List of levels for 155ER

Author: N. Nica | Citation: Nucl. Data Sheets 160, 1 (2019) | Cutoff date: 21-Oct-2019

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
88.08	5/2-,7/2-,9/2-		88.1 1	M1(+E2)	0.4 LT	4.14	α=4.14 8, α(K)=3.29 15, α(L)=0.66 15, α(M)=0.15 4, α(N)=0.035 8, α(O)=0.0047 9, α(P)=0.000202 11
151.63	-		63.5 1	M1(+E2)	0.13 LT	10.9	α=10.9 2
151.63	-		151.6 1	E2		0.649	α=0.649, α(K)=0.360 5, α(L)=0.222 4, α(M)=0.0534 8, α(N)=0.01212 18, α(O)=0.001461 21, α(P)=1.587×10^-5 23
226.79	9/2-		226.8 2	M1+E2		0.225	α=0.225 60, α(K)=0.176 64, α(L)=0.038 4, α(M)=0.0088 10, α(N)=0.00204 21, α(O)=0.000273 9, α(P)=1.01×10^-5 46
323.17	5/2-,7/2-,9/2-		171.5 2	E2(+M1)	4 GT	0.429	α=0.429 9, α(K)=0.261 9, α(L)=0.1292 25, α(M)=0.0309 7, α(N)=0.00703 14, α(O)=0.000859 16, α(P)=1.21×10^-5 7
323.17	5/2-,7/2-,9/2-		323.2 5	M1+E2		0.082	α=0.082 27, α(K)=0.067 26, α(L)=0.0122 13, α(M)=0.00277 23, α(N)=0.00064 6, α(O)=8.8×10^-5 13, α(P)=3.9E-6 18
398.63			247.0 2	E2(+M1)		0.1265	α=0.1265, α(K)=0.0879 13, α(L)=0.0297 5, α(M)=0.00702 10, α(N)=0.001602 23, α(O)=0.000202 3, α(P)=4.35×10^-6 7
467.00	-		315.2 2	E2(+M1)		0.0595	α=0.0595, α(K)=0.0440 7, α(L)=0.01194 17, α(M)=0.00279 4, α(N)=0.000638 9, α(O)=8.25×10^-5 12, α(P)=2.29E-6 4
467.00	-		379.1 2	M1(+E2)		0.0716	α=0.0716, α(K)=0.0604 9, α(L)=0.00881 13, α(M)=0.00195 3, α(N)=0.000454 7, α(O)=6.59×10^-5 10, α(P)=3.67E-6 6
563.3	13/2+	34.8 ns 6	31.5 1	E1		1.381	B(E1)(W.u.)=9.05E-5 20, α=1.381 23, α(L)=1.078 18, α(M)=0.242 4, α(N)=0.0540 9, α(O)=0.00641 11, α(P)=0.000188 3
1038.5	17/2+	< 26 ps	475.4	E2		0.0187	B(E2)(W.u.)>18, α=0.0187, α(K)=0.01484 21, α(L)=0.00303 5, α(M)=0.000694 10, α(N)=0.0001599 23, α(O)=2.15E-5 3, α(P)=8.17E-7 12
1572.7	21/2+	< 20 ps	534.2	E2		0.01390	B(E2)(W.u.)>13, α=0.01390, α(K)=0.01114 16, α(L)=0.00214 3, α(M)=0.000487 7, α(N)=0.0001123 16, α(O)=1.529E-5 22, α(P)=6.20E-7 9
2169.1	25/2+	< 6 ps	596.4	E2		0.01059	B(E2)(W.u.)>25, α=0.01059, α(K)=0.00858 12, α(L)=0.001563 22, α(M)=0.000354 5, α(N)=8.18E-5 12, α(O)=1.124E-5 16, α(P)=4.81E-7 7
2229.6	23/2+		656.9	M1+E2	+0.48 7	0.0157	α=0.0157 5, α(K)=0.0133 4, α(L)=0.00194 5, α(M)=0.000429 11, α(N)=0.0001000 25, α(O)=1.44×10^-5 4, α(P)=7.9E-7 3
2574.0	27/2+		344.4	E2		0.0458	α=0.0458, α(K)=0.0345 5, α(L)=0.00873 13, α(M)=0.00203 3, α(N)=0.000465 7, α(O)=6.06×10^-5 9, α(P)=1.82E-6 3
2574.0	27/2+		404.9	M1+E2	+0.32 1	0.0574	α=0.0574 9, α(K)=0.0482 7, α(L)=0.00718 11, α(M)=0.001592 23, α(N)=0.000371 6, α(O)=5.35×10^-5 8, α(P)=2.91E-6 5
2838.1	29/2+	< 13 ps	264.1	[M1]		0.188	B(M1)(W.u.)>0.00054, α=0.188, α(K)=0.1581 23, α(L)=0.0233 4, α(M)=0.00516 8, α(N)=0.001204 17, α(O)=0.0001744 25, α(P)=9.67×10^-6 14
2838.1	29/2+	< 13 ps	669.0	E2		0.00807	B(E2)(W.u.)>6.4, α=0.00807, α(K)=0.00660 10, α(L)=0.001145 16, α(M)=0.000258 4, α(N)=5.97E-5 9, α(O)=8.28E-6 12, α(P)=3.72E-7 6
3354.0	31/2+		515.9	[M1+E2]		0.0237	α=0.0237 86, α(K)=0.0196 76, α(L)=0.0031 8, α(M)=0.00070 17, α(N)=0.00016 4, α(O)=2.31×10^-5 63, α(P)=1.16E-6 49
3354.0	31/2+		780.0	E2		0.00570	α=0.00570, α(K)=0.00471 7, α(L)=0.000773 11, α(M)=0.0001733 25, α(N)=4.02×10^-5 6, α(O)=5.62E-6 8, α(P)=2.67E-7 4
3557.0	33/2+	< 12 ps	718.9	E2		0.00684	B(E2)(W.u.)>4.9, α=0.00684, α(K)=0.00562 8, α(L)=0.000950 14, α(M)=0.000213 3, α(N)=4.94E-5 7, α(O)=6.88E-6 10, α(P)=3.18E-7 5
