17573 keV, α=+1/2.
17573.3 43	(41/2-)
19536.0 45	(45/2-)		1962.7 13	100	(Q)	17573.3	(41/2-)
21806 5	(49/2-)		2269.6 14	100	(Q)	19536.0	(45/2-)
24454 5	(53/2-)		2648.3 15	100	(Q)	21806	(49/2-)
27612 5	(57/2-)		3158.1 19	100		24454	(53/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 10 - Band Q5 based on (41/2-), α=+1/2. The band starts at 17642
19701.1 31	(45/2-)
22071.6 34	(49/2-)		2370.4 13	100	(Q)	19701.1	(45/2-)
24899.9 38	(53/2-)		2828.3 17	100		22071.6	(49/2-)
28122.3 43	(57/2-)		3222.3 21	100		24899.9	(53/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 11 - Band Q6 based on (41/2-), α=+1/2. The band starts at 17705
19763.4 39	(45/2-)
22114.2 42	(49/2-)		2350.7 13	100		19763.4	(45/2-)
24795.5 45	(53/2-)		2681.3 16	100	(Q)	22114.2	(49/2-)
27869 5	(57/2-)		3072.9 23	100		24795.5	(53/2-)
31328 6	(61/2-)		3459.0 29 ?	100		27869	(57/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 12 - ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV
X	J1
2191.2+X 13	J1+2		2191.2 13	100		X	J1
4661.7+X 19	J1+4		2433.8 15 ? 2470.4 14	39 6 100 11		2227.8+X 2191.2+X	J1+2
7339.2+X 25	J1+6		2677.4 16	100	(Q)	4661.7+X	J1+4
10254.2+X 30	J1+8		2915.0 17	100	(Q)	7339.2+X	J1+6
13502.9+X 37	J1+10		3248.6 22	100		10254.2+X	J1+8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 13 - ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV
Y	J2
2327.1+Y 14	J2+2		2327.0 14	100		Y	J2
4896.3+Y 21	J2+4		2569.2 15	100	(Q)	2327.1+Y	J2+2
7673.0+Y 26	J2+6		2776.6 16	100	(Q)	4896.3+Y	J2+4
10743.7+Y 33	J2+8		3070.6 20	100		7673.0+Y	J2+6
14206.8+Y 41	J2+10		3463.0 24	100		10743.7+Y	J2+8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 14 - ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV
Z	J3
2200.0+Z 19	J3+2		2200.0 19 ?	100		Z	J3
4645.0+Z 25	J3+4		2444.9 16	100	(Q)	2200.0+Z	J3+2
7350.6+Z 30	J3+6		2705.5 17	100		4645.0+Z	J3+4
10382.4+Z 37	J3+8		3031.8 21	100	(Q)	7350.6+Z	J3+6
13792+Z 6	J3+10		3409.3 44	100		10382.4+Z	J3+8

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
75.10	(5/2)-	≈ 25 ns	75.1 1	M1+E2	+0.25 5	0.26	B(E2)(W.u.)≈30, B(M1)(W.u.)≈0.0016, α=0.26 5, α(K)=0.23 4, α(L)=0.028 5, α(M)=0.0041 8, α(N)=0.000186 30
2046.16	(9/2+)	< 2 ns	624.6 2	(E1)		0.000378	α=0.000378 5, α(K)=0.000339 5, α(L)=3.41×10^-5 5, α(M)=4.98E-6 7, α(N)=2.68E-7 4
2046.16	(9/2+)	< 2 ns	893.8 2	(E1)		0.0001743	α=0.0001743 24, α(K)=0.0001562 22, α(L)=1.569×10^-5 22, α(M)=2.292E-6 32, α(N)=1.236E-7 17
9254.8	(29/2-)		1544.8 4	Q+D	1 GT
10980.1	(33/2-)		1939.7 5	Q+D	1 GT
12736.7	(37/2-)		1868.2 9	Q+D	1 GT

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	3/2-	32.1 s 5 % ε = 100	μ=+1.469 5 (2012Pr11,2019StZV), Q=+0.212 14 (2012Pr11,2021StZZ), ISPINZ=-1/2 δ<r²>(⁷¹Ga,⁶³Ga)=-0.643 fm² 15(stat) 135(syst) (2012Pr11). E(level): δ<r²>(⁷¹Ga,⁶³Ga)=-0.643 fm² 15(stat) 135(syst) (2012Pr11).
