ADOPTED LEVELS, GAMMAS for ¹²¹Te

Author: S. Ohya  Citation: Nucl. Data Sheets 111, 1619 (2010)  Cutoff date: 20-Jan-2009

Full ENSDF file

Q(β-)=-2.29E3 keV 3	S(n)= 7.25E3 keV 3	S(p)= 7.42E3 keV 3	Q(α)= -5.7E2 keV 3
Reference: 2012WA38

References:
A	121Te IT decay	B	121I ε decay
C	119Sn(α,2nγ),121Sb(d,2nγ)	D	114Cd(11B,p3nγ),
E	116Cd(9Be,4nγ)	F	122Te(p,d)
G	120Te(d,p)	H	122Te(3He,α)
I	122Te(pol d,t)	J	127I(μ-,NU6NG)
K	120Te(n,γ)

E(level) (keV)	XREF	Jπ(level)	T1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final level
0.0	ABC EFGHIJK	1/2+	19.17 d 4  % ε = 100
212.191 17	ABC EFGHIJK	3/2+	0.062 ns 15	212.19 3	100 2	M1+E2	0.0	1/2+
293.974 22	ABCDEFGHI K	11/2-	164.2 d 8  % IT = 88.6 11 % ε = 11.4 11	81.788 18	100	M4	212.191	3/2+
438.52 5	BCDE   I	(9/2)-		144.58 5	100	M1+E2	293.974	11/2-
443.11 3	BC EFGHI	7/2+	85.3 ns 5	230.95 5	100	E2	212.191	3/2+
475.243 23	BC EFGHI	5/2+		263.07 7     475.28 4	6.8 4    100 4	M1(+E2) (E2)	212.191      0.0	3/2+ 1/2+
532.052 24	BC EFG I	3/2+		56.8 1     319.90 4     532.08 4	0.97 8     15.4 7    100 4	[M1,E2] M1,E2 E2	475.243    212.191      0.0	5/2+ 3/2+ 1/2+
538.69 5	BC     I	7/2-		244.75 6	100	[E2]	293.974	11/2-
594.489 25	BC E GHI	5/2+		62.7 2     151.3 1     382.25 4     594.50 5	0.5 3      2.3 4    100 5     73 4	M1 (E2)	532.052    443.11    212.191      0.0	3/2+ 7/2+ 3/2+ 1/2+
614 5	F	3/2+,5/2+
660 20	H
681.28 6	B    G I	1/2+		469.18 7     681.1 1	100 6     27 3		212.191      0.0	3/2+ 1/2+
683.05 3	BC E   I	(7/2)+		207.81 7     239.9 1     470.83 4     683.10 7	17.6 2      2.9 7    100 6      8.6 6	D(+Q) Q	475.243    443.11    212.191      0.0	5/2+ 7/2+ 3/2+ 1/2+
698 10	F	3/2+,5/2+
756.1 6	I	(5/2)+
757.95 6	BC	(7/2-)		219.3 1     319.6 1     546.2 2 ?	100 10       39 7		538.69    438.52    212.191	7/2- (9/2)- 3/2+
806.69 5	B    GHI	3/2+		594.5 1     806.63 5	9.2 23    100 4		212.191      0.0	3/2+ 1/2+
810.92 3	B    GH	(5/2+,7/2+)		127.9 1     278.87 6     335.7 2     367.80 5     598.74 5     810.91 6	0.17 6      8.7 5      0.74 23      6.2 3    100 4      8.6 4	(M1)	683.05    532.052    475.243    443.11    212.191      0.0	(7/2)+ 3/2+ 5/2+ 7/2+ 3/2+ 1/2+
827 5	F	3/2+,5/2+
830.53 10	BC E	(9/2)+		387.4 1	100	M1+E2	443.11	7/2+
887.65 6	BC E   I	(7/2+)		293.27 6     412.0 1	100 5      8.1 14		594.489    475.243	5/2+ 5/2+
912.22 4	B     HI	5/2+		154.2 1     317.82 6     380.2 1     437.0 1     469.18 7     699.96 5	3.9 8     36 2      8.5 8      8.9 8     27 2    100 8		757.95    594.489    532.052    475.243    443.11    212.191	(7/2-) 5/2+ 3/2+ 5/2+ 7/2+ 3/2+
925.62 10	CDE	(15/2)-		631.6 1	100	E2	293.974	11/2-
925.7 7	G I	(5/2)-
941.0 8	F  I	3/2+,5/2+
970 20	H
975.27 9	CDE	(13/2)-		536.6 4     681.3 1	29 1    100 3	(E2) M1+E2	438.52    293.974	(9/2)- 11/2-
994.02 4	B      I	3/2+,5/2+		518.9 1     550.8 1     781.85 6     994.03 6	12 3     18 3     96 5    100 5	M1,E2	475.243    443.11    212.191      0.0	5/2+ 7/2+ 3/2+ 1/2+
1018.44 15	C EFG I	(9/2+)		543.2 2	100	(Q)	475.243	5/2+
1043.0 5	I	5/2+
1050.7 6	I	(5/2)-
1079.0 6	I
1080.29 10	C E	(11/2+)		249.8 2     637.2 1	4.7 12    100 5	(E2)	830.53    443.11	(9/2)+ 7/2+