4093.0	33/2-		739.0	[E1]		0.00245	α=0.00245, α(K)=0.00209 3, α(L)=0.000286 4, α(M)=6.27×10^-5 9, α(N)=1.455E-5 21, α(O)=2.09E-6 3, α(P)=1.135E-7 16
4219.2	35/2+		662.2	[M1+E2]		0.0127	α=0.0127 45, α(K)=0.0106 39, α(L)=0.00162 45, α(M)=3.61×10^-4 96, α(N)=8.4E-5 23, α(O)=1.20E-5 35, α(P)=6.2E-7 25
4219.2	35/2+		865.2	E2		0.00455	α=0.00455, α(K)=0.00378 6, α(L)=0.000601 9, α(M)=0.0001343 19, α(N)=3.11×10^-5 5, α(O)=4.39E-6 7, α(P)=2.15E-7 3
4288.0	37/2+	< 24 ps	731.0	E2		0.00659	B(E2)(W.u.)>2.3, α=0.00659, α(K)=0.00542 8, α(L)=0.000910 13, α(M)=0.000204 3, α(N)=4.73E-5 7, α(O)=6.60E-6 10, α(P)=3.07E-7 5
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
4444.4	37/2-		225.2	[E1]		0.0382	α=0.0382, α(K)=0.0322 5, α(L)=0.00473 7, α(M)=0.001045 15, α(N)=0.000241 4, α(O)=3.35×10^-5 5, α(P)=1.615E-6 23
4444.4	37/2-		351.4	E2		0.0432	α=0.0432, α(K)=0.0327 5, α(L)=0.00814 12, α(M)=0.00189 3, α(N)=0.000433 6, α(O)=5.66×10^-5 8, α(P)=1.729E-6 25
4787.9	39/2+		499.9	M1+E2	+0.14 5	0.0346	α=0.0346 6, α(K)=0.0291 5, α(L)=0.00423 7, α(M)=0.000934 15, α(N)=0.000218 4, α(O)=3.16×10^-5 5, α(P)=1.76E-6 3
4787.9	39/2+		568.7	E2		0.01190	α=0.01190, α(K)=0.00960 14, α(L)=0.00179 3, α(M)=0.000405 6, α(N)=9.36×10^-5 14, α(O)=1.281E-5 18, α(P)=5.36E-7 8
4928.2	41/2+	< 18 ps	640.1	E2		0.00895	B(E2)(W.u.)>5.8, α=0.00895, α(K)=0.00729 11, α(L)=0.001288 18, α(M)=0.000291 4, α(N)=6.73E-5 10, α(O)=9.29E-6 13, α(P)=4.11E-7 6
5012.4	43/2+	0.90 ns	84.2	E2+M1	-4.3 4	5.65	B(E2)(W.u.)=358 22, B(M1)(W.u.)=0.00026 5, α=5.65, α(K)=1.67 4, α(L)=3.05 5, α(M)=0.742 13, α(N)=0.168 3, α(O)=0.0196 4, α(P)=7.52E-5 21
5012.4	43/2+	0.90 ns	224.5	E2		0.1720	B(E2)(W.u.)=3.12, α=0.1720, α(K)=0.1159 17, α(L)=0.0433 6, α(M)=0.01025 15, α(N)=0.00234 4, α(O)=0.000292 4, α(P)=5.61E-6 8
5122.6	41/2-		334.7	[E1]		0.01418	α=0.01418, α(K)=0.01198 17, α(L)=0.001717 24, α(M)=0.000378 6, α(N)=8.76×10^-5 13, α(O)=1.235E-5 18, α(P)=6.25E-7 9
5122.6	41/2-		678.2	E2		0.00782	α=0.00782, α(K)=0.00640 9, α(L)=0.001105 16, α(M)=0.000249 4, α(N)=5.76×10^-5 8, α(O)=7.99E-6 12, α(P)=3.61E-7 5
5479.0	45/2+	< 21 ps	466.6	M1+E2	+0.35 3	0.0393	B(E2)(W.u.)>2.2, B(M1)(W.u.)>0.0086, α=0.0393 7, α(K)=0.0330 6, α(L)=0.00489 8, α(M)=0.001084 17, α(N)=0.000253 4, α(O)=3.64E-5 6, α(P)=1.99E-6 4
5786.0	47/2+		307.0	M1+E2	+0.04 2	0.1253	α=0.1253, α(K)=0.1054 15, α(L)=0.01549 22, α(M)=0.00343 5, α(N)=0.000800 12, α(O)=0.0001158 17, α(P)=6.43×10^-6 9
5786.0	47/2+		773.4	E2		0.00581	α=0.00581, α(K)=0.00480 7, α(L)=0.000790 11, α(M)=0.0001770 25, α(N)=4.10×10^-5 6, α(O)=5.74E-6 8, α(P)=2.72E-7 4
5851.7	45/2-		729.1	E2		0.00663	α=0.00663, α(K)=0.00545 8, α(L)=0.000916 13, α(M)=0.000206 3, α(N)=4.77×10^-5 7, α(O)=6.64E-6 10, α(P)=3.09E-7 5
5851.7	45/2-		839.3	[E1]		0.00191	α=0.00191, α(K)=0.001625 23, α(L)=0.000221 3, α(M)=4.85×10^-5 7, α(N)=1.126E-5 16, α(O)=1.620E-6 23, α(P)=8.87E-8 13
6206.7	49/2+		420.7	M1(+E2)	+0.05 4	0.0545	α=0.0545, α(K)=0.0459 7, α(L)=0.00668 10, α(M)=0.001478 21, α(N)=0.000345 5, α(O)=5.00×10^-5 7, α(P)=2.78E-6 4
6206.7	49/2+		727.7	E2		0.00666	α=0.00666, α(K)=0.00548 8, α(L)=0.000920 13, α(M)=0.000207 3, α(N)=4.79×10^-5 7, α(O)=6.68E-6 10, α(P)=3.10E-7 5