75.10	(5/2)-	≈ 25 ns	Shell-model calculations (2012Pr11) predict 1/2- with E(level)=118 using jj44b interaction and 3/2- at E(level)=88 using JUN45 interaction for the first excited state, and predict 5/2- for the second excited state using either interaction. In systematics of odd Ga isotopes in 1991Ba20, the 5/2- first excited state in ⁶³Ga corresponds to the 5/2- second excited states in ^65,67,69Ga isotopes. E(level): Shell-model calculations (2012Pr11) predict 1/2- with E(level)=118 using jj44b interaction and 3/2- at E(level)=88 using JUN45 interaction for the first excited state, and predict 5/2- for the second excited state using either interaction. In systematics of odd Ga isotopes in 1991Ba20, the 5/2- first excited state in ⁶³Ga corresponds to the 5/2- second excited states in ^65,67,69Ga isotopes.
442.76	(3/2-)		XREF: E(?). J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on shell-model predictions and γ-ray decay pattern.
722.33	(5/2-)		XREF: α(?)E(?). J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on shell-model predictions and γ-ray decay pattern.
1152.33	(9/2-)		J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on shell-model predictions and γ-ray decay pattern.
2046.16	(9/2+)	< 2 ns	E(level): Band B1 based on (9/2⁺), α=+1/2. Configuration=[21₊; 40].
2940.27	(13/2+)		E(level): Band B1 based on (9/2⁺), α=+1/2. Configuration=[21₊; 40].
4080.25	(17/2+)		E(level): Band B1 based on (9/2⁺), α=+1/2. Configuration=[21₊; 40].
5243.9			XREF: E(?).
5715.38	(21/2+)		E(level): Band B1 based on (9/2⁺), α=+1/2. Configuration=[21₊; 40].
5852.64	(19/2-)		E(level): Band β₂ based on (19/2-), α=-1/2. Configuration=[21₊;.
6501.25	(23/2-)		E(level): Band β₂ based on (19/2-), α=-1/2. Configuration=[21₊;.
7334.8	(21/2)		E(level): Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22].
7656.2	(23/2)		E(level): Band B5 based on (23/2), α=-1/2. Configuration=[21₊;.
7710.15	(27/2-)		E(level): Band β₂ based on (19/2-), α=-1/2. Configuration=[21₊;.
7912.3	(25/2-)		E(level): Band β₃ based on (25/2-), α=+1/2. Configuration=[21₊;.
8213.3	(25/2)		E(level): Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22]. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
8856.7	(27/2)		E(level): Band B5 based on (23/2), α=-1/2. Configuration=[21₊;.
9039.9	(31/2-)		E(level): Band β₂ based on (19/2-), α=-1/2. Configuration=[21₊;.
9254.8	(29/2-)		E(level): Band β₃ based on (25/2-), α=+1/2. Configuration=[21₊;.
9482.6	(29/2)		E(level): Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22].
10161.3	(31/2)		XREF: C(?)E(?). E(level): Band B5 based on (23/2), α=-1/2. Configuration=[21₊;.
10868.7	(35/2-)		E(level): Band β₂ based on (19/2-), α=-1/2. Configuration=[21₊;.
10908.3	(33/2)		E(level): Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22].
10980.1	(33/2-)		E(level): Band β₃ based on (25/2-), α=+1/2. Configuration=[21₊;.