1108.2 10	I	1/2+
1119.4 6	I	7/2+
1148.65 4	B    GHI	5/2+		554.2 1     673.34 6     705.5 1     936.44 5    1148.9 1	10.9 13     34.7 19     12.2 16    100 3     20.6 13	M1	594.489    475.243    443.11    212.191      0.0	5/2+ 5/2+ 7/2+ 3/2+ 1/2+
1161.6 5	I	(7/2+,9/2+)
1170.19 6	B   FGHI	3/2+,5/2+		487.1 1     957.96 7    1170.3 1	29 4    100 6    100 8		683.05    212.191      0.0	(7/2)+ 3/2+ 1/2+
1171.06 19	C EF	(9/2+)		283.3 2	100		887.65	(7/2+)
1172.86 5	B   F H	(5/2-,7/2+)		489.9 2     634.0 2     640.8 1     697.68 7     734.3 1	11 2     19 2    100 4     64 3     19 2		683.05    538.69    532.052    475.243    438.52	(7/2)+ 7/2- 3/2+ 5/2+ (9/2)-
1177.44 14	C E   I	(11/2-)		202.1 2     739.0 2     883.9 4	8 2    100 10     55 6		975.27    438.52    293.974	(13/2)- (9/2)- 11/2-
1185.58 10	B			502.5 1    1185.7 2	100 10     47 10		683.05      0.0	(7/2)+ 1/2+
1208.05 10	C E	(11/2+)		189.6 2     525.0 1	6 2    100 4	(E2)	1018.44    683.05	(9/2+) (7/2)+
1226.88 3	B      I	5/2+		420.2 3     543.5 1     632.2 1     688.1 1     694.89 5     751.65 7     783.8 2    1014.75 5    1226.9 1	4 2      5 1      8 1     13 10     79 4     18 1      5 1    100 4     13 1		806.69    683.05    594.489    538.69    532.052    475.243    443.11    212.191      0.0	3/2+ (7/2)+ 5/2+ 7/2- 3/2+ 5/2+ 7/2+ 3/2+ 1/2+
1251.5 7	FGHI	1/2+
1281.5 6	G I	1/2-
1306.34 4	B      I	3/2		548.62 9     711.69 7     831.2 1    1094.20 6    1306.25 6	30 3     41 3     32 3    100 5     94 5	(E1)	757.95    594.489    475.243    212.191      0.0	(7/2-) 5/2+ 5/2+ 3/2+ 1/2+
1324.65 12	B     H	(3/2+,5/2+)		849.7 2    1112.4 2    1324.4 2	82 18    100 18     82 9		475.243    212.191      0.0	5/2+ 3/2+ 1/2+
1340.63 5	B    G I	5/2+		802.1 1     808.3 2     865.35 7    1128.42 7	30 4     33 5     66 4    100 5		538.69    532.052    475.243    212.191	7/2- 3/2+ 5/2+ 3/2+
1363.96 4	B   FGHI	3/2+,5/2+		681.1 1     888.91 7    1151.57 7    1363.81 8	25 3     83 5    100 5     78 4		683.05    475.243    212.191      0.0	(7/2)+ 5/2+ 3/2+ 1/2+
1388.6 6	I
1400.2 7	I	5/2-
1404 6	G	1/2-,3/2-
1410.6 9	I
1419.47 12	C E	(13/2+)		339.2 1     588.8 2	22 2    100 3	D(+Q) (E2)	1080.29    830.53	(11/2+) (9/2)+
1437.18 6	B			443.3 1     626.3 1     754.2 2     842.5 1	100 9     81 13     34 6     75 9		994.02    810.92    683.05    594.489	3/2+,5/2+ (5/2+,7/2+) (7/2)+ 5/2+
1449 2	I
1473.2 3	E	(11/2+)		300.9 4     584.4 4	60   100		1172.86    887.65	(5/2-,7/2+) (7/2+)
1486.62 4	B   FG	(7/2)+		892.4 2     954.5 2    1011.23 6    1043.65 7    1274.47 9    1486.6 1	14.8 23     11.3 23    100 6     77 4     42 3     45 2		594.489    532.052    475.243    443.11    212.191      0.0	5/2+ 3/2+ 5/2+ 7/2+ 3/2+ 1/2+
1487.0 6	G I	(3/2)+
1505.0 6	I
1516 6	FGH	3/2+,5/2+
1517.2 5	GHI	5/2-
1540.19 13	B			628.2 2     857.0 3    1540.0 2	100 14     36 14     64 21		912.22    683.05      0.0	5/2+ (7/2)+ 1/2+
1551.2 6	G I	1/2-
1575.8 5	G I	3/2+,5/2+
1579 6	FG	(7/2+,9/2+)
1591.0 5	I	5/2-
1599.63 12	CDE	(17/2-)		624.3 3     674.0 1	62 4    100 3	(E2) (M1+E2)	975.27    925.62	(13/2)- (15/2)-
1607.4 4	E	(13/2+)		589.0 4	100	Q	1018.44	(9/2+)