6223.1	49/2-		371.4	E2		0.0368	α=0.0368, α(K)=0.0281 4, α(L)=0.00673 10, α(M)=0.001558 22, α(N)=0.000358 5, α(O)=4.70×10^-5 7, α(P)=1.502E-6 21
6223.1	49/2-		437.1	E1(+M2)	+0.04 2	0.0078	α=0.0078 4, α(K)=0.0066 3, α(L)=0.00094 5, α(M)=0.000207 11, α(N)=4.80×10^-5 25, α(O)=6.8E-6 4, α(P)=3.55E-7 19
6747.6	51/2+		961.6	E2		0.00364	α=0.00364, α(K)=0.00304 5, α(L)=0.000470 7, α(M)=0.0001047 15, α(N)=2.43×10^-5 4, α(O)=3.44E-6 5, α(P)=1.731E-7 25
6888.6	51/2-		665.5	M1+E2	+0.22 3	0.0165	α=0.0165 3, α(K)=0.01391 22, α(L)=0.00200 3, α(M)=0.000442 7, α(N)=0.0001030 16, α(O)=1.494×10^-5 23, α(P)=8.35E-7 14
6976.7	53/2+		770.0	E2		0.00587	α=0.00587, α(K)=0.00484 7, α(L)=0.000798 12, α(M)=0.000179 3, α(N)=4.15×10^-5 6, α(O)=5.80E-6 9, α(P)=2.75E-7 4
7111.8	53/2-		223.2	M1+E2	-0.06 1	0.297	α=0.297, α(K)=0.249 4, α(L)=0.0370 6, α(M)=0.00821 12, α(N)=0.00191 3, α(O)=0.000277 4, α(P)=1.528×10^-5 22
	53/2-		364.2	E1		0.01157	α=0.01157, α(K)=0.00979 14, α(L)=0.001396 20, α(M)=0.000307 5, α(N)=7.12×10^-5 10, α(O)=1.006E-5 14, α(P)=5.14E-7 8
	53/2-		888.7	E2		0.00430	α=0.00430, α(K)=0.00358 5, α(L)=0.000564 8, α(M)=0.0001259 18, α(N)=2.92×10^-5 4, α(O)=4.12E-6 6, α(P)=2.03E-7 3
7196.6	(53/2+)		449.0	[M1+E2]	+0.46 14	0.0418	α=0.0418 23, α(K)=0.0350 21, α(L)=0.00528 20, α(M)=0.00117 4, α(N)=0.000273 10, α(O)=3.93×10^-5 16, α(P)=2.11E-6 13
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
7567.5	55/2+		590.8	[M1+E2]		0.0168	α=0.0168 60, α(K)=0.0140 53, α(L)=0.00219 59, α(M)=4.9×10^-4 13, α(N)=1.13E-4 30, α(O)=1.61E-5 46, α(P)=8.3E-7 34
7567.5	55/2+		819.9	E2		0.00511	α=0.00511, α(K)=0.00423 6, α(L)=0.000684 10, α(M)=0.0001531 22, α(N)=3.55×10^-5 5, α(O)=4.98E-6 7, α(P)=2.40E-7 4
7672.1	57/2+		695.4	E2		0.00738	α=0.00738, α(K)=0.00605 9, α(L)=0.001035 15, α(M)=0.000233 4, α(N)=5.39×10^-5 8, α(O)=7.49E-6 11, α(P)=3.42E-7 5
7813.9	(55/2-)		925.3	[E2]		0.00395	α=0.00395, α(K)=0.00329 5, α(L)=0.000513 8, α(M)=0.0001145 16, α(N)=2.66×10^-5 4, α(O)=3.75E-6 6, α(P)=1.87E-7 3
7853.7	57/2-		286.2	E1		0.0208	α=0.0208, α(K)=0.01757 25, α(L)=0.00254 4, α(M)=0.000561 8, α(N)=0.0001296 19, α(O)=1.82×10^-5 3, α(P)=9.04E-7 13
7853.7	57/2-		741.9	E2		0.00638	α=0.00638, α(K)=0.00525 8, α(L)=0.000876 13, α(M)=0.000197 3, α(N)=4.56×10^-5 7, α(O)=6.36E-6 9, α(P)=2.97E-7 5
7985.1	59/2+		313.0	M1+E2	+0.38 6	0.112	α=0.112 3, α(K)=0.0932 24, α(L)=0.01439 22, α(M)=0.00321 5, α(N)=0.000746 11, α(O)=0.0001068 18, α(P)=5.63×10^-6 16
7985.1	59/2+		417.6	[E2]		0.0265	α=0.0265, α(K)=0.0206 3, α(L)=0.00456 7, α(M)=0.001050 15, α(N)=0.000242 4, α(O)=3.21×10^-5 5, α(P)=1.120E-6 16
8008.9	57/2-		155.2	E2+M1	+7.0 10	0.602	α=0.602, α(K)=0.344 6, α(L)=0.198 3, α(M)=0.0477 7, α(N)=0.01083 16, α(O)=0.001311 19, α(P)=1.55×10^-5 3
8008.9	57/2-		897.3	E2		0.00421	α=0.00421, α(K)=0.00351 5, α(L)=0.000552 8, α(M)=0.0001231 18, α(N)=2.86×10^-5 4, α(O)=4.03E-6 6, α(P)=1.99E-7 3
8397.3	61/2-		388.4	E2		0.0324	α=0.0324, α(K)=0.0250 4, α(L)=0.00579 9, α(M)=0.001338 19, α(N)=0.000307 5, α(O)=4.06×10^-5 6, α(P)=1.342E-6 19
8397.3	61/2-		543.6	E2		0.01330	α=0.01330, α(K)=0.01069 15, α(L)=0.00203 3, α(M)=0.000462 7, α(N)=0.0001067 15, α(O)=1.455×10^-5 21, α(P)=5.95E-7 9
8664.8	61/2-		811.1	E2		0.00523	α=0.00523, α(K)=0.00433 6, α(L)=0.000702 10, α(M)=0.0001572 22, α(N)=3.64×10^-5 6, α(O)=5.11E-6 8, α(P)=2.46E-7 4