E(level)	J^π(level)	T_1/2(level)	Comments
11972.9	(35/2)		E(level): Band B5 based on (23/2), α=-1/2. Configuration=[21₊;.
12736.7	(37/2-)		XREF: E(12743.2). E(level): Band β₃ based on (25/2-), α=+1/2. Configuration=[21₊;.
12832.6	(37/2)		E(level): Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22].
14463.8	(41/2)		E(level): Band B4 based on (21/2), α=+1/2. Configuration=[21₊; 22].
14541.6	(39/2)		J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
15140	(35/2-)		XREF: C(15141?). J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
15764.8	(39/2-)		E(level): Band Q1 based on (39/2-), 15765 keV, α=-1/2.
16297.3	(39/2-)		J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
16427.1	(39/2-)		XREF: C(?). J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
16695	(39/2-)		E(level): Band Q3 based on (39/2-), 16695 keV, α=-1/2.
16754.6	(41/2-)		E(level): Band Q2 based on (41/2-), 16755 keV, α=+1/2.
17573.3	(41/2-)		E(level): Band Q4 based on (41/2-), 17573 keV, α=+1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
18089.5	(43/2-)		E(level): Band Q1 based on (39/2-), 15765 keV, α=-1/2.
18523	(43/2-)		E(level): Band Q3 based on (39/2-), 16695 keV, α=-1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
18930.8	(45/2-)		E(level): Band Q2 based on (41/2-), 16755 keV, α=+1/2.
19536.0	(45/2-)		E(level): Band Q4 based on (41/2-), 17573 keV, α=+1/2.
19701.1	(45/2-)		E(level): Band Q5 based on (41/2-), α=+1/2. The band starts at 17642.
19763.4	(45/2-)		E(level): Band Q6 based on (41/2-), α=+1/2. The band starts at 17705.
20099.9	(47/2-)		E(level): Band Q1 based on (39/2-), 15765 keV, α=-1/2.
20625	(47/2-)		E(level): Band Q3 based on (39/2-), 16695 keV, α=-1/2.
21375.6	(49/2-)		E(level): Band Q2 based on (41/2-), 16755 keV, α=+1/2.
21806	(49/2-)		E(level): Band Q4 based on (41/2-), 17573 keV, α=+1/2.
22071.6	(49/2-)		E(level): Band Q5 based on (41/2-), α=+1/2. The band starts at 17642.
22114.2	(49/2-)		E(level): Band Q6 based on (41/2-), α=+1/2. The band starts at 17705. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
22612	(51/2-)		E(level): Band Q1 based on (39/2-), 15765 keV, α=-1/2.
E(level)	J^π(level)	T_1/2(level)	Comments
23069	(51/2-)		E(level): Band Q3 based on (39/2-), 16695 keV, α=-1/2.
24234.3	(53/2-)		E(level): Band Q2 based on (41/2-), 16755 keV, α=+1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
24454	(53/2-)		E(level): Band Q4 based on (41/2-), 17573 keV, α=+1/2.
24795.5	(53/2-)		E(level): Band Q6 based on (41/2-), α=+1/2. The band starts at 17705.
24899.9	(53/2-)		E(level): Band Q5 based on (41/2-), α=+1/2. The band starts at 17642. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
25952	(55/2-)		E(level): Band Q3 based on (39/2-), 16695 keV, α=-1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
25987	(55/2-)		XREF: C(?). E(level): Band Q1 based on (39/2-), 15765 keV, α=-1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
27612	(57/2-)		E(level): Band Q4 based on (41/2-), 17573 keV, α=+1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
27869	(57/2-)		E(level): Band Q6 based on (41/2-), α=+1/2. The band starts at 17705. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
28122.3	(57/2-)		E(level): Band Q5 based on (41/2-), α=+1/2. The band starts at 17642. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
29439	(59/2-)		XREF: C(?). E(level): Band Q3 based on (39/2-), 16695 keV, α=-1/2. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
31328	(61/2-)		XREF: C(?). E(level): Band Q6 based on (41/2-), α=+1/2. The band starts at 17705. J^π(level): Proposed by 2021Ru07 in (²⁸Si,αpγ) based on band assignments and/or γ-ray decay pattern.