1626.37 6	B    GH			1094.2 1    1151.6 1    1413.8 1	85 25    100 25     78 8		532.052    475.243    212.191	3/2+ 5/2+ 3/2+
1627.2 5	GHI	7/2-
1641.6 6	I
1654.32 13	CDE	(19/2)-		728.7 1	100	E2	925.62	(15/2)-
1657.2 8	I	(5/2-)
1669 10	F H	7/2+,9/2+
1680.6 5	GHI	1/2+
1681.03 5	B    GH	3/2,5/2+		768.80 9     870.1 1     874.1 1    1086.52 9    1469.1 1    1681.0 1	100 8     49 5     77 8     85 5     46 5     82 5		912.22    810.92    806.69    594.489    212.191      0.0	5/2+ (5/2+,7/2+) 3/2+ 5/2+ 3/2+ 1/2+
1693.4 5	I	5/2+
1703.0 6	F  I	7/2+,9/2+
1711.88 14	C E	(15/2+)		292.3 3     631.6 1	16 3    100 5		1419.47   1080.29	(13/2+) (11/2+)
1730.71 5	B    G	3/2,5/2+		1136.0 1    1198.78 7    1255.4 1    1518.5 1	30 2    100 6     41 4     26 2		594.489    532.052    475.243    212.191	5/2+ 3/2+ 5/2+ 3/2+
1739.6 6	I
1754.5 5	GHI	1/2+
1769.4 6	HI	(11/2)-
1771 10	F H	3/2+,5/2+
1789.3 3	E	(13/2+)		316.0 4     617.0 4	16 2    100 10		1473.2   1172.86	(11/2+) (5/2-,7/2+)
1806.0 7	GHI	1/2-
1806.77 21	C E	(15/2+)		199.4 4     598.7 2	1.5 2    100 10	(Q)	1607.4   1208.05	(13/2+) (11/2+)
1823.3 3	E	(17/2-)		848.4 4     897.3 4	78 7    100 10	(Q) D(+Q)	975.27    925.62	(13/2)- (15/2)-
1824.2 7	HI	(9/2)-
1832.0 5	GHI	3/2+,5/2+
1841.6 6	I	3/2+
1851.44 17	C			674.0 1	100		1177.44	(11/2-)
1854.9 5	F  I	1/2+
1869.6 5	G I	1/2-
1879.5 6	I	3/2+
1886.8 6	I	1/2-
1900.0 7	I	3/2+,5/2+
1913.23 12	B   F			686.2 2     764.7 2    1438.0 2	79 14    100 14    100 14		1226.88   1148.65    475.243	5/2+ 5/2+ 5/2+
1920.1 5	F  I	3/2+
1943 6	G
1953.1 5	I	1/2+
1973.2 5	I	3/2+
1989.5 6	G I	3/2+,5/2+
1994.0 3	E	(15/2-)		817.0 4    1068.0 4	100 10     71 7	D(+Q)	1177.44    925.62	(11/2-) (15/2)-
1995.4 6	I	(5/2-)
2005.9 7	I
2016.05 14	CDE	(21/2)-		361.7 1     416.4 1	100 1     20 1	M1+E2 (E2)	1654.32   1599.63	(19/2)- (17/2-)
2026.0 6	I	(3/2)+
2046.2 15	HI	(5/2)-
2049 6	GH	1/2-,3/2-
2059.3 6	F  I	7/2+,9/2+
2070.36 22	C E	(17/2+)		358.7 2 ?    650.9 2	19 5    100 7	Q	1711.88   1419.47	(15/2+) (13/2+)
2077.1 7	G I	(-)
2106.4 7	I	(3/2+,5/2+)
2112.3 6	G I	3/2-
2119.1 4	E	(15/2+)		330.4 4     645.3 4	39   100		1789.3   1473.2	(13/2+) (11/2+)
2129.1 6	I	(11/2)-
2136.4 9	I	(9/2)-
2143 10	F	7/2+,9/2+
2146 6	G	(3/2+,5/2,7/2-)
2149.1 6	I	1/2+
2169.5 6	I
2187.8 6	G I	(3/2)+
2215.9 6	I	3/2+,5/2+
2236.1 5	I	3/2+,5/2+
2247.8 5	G I	1/2-
2281.55 17	C	(23/2+)		265.5 1	100	(E1+M2)	2016.05	(21/2)-
2284.3 6	G I	5/2+
2292.5 6	I	3/2+,5/2+
2310 10	F	+
2317.5 15	I	11/2-
2332.21 16	CDE	(23/2)-		316.1 1     677.8 3	100 3     43 4	M1+E2 Q	2016.05   1654.32	(21/2)- (19/2)-
2339.3 8	G I	3/2+,5/2+
2360.1 6	I	3/2+,5/2+
2376 6	G	3/2+,5/2+
2389.4 7	I	3/2+
2396.1 5	E	(17/2+)		788.7 4	100	Q	1607.4	(13/2+)
2406.8 8	G I	11/2-
2414.7 6	FG I	7/2+,9/2+
2422.2 5	E	(21/2-)		598.9 4	100		1823.3	(17/2-)
2426.5 7	I	1/2-
2441 6	G	(5/2-,7/2-)
2456.9 5	F  I	3/2+,5/2+
2469.8 4	E	(19/2+)		399.5 4     757.9 4	7.8 14    100 10	Q	2070.36   1711.88	(17/2+) (15/2+)
2486 6	G	(5/2-,7/2-)
2516.2 5	I	1/2-
2536.8 7	G I	(1/2-,3/2-)
2548 10	FG
2549.9 6	I	3/2+
2568.8 8	G I	1/2+
2582.6 5	E	(19/2+)		775.8 4	100	Q	1806.77	(15/2+)
2600.2 7	G I
2611.7 7	F  I	(3/2)+
2630.2 9	F  I
2641.5 7	I	(5/2)+