8833.7	61/2+		848.6	M1+E2	+0.29 4	0.00887	α=0.00887 16, α(K)=0.00750 14, α(L)=0.001070 18, α(M)=0.000236 4, α(N)=5.51×10^-5 10, α(O)=7.99E-6 14, α(P)=4.48E-7 8
8833.7	61/2+		1161.6	E2		0.00248	α=0.00248, α(K)=0.00209 3, α(L)=0.000309 5, α(M)=6.85×10^-5 10, α(N)=1.593E-5 23, α(O)=2.27E-6 4, α(P)=1.189E-7 17
9011.0	63/2-		613.7	M1+E2	+0.22 1	0.0202	α=0.0202, α(K)=0.01705 25, α(L)=0.00246 4, α(M)=0.000544 8, α(N)=0.0001268 18, α(O)=1.84×10^-5 3, α(P)=1.025E-6 15
9046.2	61/2+		1374.1	E2		0.00182	α=0.00182, α(K)=0.001509 22, α(L)=0.000217 3, α(M)=4.80×10^-5 7, α(N)=1.117E-5 16, α(O)=1.603E-6 23, α(P)=8.60E-8 12
9165.3	63/2-		500.5	[M1+E2]		0.0256	α=0.0256 92, α(K)=0.0212 82, α(L)=0.0034 9, α(M)=0.00077 18, α(N)=0.00018 5, α(O)=2.51×10^-5 67, α(P)=1.25E-6 53
9165.3	63/2-		768.0	M1+E2	+0.15 2	0.01167	α=0.01167, α(K)=0.00987 15, α(L)=0.001408 20, α(M)=0.000311 5, α(N)=7.24×10^-5 11, α(O)=1.052E-5 15, α(P)=5.91E-7 9
9267.1	65/2-		869.8	E2		0.00450	α=0.00450, α(K)=0.00374 6, α(L)=0.000594 9, α(M)=0.0001326 19, α(N)=3.07×10^-5 5, α(O)=4.33E-6 6, α(P)=2.13E-7 3
9353.6	65/2-		342.6	M1+E2	+0.08 3	0.0933	α=0.0933 14, α(K)=0.0785 12, α(L)=0.01152 17, α(M)=0.00255 4, α(N)=0.000595 9, α(O)=8.61×10^-5 13, α(P)=4.78E-6 7
9353.6	65/2-		956.3	E2		0.00369	α=0.00369, α(K)=0.00308 5, α(L)=0.000476 7, α(M)=0.0001060 15, α(N)=2.46×10^-5 4, α(O)=3.48E-6 5, α(P)=1.751E-7 25
9462.0	65/2+		628.3	E2		0.00935	α=0.00935, α(K)=0.00761 11, α(L)=0.001355 19, α(M)=0.000306 5, α(N)=7.08×10^-5 10, α(O)=9.76E-6 14, α(P)=4.28E-7 6
9593.8	65/2-		240.2	M1+E2	-0.28 5	0.236	α=0.236 5, α(K)=0.197 4, α(L)=0.0304 5, α(M)=0.00678 10, α(N)=0.001578 23, α(O)=0.000226 4, α(P)=1.20×10^-5 3
9593.8	65/2-		582.8	M1+E2	+0.43 7	0.0217	α=0.0217 7, α(K)=0.0182 6, α(L)=0.00268 7, α(M)=0.000593 14, α(N)=0.000138 4, α(O)=1.99×10^-5 5, α(P)=1.09E-6 4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
9654.9	65/2+		608.7	E2		0.01009	α=0.01009, α(K)=0.00819 12, α(L)=0.001478 21, α(M)=0.000334 5, α(N)=7.73×10^-5 11, α(O)=1.063E-5 15, α(P)=4.60E-7 7
9654.9	65/2+		821.3	E2		0.00509	α=0.00509, α(K)=0.00422 6, α(L)=0.000681 10, α(M)=0.0001524 22, α(N)=3.53×10^-5 5, α(O)=4.96E-6 7, α(P)=2.40E-7 4
9725.1	(67/2)-		371.5	M1+E2	+0.13 7	0.0749	α=0.0749 14, α(K)=0.0631 12, α(L)=0.00925 15, α(M)=0.00205 3, α(N)=0.000477 8, α(O)=6.91×10^-5 11, α(P)=3.83E-6 8
	(67/2)-		458.0	[M1]		0.0437	α=0.0437, α(K)=0.0369 6, α(L)=0.00535 8, α(M)=0.001183 17, α(N)=0.000276 4, α(O)=4.00×10^-5 6, α(P)=2.23E-6 4
	(67/2)-		714.1	[E2]		0.00695	α=0.00695, α(K)=0.00571 8, α(L)=0.000966 14, α(M)=0.000217 3, α(N)=5.03×10^-5 7, α(O)=7.00E-6 10, α(P)=3.23E-7 5
9811.0	65/2+		800.0	E1		0.00209	α=0.00209, α(K)=0.001784 25, α(L)=0.000243 4, α(M)=5.33×10^-5 8, α(N)=1.239E-5 18, α(O)=1.781E-6 25, α(P)=9.73E-8 14
9865.4	67/2-		140.3	E2+M1	-4.0 5	0.866	α=0.866, α(K)=0.474 11, α(L)=0.301 6, α(M)=0.0724 13, α(N)=0.0164 3, α(O)=0.00198 4, α(P)=2.15×10^-5 7
	67/2-		271.6	[M1+E2]	-0.13 10	0.173	α=0.173 4, α(K)=0.145 4, α(L)=0.0216 3, α(M)=0.00479 7, α(N)=0.001115 16, α(O)=0.0001612 24, α(P)=8.87×10^-6 23
	67/2-		700.1	E2		0.00727	α=0.00727, α(K)=0.00596 9, α(L)=0.001017 15, α(M)=0.000229 4, α(N)=5.30×10^-5 8, α(O)=7.36E-6 11, α(P)=3.37E-7 5