X	J1		E(level): ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV.
2191.2+X	J1+2		E(level): ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV.
2227.8+X			XREF: C(?).
4661.7+X	J1+4		E(level): ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV.
7339.2+X	J1+6		E(level): ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV.
10254.2+X	J1+8		E(level): ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV.
13502.9+X	J1+10		E(level): ΔJ=2 band Q7. Estimated energy of the bandhead=19000 keV.
Y	J2		E(level): ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV.
2327.1+Y	J2+2		E(level): ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV.
4896.3+Y	J2+4		E(level): ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV.
7673.0+Y	J2+6		E(level): ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV.
10743.7+Y	J2+8		E(level): ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV.
14206.8+Y	J2+10		E(level): ΔJ=2 band Q8. Estimated energy of the bandhead=20300 keV.
E(level)	J^π(level)	T_1/2(level)	Comments
Z	J3		XREF: C(?). E(level): ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV.
2200.0+Z	J3+2		E(level): ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV.
4645.0+Z	J3+4		E(level): ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV.
7350.6+Z	J3+6		E(level): ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV.
10382.4+Z	J3+8		E(level): ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV.
13792+Z	J3+10		E(level): ΔJ=2 band Q9. Estimated energy of the bandhead=19200 keV.

E(level)	E(gamma)	Comments
75.10	75.1	E(γ): weighted average of 75.0 1 from ⁶³Ge ε decay, 75.4 3 from (²⁸Si,αpγ), 75.4 3 from (²⁹Si,αpnγ), and 75.2 2 from (³²S,2αpγ). Other: 74.6 1 from ⁶⁴As εp decay is discrepant
442.76	367.5	E(γ): from ⁶³Ge ε decay. Other: 368.0 4 from (²⁸Si,αpγ)
442.76	442.9	E(γ): weighted average of 442.8 1 from ⁶³Ge ε decay, 443.3 2 from (²⁸Si,αpγ), and 443.1 2 from (³²S,2αpγ) M(γ): ΔJ=(0) from γγ(DCO) in (²⁸Si,αpγ)
722.33	279.2	I(γ): weighted average of 6.9 35 from (²⁸Si,αpγ) and 8 4 from (³²S,2αpγ)
	647.4	E(γ): from ⁶³Ge ε decay. Other: 647.1 5 from (²⁸Si,αpγ)
	722.2	E(γ): from ⁶³Ge ε decay. Others: 722.2 2 from (²⁸Si,αpγ) and 722.2 2 from (³²S,2αpγ)
1152.33	1077.2	E(γ): from (³²S,2αpγ). Others: 1077.2 5 from (²⁸Si,αpγ) and 1077.2 3 from (²⁹Si,αpnγ)
1421.58	699.3	E(γ): from (³²S,2αpγ). Other: 699.3 3 from (²⁸Si,αpγ) I(γ): unweighted average of 29.8 21 from (²⁸Si,αpγ) and 19.5 8 from (³²S,2αpγ)