2679.5 3	E	(19/2-)		856.2 4    1025.0 4    1079.9 4	97 9     61 6    100 10	D(+Q)	1823.3   1654.32   1599.63	(17/2-) (19/2)- (17/2-)
2716.96 23	DE	(23/2-)		384.4 3     700.9 4    1063.1 4	24 3     42 4    100 10	D(+Q) D(+Q) Q	2332.21   2016.05   1654.32	(23/2)- (21/2)- (19/2)-
2725 6	G
2854.1 3	E	(19/2-)		860.3 4    1200.1 4	100 11     81 8		1994.0   1654.32	(15/2-) (19/2)-
2857 6	G
2896 6	G
2915.0 5	E	(21/2+)		844.6 4	100	Q	2070.36	(17/2+)
2933 6	G
2937.0 5	E	(21/2-)		257.7 4	100	D(+Q)	2679.5	(19/2-)
2952.73 25	CDE	(23/2,25/2)		621.3 4     936.8 3	24 2    100 10	D,Q	2332.21   2016.05	(23/2)- (21/2)-
2966 6	G	(1/2-,3/2-)
2996.5 5	E	(21/2)		1342.2 4	100	D	1654.32	(19/2)-
3027 6	G
3057 6	G
3073.2 7	E	(25/2-)		651.0 4	100		2422.2	(21/2-)
3136.45 21	DE	(25/2-)		419.4 3     804.1 3    1120.3 3	18 2     26 3    100 3	D(+Q) D(+Q) Q	2716.96   2332.21   2016.05	(23/2-) (23/2)- (21/2)-
3228.9 7	E	(21/2+)		832.8 4	100		2396.1	(17/2+)
3255.0 5	E	(23/2-)		318.1 4     575.4 4	100 10     12 2		2937.0   2679.5	(21/2-) (19/2-)
3320.8 6	E	(23/2+)		851.0 4	100	Q	2469.8	(19/2+)
3321.0 5	E	(23/2)		1304.9 4	100	D	2016.05	(21/2)-
3389.0 6	E	(23/2+)		806.4 4	100	Q	2582.6	(19/2+)
3401.8 3	DE	(27/2-)		265.4 3    1069.4 3	72 7    100 10	D(+Q) Q	3136.45   2332.21	(25/2-) (23/2)-
3423.8 4	E	(23/2-)		570.1 4    1091.1 4	57 6    100 10	D(+Q)	2854.1   2332.21	(19/2-) (23/2)-
3432 6	G
3443.1 6	E			446.6 4	100		2996.5	(21/2)
3461 6	G
3496 6	G
3536 6	G
3594.8 6	E			273.8 4	100		3321.0	(23/2)
3613 6	G
3642.6 5	E	(25/2-)		387.5 4     705.7 4	100 10     39 4		3255.0   2937.0	(23/2-) (21/2-)
3655.4 5	E	(27/2-)		1323.2 4	100	Q	2332.21	(23/2)-
3671.2 3	DE	(27/2,29/2)		533.3 4     719.0 3	14 2    100 10	Q	3136.45   2952.73	(25/2-) (23/2,25/2)
3715 6	G
3779.2 6	E	(25/2+)		864.2 4	100	Q	2915.0	(21/2+)
3834.0 5	E			881.3 4	100		2952.73	(23/2,25/2)
3935.3 3	D	(29/2)		532.7 3	100	D	3401.8	(27/2-)
3936.9 5	E			265.7 4	100 10		3671.2	(27/2,29/2)
3956 6	G
4083.1 5	E	(27/2-)		440.4 4     828.2 4	100 10     30 3		3642.6   3255.0	(25/2-) (23/2-)
4146.8 7	E	(27/2+)		826.0 4	100		3320.8	(23/2+)
4188.0 6	E	(27/2-)		764.2 4	100		3423.8	(23/2-)
4238.2 3	DE	(29/2-)		1102.2 3	100	Q	3136.45	(25/2-)
4372.4 4	DE	(31/2-)		971.0 3	100	Q	3401.8	(27/2-)
4411.3 4	DE	(31/2)		740.1 3	100	D,Q	3671.2	(27/2,29/2)
4442.7 5	E			1040.9 4	100		3401.8	(27/2-)
4520.2 4	D			848.9 3    1120 1	100 16     30 6		3671.2   3401.8	(27/2,29/2) (27/2-)
4785.2 3	DE	(33/2-)		264.9 3     373.7 3     547.4 3     849.5 2	25 6     38 4    100 10     51 5	(D) Q	4520.2   4411.3   4238.2   3935.3	(31/2) (29/2-) (29/2)
4898.4 4	DE	(33/2)		487.2 3	100	D	4411.3	(31/2)
5012.7 6	E			601.4 4	100		4411.3	(31/2)
5020.7 4	DE	(35/2)		122.4 4     609.3 3	6 6    100 14	Q	4898.4   4411.3	(33/2) (31/2)
5179.3 4	DE	(35/2-)		393.6 3     807.2 3	100 5     37 10	D Q	4785.2   4372.4	(33/2-) (31/2-)
5281.2 7	E			838.5 4	100		4442.7
5308.6 4	DE			936.2 3	100		4372.4	(31/2-)
5503.5 6	E			1131.1 4	100		4372.4	(31/2-)
5533.4 4	DE	(39/2-)		224.9 3     354.1 3	12 2    100 10	Q	5308.6   5179.3	(35/2-)
5689.1 4	DE	(37/2)		509.8 3     668.5 3	100 10     32 6	D	5179.3   5020.7	(35/2-) (35/2)