	67/2-		854.4	E2		0.00468	α=0.00468, α(K)=0.00388 6, α(L)=0.000619 9, α(M)=0.0001384 20, α(N)=3.21×10^-5 5, α(O)=4.52E-6 7, α(P)=2.21E-7 3
10048.2	69/2-		694.6	E2		0.00740	α=0.00740, α(K)=0.00607 9, α(L)=0.001038 15, α(M)=0.000234 4, α(N)=5.41×10^-5 8, α(O)=7.51E-6 11, α(P)=3.43E-7 5
10048.2	69/2-		781.1	[E2]		0.00569	α=0.00569, α(K)=0.00470 7, α(L)=0.000770 11, α(M)=0.0001727 25, α(N)=4.00×10^-5 6, α(O)=5.60E-6 8, α(P)=2.66E-7 4
10061.0	69/2+		406.1	E2		0.0287	α=0.0287, α(K)=0.0222 4, α(L)=0.00500 7, α(M)=0.001152 17, α(N)=0.000265 4, α(O)=3.51×10^-5 5, α(P)=1.201E-6 17
10061.0	69/2+		599.1	[E2]		0.01048	α=0.01048, α(K)=0.00849 12, α(L)=0.001544 22, α(M)=0.000350 5, α(N)=8.08×10^-5 12, α(O)=1.110E-5 16, α(P)=4.76E-7 7
10180.0	69/2-		586.7	E2		0.01102	α=0.01102, α(K)=0.00892 13, α(L)=0.001637 23, α(M)=0.000371 6, α(N)=8.57×10^-5 12, α(O)=1.175E-5 17, α(P)=5.00E-7 7
10463.6	(71/2-)		247.6	[E1]		0.0300	α=0.0300, α(K)=0.0253 4, α(L)=0.00369 6, α(M)=0.000815 12, α(N)=0.000188 3, α(O)=2.63×10^-5 4, α(P)=1.281E-6 18
10463.6	(71/2-)		598.2	[E2]		0.01052	α=0.01052, α(K)=0.00852 12, α(L)=0.001550 22, α(M)=0.000351 5, α(N)=8.11×10^-5 12, α(O)=1.115E-5 16, α(P)=4.78E-7 7
10611.6	71/2-		746.2	E2		0.00629	α=0.00629, α(K)=0.00518 8, α(L)=0.000864 12, α(M)=0.000194 3, α(N)=4.49×10^-5 7, α(O)=6.27E-6 9, α(P)=2.94E-7 5
10737.5	71/2+		676.5	[M1+E2]	+0.10 2	0.01611	α=0.01611, α(K)=0.01362 20, α(L)=0.00195 3, α(M)=0.000430 6, α(N)=0.0001004 15, α(O)=1.457×10^-5 21, α(P)=8.18E-7 12
10842.3	73/2+		104.8	E2+M1	-2.1 5	2.47	α=2.47, α(K)=1.17 11, α(L)=1.00 9, α(M)=0.241 21, α(N)=0.055 5, α(O)=0.0065 5, α(P)=5.6×10^-5 9
	73/2+		230.7	E1		0.0359	α=0.0359, α(K)=0.0303 5, α(L)=0.00444 7, α(M)=0.000980 14, α(N)=0.000226 4, α(O)=3.15×10^-5 5, α(P)=1.522E-6 22
	73/2+		378.7	[E1]		0.01055	α=0.01055, α(K)=0.00893 13, α(L)=0.001270 18, α(M)=0.000280 4, α(N)=6.48×10^-5 9, α(O)=9.16E-6 13, α(P)=4.70E-7 7
	73/2+		781.3	E2		0.00568	α=0.00568, α(K)=0.00469 7, α(L)=0.000770 11, α(M)=0.0001725 25, α(N)=4.00×10^-5 6, α(O)=5.60E-6 8, α(P)=2.66E-7 4
11033.0	75/2-		190.7	E1		0.0589	α=0.0589, α(K)=0.0494 7, α(L)=0.00736 11, α(M)=0.001626 23, α(N)=0.000375 6, α(O)=5.18×10^-5 8, α(P)=2.43E-6 4
11322.7	73/2-		711.1	M1(+E2)	-0.04 3	0.01428	α=0.01428 21, α(K)=0.01208 17, α(L)=0.001724 25, α(M)=0.000381 6, α(N)=8.88×10^-5 13, α(O)=1.289E-5 19, α(P)=7.25E-7 11
	73/2-		1142.2	E2		0.00257	α=0.00257, α(K)=0.00216 3, α(L)=0.000321 5, α(M)=7.11×10^-5 10, α(N)=1.652E-5 24, α(O)=2.36E-6 4, α(P)=1.229E-7 18
	73/2-		1274.5	E2		0.00208	α=0.00208, α(K)=0.001743 25, α(L)=0.000254 4, α(M)=5.62×10^-5 8, α(N)=1.307E-5 19, α(O)=1.87E-6 3, α(P)=9.93E-8 14
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
11703.4	77/2-		380.7	E2		0.0343	α=0.0343, α(K)=0.0263 4, α(L)=0.00619 9, α(M)=0.001432 20, α(N)=0.000329 5, α(O)=4.33×10^-5 6, α(P)=1.411E-6 20
11703.4	77/2-		670.4	M1+E2	+0.16 6	0.0164	α=0.0164 3, α(K)=0.01382 25, α(L)=0.00198 4, α(M)=0.000438 8, α(N)=0.0001021 17, α(O)=1.48×10^-5 3, α(P)=8.30E-7 16
11933.8	(77/2+)		230.4	[E1+M2]	-0.93 35	0.64	α=0.64 28, α(K)=0.51 22, α(L)=0.103 45, α(M)=0.024 11, α(N)=0.0055 25, α(O)=7.9×10^-4 35, α(P)=4.0E-5 18
11933.8	(77/2+)		1091.5	[E2]		0.00281	α=0.00281, α(K)=0.00236 4, α(L)=0.000354 5, α(M)=7.86×10^-5 11, α(N)=1.82E-5 3, α(O)=2.60E-6 4, α(P)=1.344E-7 19