	978.4	E(γ): from (³²S,2αpγ). Other: 978.6 4 from (²⁸Si,αpγ) I(γ): unweighted average of 27.0 14 from (²⁸Si,αpγ) and 17.9 8 from (³²S,2αpγ)
	1422.4	E(γ): weighted average of 1421.6 6 from (²⁸Si,αpγ), 1422.0 5 from (²⁹Si,αpnγ), and 1422.6 2 from (³²S,2αpγ) I(γ): from (²⁸Si,αpγ). Other: 100 6 from (³²S,2αpγ)
2046.16	624.6	E(γ): from (³²S,2αpγ). Others: 624.7 3 from (²⁸Si,αpγ) and 624.6 5 from (²⁹Si,αpnγ) I(γ): unweighted average of 25.1 10 from (²⁸Si,αpγ) and 28.0 9 from (³²S,2αpγ) M(γ): d, ΔJ=1 from γγ(DO) in (²⁸Si,αpγ) and (³²S,2αpγ); Δπ=(yes) from level scheme
2046.16	893.8	E(γ): weighted average of 893.9 5 from (²⁸Si,αpγ), 894.1 3 from (²⁹Si,αpnγ), and 893.7 2 from (³²S,2αpγ) I(γ): from (²⁸Si,αpγ) and (³²S,2αpγ). M(γ): either Q with ΔJ=2 or d with ΔJ=0 from γγ(DCO) in (³²S,2αpγ) (²⁹Si,αpnγ); ΔJ=(0) and Δπ=(yes) from level scheme
2940.27	894.1	E(γ): weighted average of 894.3 4 from (²⁸Si,αpγ), 894.1 3 from (²⁹Si,αpnγ), and 894.0 2 from (³²S,2αpγ) M(γ): also from γγ(DCO) in (³²S,2αpγ)
4080.25	1139.8	E(γ): weighted average of 1139.8 4 from (²⁸Si,αpγ), 1139.4 3 from (²⁹Si,αpnγ), and 1139.9 2 from (³²S,2αpγ)
5243.9	2305.7	E(γ): weighted average of 2304.2 16 from (²⁸Si,αpγ) and 2306.0 7 from (³²S,2αpγ)
5715.38	1634.9	E(γ): from (³²S,2αpγ). Other: 1635.4 8 from (²⁸Si,αpγ)
5852.64	609.4	E(γ): weighted average of 608.6 6 from (²⁸Si,αpγ) and 609.6 3 from (³²S,2αpγ) I(γ): weighted average of 1.04 26 from (²⁸Si,αpγ) and 1.25 14 from (³²S,2αpγ)
5852.64	1772.4	E(γ): weighted average of 1772.2 7 from (²⁸Si,αpγ), 1772.8 3 from (²⁹Si,αpnγ), and 1772.3 2 from (³²S,2αpγ) I(γ): from (³²S,2αpγ). Other: 100 4 from (²⁸Si,αpγ) M(γ): d from γγ(DCO) in (²⁸Si,αpγ); 2001We11 in (³²S,2αpγ) show that their measured γγ(θ)(DCO) is best fitted with a calculation with δ=-0.3 2 which is compatible with E1
6501.25	648.8	E(γ): weighted average of 648.6 6 from (²⁸Si,αpγ), 649.1 3 from (²⁹Si,αpnγ), and 648.7 2 from (³²S,2αpγ) I(γ): from (³²S,2αpγ). Other: 100.0 34 from (²⁸Si,αpγ)
6501.25	785.7	E(γ): from (³²S,2αpγ). Other: 785.8 3 from (²⁸Si,αpγ) I(γ): unweighted average of 9.8 7 from (²⁸Si,αpγ) and 8.00 25 from (³²S,2αpγ)
7656.2	1154.4	E(γ): unweighted average of 1155.2 6 from (²⁸Si,αpγ) and 1153.6 2 from (³²S,2αpγ)
7710.15	1208.9	E(γ): from (³²S,2αpγ). Others: 1209.1 4 from (²⁸Si,αpγ) and 1208.8 5 from (²⁹Si,αpnγ)
7912.3	1412.0	E(γ): unweighted average of 1410.6 6 from (²⁸Si,αpγ) and 1413.4 3 from (³²S,2αpγ)