5906.5 5	D	(39/2)		217.4 3	100	D	5689.1	(37/2)
6545.2 6	D	(41/2)		638.7 3	100	D	5906.5	(39/2)
6774.1 5	D	(43/2-)		1240.7 3	100	(Q)	5533.4	(39/2-)
7059.8 7	D	(43/2-)		514.5 3	100	D	6545.2	(41/2)
7061.8 6	D	(47/2)		287.7 3	100	Q	6774.1	(43/2-)
7106.9 7	D			561.8 3	100		6545.2	(41/2)
7671.2 7	D			564.3 3     611.0 7	100 20     71 14		7106.9   7059.8	(43/2-)
7683.6 7	D			576.6 3	100		7106.9
8292.5 7	D	(51/2-)		1230.7 3	100	Q	7061.8	(47/2)
8583.2 8	D			912.0 3	100	D	7671.2
E(level): E(levels) with γ decay are from least-squares fit to Eγ’s Jπ(level): From rotational band arguments based on shell model configurations; band structures evidenced from M1, M1+E2 (d(+Q)) cascades, and E2(Q) cross over transitions, and available information from in-beam studies, except where noted otherwise E(γ): From 121I ε+β+ decay; others from 119Sn(α,2nγ),121Sb((d,2nγ), 114Cd(11B,p3nγ), 116Cd(9Be,4nγ) I(γ): From 121I ε+β+ decay, 119Sn(α,2nγ); upper limits are given for multiply placed transitions. M(γ): From α in 121I ε+β+ decay; α, γ(θ), linear polarization in 119Sn(α,2nγ),121Sb((d,2nγ); DCO ratio in 114Cd(11B,p3nγ) and in 116Cd(9Be,4nγ)

Additional Gamma data:

E(level) (keV)	E(γ) (keV)	Multipolarity	Mixing Ratio	Additional Data
212.191	212.19 3	M1+E2	+0.226 8	B(E2)(W.u.)=27 7, B(M1)(W.u.)=0.033 8, α=0.0869 1, α(K)=0.0747 11, α(L)=0.00982 14, α(M)=0.00196 3, α(N)=0.000387 6, α(O)=4.16E-5 6, α(N+)=0.000429 7
293.974	81.788 18	M4		B(M4)(W.u.)=3.18 7, α=1735, α(K)=677 10, α(L)=820 12, α(M)=197 3, α(N)=37.9 6, α(O)=3.25 5, α(N+)=41.2 6
438.52	144.58 5	M1+E2	-0.29 10	α=0.259 13, α(K)=0.220 9, α(L)=0.031 4, α(M)=0.0063 7, α(N)=0.00124 13, α(O)=0.000130 11, α(N+)=0.00137 14
443.11	230.95 5	E2		B(E2)(W.u.)=0.2602 16, α=0.0918, α(K)=0.0749 11, α(L)=0.01353 19, α(M)=0.00276 4, α(N)=0.000530 8, α(O)=5.07E-5 8, α(N+)=0.000581 9
475.243	263.07 7	M1(+E2)		α=0.054 6, α(K)=0.045 4, α(L)=0.0068 16, α(M)=0.0014 4, α(N)=0.00027 6, α(O)=2.7E-5 5, α(N+)=0.00029 7
	475.28 4	(E2)		α=0.00942 14, α(K)=0.00801 12, α(L)=0.001134 16, α(M)=0.000228 4, α(N)=4.45E-5 7, α(O)=4.60E-6 7, α(N+)=4.91E-5 7
532.052	56.8 1	[M1,E2]		α=8 5, α(K)=4.6 16, α(L)=2.9 25, α(M)=0.6 6, α(N)=0.11 10, α(O)=0.009 8, α(N+)=0.12 11
	319.90 4	M1,E2		α=0.0302 13, α(K)=0.0256 7, α(L)=0.0036 5, α(M)=0.00073 11, α(N)=0.000143 20, α(O)=1.49E-5 14, α(N+)=0.000158 21
	532.08 4	E2		α=0.00686 10, α(K)=0.00585 9, α(L)=0.000808 12, α(M)=0.0001621 23, α(N)=3.17E-5 5, α(O)=3.31E-6 5, α(N+)=3.50E-5 5
538.69	244.75 6	[E2]		α=0.0755, α(K)=0.0619 9, α(L)=0.01089 16, α(M)=0.00222 4, α(N)=0.000427 6, α(O)=4.11E-5 6, α(N+)=0.000468 7
594.489	382.25 4	M1		α=0.0184, α(K)=0.01589 23, α(L)=0.00199 3, α(M)=0.000396 6, α(N)=7.84E-5 11, α(O)=8.55E-6 12, α(N+)=8.70E-5 13
	594.50 5	(E2)		α=0.00508 8, α(K)=0.00435 6, α(L)=0.000588 9, α(M)=0.0001177 17, α(N)=2.31E-5 4, α(O)=2.42E-6 4, α(N+)=2.55E-5 4
683.05	207.81 7	D(+Q)		α=0.111 21
810.92	278.87 6	(M1)		α=0.0413, α(K)=0.0357 5, α(L)=0.00451 7, α(M)=0.000900 13, α(N)=0.0001781 25, α(O)=1.94E-5 3, α(N+)=0.000197 3
830.53	387.4 1	M1+E2	-4.6 6	α=0.01728, α(K)=0.01459 21, α(L)=0.00216 3, α(M)=0.000435 7, α(N)=8.47E-5 12, α(O)=8.62E-6 12, α(N+)=9.33E-5 14