12294.4	(79/2+)		360.6	M1+E2	-0.09 1	0.0814	α=0.0814, α(K)=0.0685 10, α(L)=0.01004 14, α(M)=0.00222 4, α(N)=0.000518 8, α(O)=7.51×10^-5 11, α(P)=4.17E-6 6
12304.1	79/2-		370.3	[E1(+M2)]	-0.09 5	0.013	α=0.013 3, α(K)=0.0112 25, α(L)=0.00166 45, α(M)=3.7×10^-4 11, α(N)=8.5E-5 24, α(O)=1.21E-5 34, α(P)=6.2E-7 18
12304.1	79/2-		600.7	M1(+E2)	-0.01 3	0.0218	α=0.0218, α(K)=0.0185 3, α(L)=0.00265 4, α(M)=0.000585 9, α(N)=0.0001365 20, α(O)=1.98×10^-5 3, α(P)=1.111E-6 16
12944	81/2-		1241	E2		0.00219	α=0.00219, α(K)=0.00183 3, α(L)=0.000269 4, α(M)=5.95×10^-5 9, α(N)=1.382E-5 20, α(O)=1.98E-6 3, α(P)=1.046E-7 15
12961.4	79/2(-)		1258.0	[M1]		0.00356	α=0.00356, α(K)=0.00301 5, α(L)=0.000421 6, α(M)=9.27×10^-5 13, α(N)=2.16E-5 3, α(O)=3.15E-6 5, α(P)=1.785E-7 25
13180.4	81/2+		219.0	[E1(+M2)]	+0.04 2	0.044	α=0.044 4, α(K)=0.0365 25, α(L)=0.0055 6, α(M)=0.00122 12, α(N)=0.00028 3, α(O)=3.9×10^-5 4, α(P)=1.89E-6 20
13180.4	81/2+		876.3	E1		1.76×10^-3	α=1.76×10^-3, α(K)=0.001496 21, α(L)=0.000203 3, α(M)=4.45E-5 7, α(N)=1.034E-5 15, α(O)=1.489E-6 21, α(P)=8.18E-8 12
13668	(83/2-)		1364	[E2]		0.00185	α=0.00185, α(K)=0.001530 22, α(L)=0.000221 3, α(M)=4.88×10^-5 7, α(N)=1.134E-5 16, α(O)=1.627E-6 23, α(P)=8.72E-8 13
13720.6	83/2-		1416.5	E2		1.73×10^-3	α=1.73×10^-3, α(K)=0.001425 20, α(L)=0.000204 3, α(M)=4.51E-5 7, α(N)=1.049E-5 15, α(O)=1.507E-6 22, α(P)=8.12E-8 12
13876.0	85/2+		695.6	E2		0.00738	α=0.00738, α(K)=0.00605 9, α(L)=0.001034 15, α(M)=0.000233 4, α(N)=5.39×10^-5 8, α(O)=7.48E-6 11, α(P)=3.42E-7 5
13910	(81/2-)		1606	[M1+E2]	+0.50 8	0.00198	α=0.00198 5, α(K)=0.00157 4, α(L)=0.000219 5, α(M)=4.83×10^-5 11, α(N)=1.13E-5 3, α(O)=1.64E-6 4, α(P)=9.27E-8 23
14001	(81/2-)		1696	[M1+E2]	+0.52 17	0.00180	α=0.00180 7, α(K)=0.00139 6, α(L)=0.000193 8, α(M)=4.24×10^-5 17, α(N)=9.9E-6 4, α(O)=1.44E-6 6, α(P)=8.1E-8 4
14320	(81/2-)		2016	[M1+E2]	+0.30 10	0.00149	α=0.00149 3, α(K)=0.000973 20, α(L)=0.000134 3, α(M)=2.95×10^-5 6, α(N)=6.89E-6 14, α(O)=1.003E-6 21, α(P)=5.72E-8 12
14578	(81/2-)		1617	[M1+E2]	+0.56 18	0.00194	α=0.00194 9, α(K)=0.00153 7, α(L)=0.000213 9, α(M)=4.69×10^-5 20, α(N)=1.09E-5 5, α(O)=1.59E-6 7, α(P)=9.0E-8 5
14629	(85/2+)		1449	[E2]		1.67×10^-3	α=1.67×10^-3, α(K)=0.001365 20, α(L)=0.000195 3, α(M)=4.31E-5 6, α(N)=1.002E-5 14, α(O)=1.440E-6 21, α(P)=7.78E-8 11
14931	(87/2-)		1210	[E2]		0.00230	α=0.00230, α(K)=0.00193 3, α(L)=0.000283 4, α(M)=6.28×10^-5 9, α(N)=1.459E-5 21, α(O)=2.09E-6 3, α(P)=1.098E-7 16
15410.7	(87/2+)		1534.7	[M1+E2]	+0.44 8	0.00219	α=0.00219 5, α(K)=0.00177 5, α(L)=0.000247 6, α(M)=5.44×10^-5 13, α(N)=1.27E-5 3, α(O)=1.84E-6 5, α(P)=1.04E-7 3
17086	(89/2+)		1675	[M1+E2]	+0.55 21	0.00183	α=0.00183 9, α(K)=0.00142 7, α(L)=0.000197 10, α(M)=4.33×10^-5 21, α(N)=1.01E-5 5, α(O)=1.47E-6 7, α(P)=8.3E-8 5

Levels: Detailed discussions of the nucleonic configurations assigned to the various high-spin levels populated in the heavy-ion reactions are given by 1987Be21 and, especially, 2001Ni13.

Gammas: Unless noted otherwise, the Eγ, Iγ, mult and δ values for the γ’s connecting the levels populated in the (HI,xnγ) reaction are those from 2001Ni13 and are based on their Eγ, Iγ, γγ, γ(θ), γγ(θ)(DCO), γ(lin pol) data.