8213.3	878.5	E(γ): weighted average of 878.9 6 from (²⁸Si,αpγ) and 878.4 2 from (³²S,2αpγ) I(γ): other: Iγ(878.5γ)/Iγ(2497.5γ)=100 6/27 9 from (³²S,2αpγ) is discrepant
	1712.4	E(γ): not seen in (³²S,2αpγ)
	2497.5	E(γ): weighted average of 2497.9 12 from (²⁸Si,αpγ) and 2497.4 6 from (³²S,2αpγ)
E(level)	E(gamma)	Comments
9039.9	1329.7	E(γ): from (³²S,2αpγ). Other: 1329.6 5 from (²⁸Si,αpγ)
9254.8	1343.0	E(γ): unweighted average of 1344.0 8 from (²⁸Si,αpγ) and 1341.9 5 from (³²S,2αpγ) I(γ): weighted average of 42 4 from (²⁸Si,αpγ) and 34.5 35 from (³²S,2αpγ)
9254.8	1544.8	E(γ): weighted average of 1545.6 7 from (²⁸Si,αpγ) and 1544.7 3 from (³²S,2αpγ) I(γ): from (³²S,2αpγ). Other: 100 6 from (²⁸Si,αpγ)
9482.6	1269.2	E(γ): from (³²S,2αpγ). Other: 1269.2 6 from (²⁸Si,αpγ)
10161.3	1304.6	E(γ): from (³²S,2αpγ). Other: 1304.2 10 from (²⁸Si,αpγ)
10868.7	1828.7	E(γ): weighted average of 1829.8 8 from (²⁸Si,αpγ) and 1828.6 2 from (³²S,2αpγ)
10908.3	1425.8	E(γ): unweighted average of 1424.9 7 from (²⁸Si,αpγ) and 1426.6 2 from (³²S,2αpγ) I(γ): unweighted average of 63 5 from (²⁸Si,αpγ) and 48 5 from (³²S,2αpγ)
10908.3	1868.3	E(γ): from (³²S,2αpγ). Other: Eγ=1867.3 9, Iγ=100 5 from (²⁸Si,αpγ) M(γ): ΔJ=1 transition from γγ(DCO) in (²⁸Si,αpγ); α asymmetry from (³²S,2αpγ) is also consistent with ΔJ=1
10980.1	1725.6	E(γ): weighted average of 1726.3 9 from (²⁸Si,αpγ) and 1725.4 4 from (³²S,2αpγ) I(γ): unweighted average of 68 5 from (²⁸Si,αpγ) and 50 5 from (³²S,2αpγ)
10980.1	1939.7	E(γ): weighted average of 1941.2 9 from (²⁸Si,αpγ) and 1939.5 3 from (³²S,2αpγ) I(γ): from (³²S,2αpγ). Other: 100 7 from (²⁸Si,αpγ)
11972.9	1811.6	E(γ): weighted average of 1812.7 10 from (²⁸Si,αpγ) and 1811.5 3 from (³²S,2αpγ)
12736.7	1756.4	E(γ): other: 1763.5 3 from (³²S,2αpγ) is discrepant I(γ): Iγ(1763.5γ)/Iγ(1864.0γ)=100 5/93 5 is discrepant
12736.7	1868.2	E(γ): other: 1864.0 3 from (³²S,2αpγ) is discrepant
12832.6	1924.8	E(γ): correspond to the 1921.9γ+1924.3γ doublet for a peak structure at around 1922 reported by 2001We11 in (³²S,2αpγ). No doublet around this energy is reported by 2021Ru07 in (²⁸Si,αpγ). See more detailed comments regarding this γ doublet as well as a level doublet of 12831⁺12832 reported by 2001We11 from placements of the doublet transitions.
14463.8	1631.1	E(γ): weighted average of 1631.9 8 from (²⁸Si,αpγ) and 1631.0 2 from (³²S,2αpγ)
16754.6	2213.0	E(γ): from (³²S,2αpγ), placed by 2001We11 as the only transition from a 13039 level which is not confirmed by 2021Ru07 in (²⁸Si,αpγ). Other: 2214.2 20 from (²⁸Si,αpγ).