925.62	631.6 1	E2		α=0.00433 6, α(K)=0.00372 6, α(L)=0.000497 7, α(M)=9.94E-5 14, α(N)=1.95E-5 3, α(O)=2.06E-6 3, α(N+)=2.16E-5 3
975.27	536.6 4	(E2)		α=0.00670 10, α(K)=0.00572 8, α(L)=0.000789 12, α(M)=0.0001581 23, α(N)=3.10E-5 5, α(O)=3.23E-6 5, α(N+)=3.42E-5 5
	681.3 1	M1+E2		α=0.0040 5, α(K)=0.0035 4, α(L)=0.00044 4, α(M)=8.8E-5 7, α(N)=1.73E-5 15, α(O)=1.86E-6 19, α(N+)=1.92E-5 16
994.02	994.03 6	M1,E2		α=0.00166 20, α(K)=0.00144 18, α(L)=0.000177 19, α(M)=3.5E-5 4, α(N)=7.0E-6 8, α(O)=7.6E-7 9, α(N+)=7.7E-6 9
1080.29	637.2 1	(E2)		α=0.00424 6, α(K)=0.00363 5, α(L)=0.000485 7, α(M)=9.70E-5 14, α(N)=1.90E-5 3, α(O)=2.01E-6 3, α(N+)=2.10E-5 3
1148.65	936.44 5	M1		α=0.00212 3, α(K)=0.00185 3, α(L)=0.000224 4, α(M)=4.46E-5 7, α(N)=8.83E-6 13, α(O)=9.68E-7 14, α(N+)=9.80E-6 14
1208.05	525.0 1	(E2)		α=0.00712 10, α(K)=0.00607 9, α(L)=0.000841 12, α(M)=0.0001686 24, α(N)=3.30E-5 5, α(O)=3.43E-6 5, α(N+)=3.64E-5 6
1306.34	711.69 7	(E1)		α=0.001210 17, α(K)=0.001053 15, α(L)=0.0001266 18, α(M)=2.51E-5 4, α(N)=4.96E-6 7, α(O)=5.38E-7 8, α(N+)=5.49E-6
1419.47	588.8 2	(E2)		α=0.00521 8, α(K)=0.00446 7, α(L)=0.000604 9, α(M)=0.0001209 17, α(N)=2.37E-5 4, α(O)=2.49E-6 4, α(N+)=2.62E-5 4
1599.63	624.3 3	(E2)		α=0.00447 7, α(K)=0.00383 6, α(L)=0.000513 8, α(M)=0.0001026 15, α(N)=2.01E-5 3, α(O)=2.12E-6 3, α(N+)=2.23E-5 4
	674.0 1	(M1+E2)	-1.0 4	α=0.00412 22, α(K)=0.00356 20, α(L)=0.000452 18, α(M)=9.0E-5 4, α(N)=1.78E-5 8, α(O)=1.91E-6 9, α(N+)=1.97E-5 8
1654.32	728.7 1	E2		α=0.00302 5, α(K)=0.00260 4, α(L)=0.000339 5, α(M)=6.77E-5 10, α(N)=1.332E-5 19, α(O)=1.415E-6 20, α(N+)=1.474E-5 21
2016.05	361.7 1	M1+E2	-0.15 4	α=0.0211, α(K)=0.0183 3, α(L)=0.00230 4, α(M)=0.000459 7, α(N)=9.07E-5 13, α(O)=9.87E-6 14, α(N+)=0.0001006 15
	416.4 1	(E2)		α=0.01388, α(K)=0.01174 17, α(L)=0.001717 24, α(M)=0.000346 5, α(N)=6.74E-5 10, α(O)=6.88E-6 10, α(N+)=7.42E-5 11
2281.55	265.5 1	(E1+M2)	-0.03 7	α=0.0133 19, α(K)=0.0115 16, α(L)=0.00143 25, α(M)=0.00028 5, α(N)=5.6E-5 10, α(O)=5.9E-6 11, α(N+)=6.2E-5 11
2332.21	316.1 1	M1+E2	-0.06 4	α=0.0298, α(K)=0.0258 4, α(L)=0.00325 5, α(M)=0.000648 10, α(N)=0.0001283 19, α(O)=1.397E-5 20, α(N+)=0.0001423 21

Additional Level data and comments:

E(level)	Comments
0.0	CONF=(N,3S1/2) Jπ(level): L=0 in (d,p), (3He,α). T1/2(level): from weighted average of 19.16 d 5 (1995Si30) and 19.2 d 1 (2008Ea01); others: 16.78 d 35 (1973Ka45), 17 d 1 (1963Bh04,1946Ed03).
212.191	E(level): BUILT ON 2d3/2. Jπ(level): L=2 in (d,p), (3He,α),(pol d,t); M1+E2 γ to 1/2+. T1/2(level): from (ce 82γ)(ce 212γ)(t) in IT decay (1963Sc12).
293.974	μ=0.895 10, CONF=(N,1H11/2) E(level): BUILT ON 1h11/2. Jπ(level): L=5 in (d,p),(pol d,t); M4 γ to 3/2+. T1/2(level): from 2008Ea01. Others: 154 d {7 (1963Bh04), 125 d (1940Se01), 143 d 5 (1946Ed03), 140 d (1951Co34), 154 d (1951Hi80).
438.52	E(level): BUILT ON 1h11/2. Jπ(level): from (pol d,t). J=9/2 is consistent with band structure.
443.11	μ=+0.738 10 E(level): BUILT ON 1g7/2. Jπ(level): E2 γ to 3/2+; L=4 in (p,d),(pol d,t), J=7/2 is consistent with band structure. T1/2(level): from γ(t) (1980Io01).