Q(β-)=-5583 keV 12	S(n)= 7675 keV 8	S(p)= 4859 keV 10	Q(α)= 4118 keV 5
S(2n)= 17883 keV 8	S(2p)= 7644 keV 10	Q(EC)= 3830 keV 18	Q(ECp)= 896 keV 9
Reference: 2017WA10

References:
A	¹⁵⁵Tm ε decay (21.6 S)	B	¹⁵⁵Tm ε decay (45 S)
C	(HI,xnγ)

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	7/2-	5.3 m 3 % ε = 99.978 7 % α = 0.022 7
88.08 8	A B	5/2-,7/2-,9/2-		88.1 1	100	M1(+E2)	0.0	7/2-
151.63 8	A B	-		63.5 1 151.6 1	68 23 100 31	M1(+E2) E2	88.08 0.0	5/2-,7/2-,9/2- 7/2-
226.79 17	A	9/2-		226.8 2	100	M1+E2	0.0	7/2-
323.17 15	B	5/2-,7/2-,9/2-		171.5 2 323.2 5	25 9 100 11	E2(+M1) M1+E2	151.63 0.0	- 7/2-
398.63 22	A B			247.0 2	100 5	E2(+M1)	151.63	-
467.00 16	A B	-		315.2 2 379.1 2	100 50 ≈100	E2(+M1) M1(+E2)	151.63 88.08	- 5/2-,7/2-,9/2-
531.82 24	A C	11/2-		305.0 2 531.7 2	7.5 20 100 25		226.79 0.0	9/2- 7/2-
563.3 3	A C	13/2+	34.8 ns 6	31.5 1	100	E1	531.82	11/2-
584.47 18	B			432.7 2 496.7 3	100 20 80 50		151.63 88.08	- 5/2-,7/2-,9/2-
595.1 4	B			507.0 4	100		88.08	5/2-,7/2-,9/2-
606.77 16	A			380.1 3 518.7 4 606.7 2	12 3 29 6 100 20		226.79 88.08 0.0	9/2- 5/2-,7/2-,9/2- 7/2-
760.1 6	A			533.3 5	100		226.79	9/2-
959.7 4	A			732.9 3	100		226.79	9/2-
1038.5	C	17/2+	< 26 ps	475.4	100	E2	563.3	13/2+
1057.0	A			830.0 1057.2	17 5 100 23		226.79 0.0	9/2- 7/2-
1431.0 11	A			1204.2	100		226.79	9/2-
1563.0?	C			524.5	100		1038.5	17/2+
1572.7	C	21/2+	< 20 ps	534.2	100	E2	1038.5	17/2+
2169.1	C	25/2+	< 6 ps	596.4	100	E2	1572.7	21/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2229.6	C	23/2+		656.9 666.6	100 36	M1+E2	1572.7 1563.0	21/2+
2574.0	C	27/2+		344.4 404.9	100 65	E2 M1+E2	2229.6 2169.1	23/2+ 25/2+
2838.1	C	29/2+	< 13 ps	264.1 669.0	0.6 100	[M1] E2	2574.0 2169.1	27/2+ 25/2+
3354.0	C	31/2+		515.9 780.0	100	[M1+E2] E2	2838.1 2574.0	29/2+ 27/2+
3557.0	C	33/2+	< 12 ps	718.9	100	E2	2838.1	29/2+
3623.2 8	C
4093.0	C	33/2-		469.8 739.0	41 100	[E1]	3623.2 3354.0	31/2+
4219.2	C	35/2+		662.2 865.2	14 100	[M1+E2] E2	3557.0 3354.0	33/2+ 31/2+
4288.0	C	37/2+	< 24 ps	731.0	100	E2	3557.0	33/2+
4444.4	C	37/2-		225.2 351.4	100 70	[E1] E2	4219.2 4093.0	35/2+ 33/2-
4787.9	C	39/2+		499.9 568.7	96 100	M1+E2 E2	4288.0 4219.2	37/2+ 35/2+
4928.2	C	41/2+	< 18 ps	640.1	100	E2	4288.0	37/2+
5012.4 8	C	43/2+	0.90 ns	84.2 224.5	90 100	E2+M1 E2	4928.2 4787.9	41/2+ 39/2+
5122.6?	C	41/2-		334.7? 678.2	100	[E1] E2	4787.9 4444.4	39/2+ 37/2-
5479.0	C	45/2+	< 21 ps	466.6	100	M1+E2	5012.4	43/2+
5786.0	C	47/2+		307.0 773.4	100 37	M1+E2 E2	5479.0 5012.4	45/2+ 43/2+
5851.7	C	45/2-		729.1 839.3	100 10	E2 [E1]	5122.6 5012.4	41/2- 43/2+
6206.7	C	49/2+		420.7 727.7	8.9 100	M1(+E2) E2	5786.0 5479.0	47/2+ 45/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
6223.1	C	49/2-		371.4 437.1	97 100	E2 E1(+M2)	5851.7 5786.0	45/2- 47/2+
6747.6	C	51/2+		961.6	100	E2	5786.0	47/2+
6888.6	C	51/2-		665.5	100	M1+E2	6223.1	49/2-
6976.7	C	53/2+		770.0	100	E2	6206.7	49/2+
7111.8	C	53/2-		223.2 364.2 888.7	69 6.7 100	M1+E2 E1 E2	6888.6 6747.6 6223.1	51/2- 51/2+ 49/2-
7196.6?	C	(53/2+)		449.0	100	[M1+E2]	6747.6	51/2+
7567.5	C	55/2+		590.8 819.9	100 72	[M1+E2] E2	6976.7 6747.6	53/2+ 51/2+
7672.1	C	57/2+		104.6 475.5 695.4	100	E2	7567.5 7196.6 6976.7	55/2+ (53/2+) 53/2+
7813.9	C	(55/2-)		702.1 925.3	100 100	D [E2]	7111.8 6888.6	53/2- 51/2-
7853.7	C	57/2-		286.2 741.9	10 100	E1 E2	7567.5 7111.8	55/2+ 53/2-
7985.1	C	59/2+		313.0 417.6	100 50	M1+E2 [E2]	7672.1 7567.5	57/2+ 55/2+
8008.9	C	57/2-		155.2 195.0 897.3	100 42 61	E2+M1 D E2	7853.7 7813.9 7111.8	57/2- (55/2-) 53/2-
8397.3	C	61/2-		388.4 543.6	23 100	E2 E2	8008.9 7853.7	57/2- 57/2-
8664.8	C	61/2-		811.1	100	E2	7853.7	57/2-
8833.7	C	61/2+		848.6 1161.6	24 100	M1+E2 E2	7985.1 7672.1	59/2+ 57/2+
9011.0	C	63/2-		613.7	100	M1+E2	8397.3	61/2-
9046.2	C	61/2+		1374.1	100	E2	7672.1	57/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
9083.7?	C			250	100		8833.7	61/2+
9165.3	C	63/2-		500.5 768.0	52 100	[M1+E2] M1+E2	8664.8 8397.3	61/2- 61/2-
9267.1	C	65/2-		869.8	100	E2	8397.3	61/2-
9353.6	C	65/2-		342.6 956.3	100 34	M1+E2 E2	9011.0 8397.3	63/2- 61/2-
9462.0?	C	65/2+		628.3	100	E2	8833.7	61/2+
9593.8	C	65/2-		240.2 582.8	100 52	M1+E2 M1+E2	9353.6 9011.0	65/2- 63/2-
9654.9	C	65/2+		608.7 821.3	92 100	E2 E2	9046.2 8833.7	61/2+ 61/2+
9725.1	C	(67/2)-		371.5 458.0 714.1	100 73 93	M1+E2 [M1] [E2]	9353.6 9267.1 9011.0	65/2- 65/2- 63/2-
9811.0	C	65/2+		800.0	100	E1	9011.0	63/2-
9865.4	C	67/2-		140.3 271.6 700.1 781.7 854.4	21 21 100 55	E2+M1 [M1+E2] E2 E2	9725.1 9593.8 9165.3 9083.7 9011.0	(67/2)- 65/2- 63/2- 63/2-