475.243	CONF=(N,2D5/2) E(level): BUILT ON 2d3/2. Jπ(level): from (pol d,t) band structure.
532.052	Jπ(level): from (pol d,t).
538.69	E(level): BUILT ON 1h11/2. Jπ(level): L=3 in (pol d,t), γ to 11/2-.
594.489	E(level): BUILT ON 2d5/2. Jπ(level): from (pol d,t).
614	Jπ(level): L=2 in (p,d).
681.28	XREF: I(678.2). E(level): Jπ(level): L=0 in (d,p).
683.05	E(level): BUILT ON 2d3/2. Jπ(level): from (pol d,t).
698	Jπ(level): L=2 in (p,d).
756.1	Jπ(level): from (pol d,t).
806.69	Jπ(level): from (pol d,t).
810.92	Jπ(level): (M1) γ to 3/2+,5/2+; log ft=6.5 from 5/2+.
827	Jπ(level): L=2 in (p,d).
830.53	E(level): BUILT ON 1g7/2.
887.65	E(level): BUILT ON 2d5/2.
912.22	Jπ(level): from (pol d,t).
925.62	E(level): BUILT ON 1h11/2.
925.7	Jπ(level): from (pol d,t).
941.0	Jπ(level): L=2 in (p,d).
975.27	E(level): BUILT ON 1h11/2.
994.02	Jπ(level): from (pol d,t).
1018.44	E(level): BUILT ON 2d3/2. Jπ(level): L=4 in (p,d), band structure; however, L=(5) in (pol d,t).
1043.0	Jπ(level): from (pol d,t).
1050.7	Jπ(level): from (pol d,t).
1080.29	E(level): BUILT ON 1g7/2.
1108.2	Jπ(level): from (pol d,t).
1119.4	Jπ(level): from (pol d,t).
1148.65	Jπ(level): from (pol d,t).
1161.6	Jπ(level): from (pol d,t).
1170.19	Jπ(level): from (pol d,t).
1171.06	E(level): BUILT ON 2d5/2. Jπ(level): L=4 component in (p,d) and band argument.
1172.86	Jπ(level): γ’s to 3/2+ and (9/2)-.
1177.44	E(level): γ vibrational band on 1h11/2.
1208.05	E(level): BUILT ON 2d3/2.
1226.88	Jπ(level): from (pol d,t).
1251.5	Jπ(level): L=0 in (d,p).
1281.5	Jπ(level): from (pol d,t).
1306.34	Jπ(level): 3/2+ from (pol d,t), however 711.69 keV (E1) transition to 5/2+ in ε decay suggests 3/2-.
1324.65	Jπ(level): L=(2) in (3He,α).
1340.63	Jπ(level): from (pol d,t).
1363.96	Jπ(level): from (pol d,t).
1400.2	Jπ(level): from (pol d,t).
1404	Jπ(level): L=1 in (d,p).
1419.47	E(level): BUILT ON 1g7/2.
1449	E(level): doublet (1447+1451).
1473.2	E(level): BUILT ON 2d5/2.
1486.62	Jπ(level): L=4 in (p,d); log ft=6.8 from 5/2+.
1487.0	Jπ(level): from (pol d,t).
1516	Jπ(level): L=2 in (p,d).
1517.2	Jπ(level): from (pol d,t).
1551.2	Jπ(level): from (pol d,t).
1575.8	Jπ(level): from (pol d,t).
1579	Jπ(level): L=(4) in (p,d).
1591.0	Jπ(level): from (pol d,t).
1599.63	E(level): BUILT ON 1h11/2.
1607.4	E(level): BUILT ON 2d3/2.
1627.2	Jπ(level): from (pol d,t).
1641.6	Jπ(level): from (pol d,t).
1654.32	E(level): BUILT ON 1h11/2.
1657.2	E(level): doublet (1655+1660). Jπ(level): from (pol d,t).
1669	Jπ(level): L=4 in (p,d).
1680.6	Jπ(level): from (pol d,t).
1681.03	Jπ(level): log ft=6.8 from 5/2+; γ to 1/2+.
1693.4	Jπ(level): from (pol d,t).
1703.0	Jπ(level): from (pol d,t).
1711.88	E(level): BUILT ON 1g7/2.
1730.71	Jπ(level): log ft=6.7 from 5/2+; γ to 1/2+.
1754.5	Jπ(level): from (pol d,t).
1769.4	Jπ(level): from (pol d,t).
1771	Jπ(level): L=2 in (p,d).
1789.3	E(level): BUILT ON 2d5/2.
1806.0	Jπ(level): from (pol d,t).
1806.77	E(level): BUILT ON 2d3/2.
1824.2	Jπ(level): from (pol d,t).
1832.0	Jπ(level): L=2 in (d,p).
1841.6	Jπ(level): from (pol d,t).
1854.9	Jπ(level): from (pol d,t).
1869.6	Jπ(level): from (pol d,t).
1879.5	Jπ(level): from (pol d,t).
1886.8	Jπ(level): from (pol d,t).
1900.0	Jπ(level): from (pol d,t).
1920.1	Jπ(level): from (pol d,t).
1953.1	Jπ(level): from (pol d,t).
1973.2	Jπ(level): from (pol d,t).
1989.5	Jπ(level): from (pol d,t).
1994.0	E(level): γ vibrational band on 1h11/2.
1995.4	Jπ(level): from (pol d,t).
2016.05	Probable admixture of non-collective configuration=((π 1g7/2)+26+(ν 1h11/2)), Jπ=21/2-. E(level): BUILT ON 1h11/2.
2026.0	Jπ(level): from (pol d,t).
2046.2	Jπ(level): from (pol d,t).
2049	Jπ(level): L=1 in (d,p).
2059.3	Jπ(level): L=4 in (p,d).
2070.36	E(level): BUILT ON 1g7/2.
2077.1	Jπ(level): L=(3) in (d,p),L=(5) in (pol d,t).
2106.4	Jπ(level): from (pol d,t).
2112.3	Jπ(level): from (pol d,t).
2119.1	E(level): BUILT ON 2d5/2.
2129.1	Jπ(level): from (pol d,t).
2136.4	Jπ(level): from (pol d,t).
2143	Jπ(level): L=4 in (p,d).
2146	Jπ(level): L=(2,3) in (d,p).
2149.1	Jπ(level): from (pol d,t).
2187.8	Jπ(level): from (pol d,t).
2215.9	Jπ(level): from (pol d,t).
2236.1	Jπ(level): from (pol d,t).
2247.8	Jπ(level): from (pol d,t).
2281.55	Jπ(level): E1 γ to (21/2)-.
2284.3	Jπ(level): from (pol d,t).
2292.5	Jπ(level): from (pol d,t).
2310	Jπ(level): L=2+4 in (p,d).
2317.5	Jπ(level): from (pol d,t).
2332.21	Probable admixture of non-collective configuration=((π 1g7/2)+26+(ν 1h11/2)), Jπ=23/2-. E(level): BUILT ON 1h11/2.
2339.3	Jπ(level): L=2 in (d,p) and (pol d,t).
2360.1	Jπ(level): from (pol d,t).
2376	Jπ(level): L=2 in (d,p).
2389.4	Jπ(level): from (pol d,t).
2396.1	E(level): BUILT ON 2d3/2.
2406.8	Jπ(level): from (pol d,t).
2414.7	Jπ(level): L=4 in (p,d).
2426.5	Jπ(level): from (pol d,t).
2441	Jπ(level): L=(3) in (d,p).
2456.9	Jπ(level): from (pol d,t).
2469.8	E(level): BUILT ON 1g7/2.
2486	Jπ(level): L=(3) in (d,p).
2516.2	Jπ(level): from (pol d,t).
2536.8	Jπ(level): from (pol d,t).
2549.9	Jπ(level): from (pol d,t).
2568.8	Jπ(level): from (pol d,t).
2582.6	E(level): BUILT ON 2d3/2.
2611.7	Jπ(level): from (pol d,t).
2641.5	Jπ(level): from (pol d,t).
2679.5	E(level): BUILT ON (19/2-) LEVEL.
2716.96	E(level): BUILT ON 1h11/2.
2854.1	E(level): γ vibrational band on 1h11/2.
2915.0	E(level): BUILT ON 1g7/2.
2937.0	E(level): BUILT ON (19/2-) LEVEL.
2952.73	E(level): 3QUASI-PARTICLE CONFIGURATION. Jπ(level): 25/2- assigned in 114Cd(11B,p3nγ) from mult.(939γ)=(E1), while 23/2+ assigned in 116Cd(9Be,4nγ) from mult.(937γ)=(E2).
2966	Jπ(level): L=(1) in (d,p).
3136.45	E(level): BUILT ON 1h11/2.
3228.9	E(level): BUILT ON 2d3/2.
3255.0	E(level): BUILT ON (19/2-) LEVEL.
3320.8	E(level): BUILT ON 1g7/2.
3389.0	E(level): BUILT ON 2d3/2.
3401.8	E(level): BUILT ON 1h11/2.
3423.8	E(level): γ vibrational band on 1h11/2.
3642.6	E(level): BUILT ON (19/2-) LEVEL.
3671.2	E(level): 3QUASI-PARTICLE CONFIGURATION.
3779.2	E(level): BUILT ON 1g7/2.
4083.1	E(level): BUILT ON (19/2-) LEVEL.
4146.8	E(level): BUILT ON 1g7/2.
4188.0	E(level): γ vibrational band on 1h11/2.
4238.2	E(level): BUILT ON 1h11/2.
4372.4	E(level): BUILT ON 1h11/2.
4411.3	E(level): 3QUASI-PARTICLE CONFIGURATION.
4785.2	E(level): BUILT ON 1h11/2.
5012.7	E(level): 3QUASI-PARTICLE CONFIGURATION.
5020.7	E(level): 3QUASI-PARTICLE CONFIGURATION.
5179.3	Probable admixture of non-collective configuration=((π 1g7/2)+26+(ν 1h11/2)+325/2-), Jπ=35/2-. E(level): BUILT ON 1h11/2.
5533.4	Probable admixture of non-collective configuration=((π 1g7/2)+26+(ν 1h11/2)+327/2-), Jπ=39/2-. E(level): BUILT ON 1h11/2.
5689.1	E(level): BUILT ON 1h11/2.
5906.5	E(level): BUILT ON 1h11/2.
6545.2	E(level): BUILT ON 1h11/2.
6774.1	E(level): BUILT ON 1h11/2.
7059.8	E(level): BUILT ON 1h11/2.
7061.8	Probable admixture of non-collective configuration=((π 1g7/2)+26+(ν 1h11/2)+535/2-), Jπ=47/2-. E(level): BUILT ON 1h11/2.
7106.9	E(level): BUILT ON 1h11/2.
7671.2	E(level): BUILT ON 1h11/2.
7683.6	E(level): BUILT ON 1h11/2.
8292.5	E(level): BUILT ON 1h11/2.
8583.2	E(level): BUILT ON 1h11/2.

Additional Gamma comments:

E(level)	E(gamma)	Comments
475.243	263.07	M(γ): from d(+Q) and no parity change of relevant states
594.489	594.50	E(γ): Doublet in 121I ε+β+ decay; deduced from coincidence I(γ): Doublet in 121I ε+β+ decay; deduced from coincidence
681.28	469.18	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	681.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
683.05	239.9	E(γ): Doublet in 121I ε+β+ decay; deduced from coincidence I(γ): Doublet in 121I ε+β+ decay; deduced from coincidence
757.95	319.6	I(γ): No value given in 121I ε decay; doublet in both 121I ε+β+ decay and 119Sn(α,2nγ)
806.69	594.5	E(γ): Doublet in 121I ε+β+ decay; deduced from coincidence I(γ): Doublet in 121I ε+β+ decay; deduced from coincidence
810.92	127.9	E(γ): Doublet in 121I ε+β+ decay; deduced from coincidence I(γ): Doublet in 121I ε+β+ decay; deduced from coincidence
887.65	412.0	E(γ): Doublet in 121I ε+β+ decay; deduced from coincidence I(γ): Doublet in 121I ε+β+ decay; deduced from coincidence
912.22	469.18	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
975.27	681.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1148.65	705.5	E(γ): Doublet in 121I ε+β+ decay; deduced from coincidence I(γ): Doublet in 121I ε+β+ decay; deduced from coincidence
1363.96	681.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1599.63	674.0	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1851.44	674.0	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2952.73	936.8	M(γ): d(E1) assignment in 114Cd(11B,p3nγ) (1996Si24), while Q(E2) assignment in 116Cd(9Be,4nγ) (1996Pa11)
3136.45	419.4	I(γ): average of 22.6 45 (114Cd(11B,p3nγ)) and 15.2 15 (116Cd(9Be,4nγ))
	804.1	I(γ): average of 32.8 37 (114Cd(11B,p3nγ)) and 19.4 20 (116Cd(9Be,4nγ))
4411.3	740.1	M(γ): Q assignment in 114Cd(11B,p3nγ), while d(+Q) assignment in 116Cd(9Be,4nγ)
4785.2	373.7	I(γ): average of 48 7 (114Cd(11B,p3nγ)) and 38 6 (116Cd(9Be,4nγ))
5179.3	807.2	I(γ): average of 53 6 (114Cd(11B,p3nγ)) and 22 2 (116Cd(9Be,4nγ))
5533.4	224.9	I(γ): average of 12.8 23 (114Cd(11B,p3nγ)) and 11.3 19 (116Cd(9Be,4nγ))