9985.4	C	(69/2)		260.3	100	D	9725.1	(67/2)-
10048.2	C	69/2-		694.6 781.1	100	E2 [E2]	9353.6 9267.1	65/2- 65/2-
10061.0	C	69/2+		406.1 599.1	62 100	E2 [E2]	9654.9 9462.0	65/2+ 65/2+
10180.0?	C	69/2-		586.7	100	E2	9593.8	65/2-
10216.0?	C	(69/2+)		405.0	100		9811.0	65/2+
10463.6	C	(71/2-)		247.6 598.2	11 100	[E1] [E2]	10216.0 9865.4	(69/2+) 67/2-
10611.6	C	71/2-		746.2	100	E2	9865.4	67/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
10737.5?	C	71/2+		676.5	100	[M1+E2]	10061.0	69/2+
10842.3	C	73/2+		104.8 230.7 378.7 781.3	27 19 14 100	E2+M1 E1 [E1] E2	10737.5 10611.6 10463.6 10061.0	71/2+ 71/2- (71/2-) 69/2+
11033.0	C	75/2-		190.7	100	E1	10842.3	73/2+
11322.7	C	73/2-		711.1 1142.2 1274.5	66 19 100	M1(+E2) E2 E2	10611.6 10180.0 10048.2	71/2- 69/2- 69/2-
11703.4	C	77/2-		380.7 670.4	100 60.7	E2 M1+E2	11322.7 11033.0	73/2- 75/2-
11754.8?	C			912.5	100		10842.3	73/2+
11933.8	C	(77/2+)		230.4 1091.5	44 100	[E1+M2] [E2]	11703.4 10842.3	77/2- 73/2+
12294.4	C	(79/2+)		360.6	100	M1+E2	11933.8	(77/2+)
12304.1	C	79/2-		370.3 549.3 600.7	7.6 20 100	[E1(+M2)] M1(+E2)	11933.8 11754.8 11703.4	(77/2+) 77/2-
12944	C	81/2-		1241	100	E2	11703.4	77/2-
12961.4	C	79/2(-)		1258.0	100	[M1]	11703.4	77/2-
13180.4	C	81/2+		219.0 876.3	100 100	[E1(+M2)] E1	12961.4 12304.1	79/2(-) 79/2-
13668	C	(83/2-)		1364	100	[E2]	12304.1	79/2-
13720.6	C	83/2-		1416.5	100	E2	12304.1	79/2-
13876.0	C	85/2+		695.6	100	E2	13180.4	81/2+
13910	C	(81/2-)		1606	100	[M1+E2]	12304.1	79/2-
14001	C	(81/2-)		1696	100	[M1+E2]	12304.1	79/2-
14063?	C			342?	100		13720.6	83/2-
14279?	C			1318?	100		12961.4	79/2(-)
14320	C	(81/2-)		410 2016	100 64	[M1+E2]	13910 12304.1	(81/2-) 79/2-
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
14578?	C	(81/2-)		1617?	100	[M1+E2]	12961.4	79/2(-)
14629?	C	(85/2+)		1449?	100	[E2]	13180.4	81/2+
14668?	C			348?	100		14320	(81/2-)
14931?	C	(87/2-)		1210?	100	[E2]	13720.6	83/2-
15410.7	C	(87/2+)		1534.7	100	[M1+E2]	13876.0	85/2+
15659?	C			1339?	100		14320	(81/2-)
17086?	C	(89/2+)		1675?	100	[M1+E2]	15410.7	(87/2+)

E(level)	J^π(level)	T_1/2(level)	Comments
563.3	13/2+	34.8 ns 6	μ=-0.55 3 E(level): i_13/2-based yrast sequence, signature=+1/2. Likely.
1038.5	17/2+	< 26 ps	E(level): i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
1563.0			E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
1572.7	21/2+	< 20 ps	E(level): i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
2169.1	25/2+	< 6 ps	E(level): i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
2229.6	23/2+		E(level): Positive-parity sequence, signature=-1/2. Levels involved in.
2574.0	27/2+		E(level): Positive-parity sequence, signature=-1/2. Levels involved in.
2838.1	29/2+	< 13 ps	E(level): i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
3354.0	31/2+		E(level): Positive-parity sequence, signature=-1/2. Levels involved in.
3557.0	33/2+	< 12 ps	E(level): i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
4093.0	33/2-		E(level): Negative-parity sequence, signature=+1/2.
4219.2	35/2+		E(level): Positive-parity sequence, signature=-1/2. Levels involved in.
4288.0	37/2+	< 24 ps	E(level): i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
4444.4	37/2-		E(level): Negative-parity sequence, signature=+1/2.
4787.9	39/2+		E(level): Positive-parity sequence, signature=-1/2. Levels involved in.
4928.2	41/2+	< 18 ps	"maximally aligned " structure involving two f_7/2 neutrons, two h_9/2 neutrons and an i_13/2 neutron (2001Ni13). E(level): "maximally aligned " structure involving two f_7/2 neutrons, two h_9/2 neutrons and an i_13/2 neutron (2001Ni13). i_13/2-based yrast sequence, signature=+1/2. Likely. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
5012.4	43/2+	0.90 ns	E(level): Positive-parity sequence, based on 43/2⁺.
5122.6	41/2-		E(level): Negative-parity sequence, signature=+1/2. Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
5479.0	45/2+	< 21 ps	E(level): Positive-parity sequence, based on 43/2⁺. T_1/2(level): From 1981Ve09, recoil-distance method, in (HI,xnγ). Values not corrected for side feedings.
5786.0	47/2+		E(level): Positive-parity sequence, based on 43/2⁺.
5851.7	45/2-		E(level): Negative-parity sequence, signature=+1/2.
6206.7	49/2+		E(level): Positive-parity sequence, based on 43/2⁺.
6223.1	49/2-		E(level): Negative-parity sequence, signature=+1/2.
6747.6	51/2+		E(level): Positive-parity sequence, based on 43/2⁺.
6976.7	53/2+		E(level): Positive-parity sequence, based on 43/2⁺.
E(level)	J^π(level)	T_1/2(level)	Comments
7111.8	53/2-		E(level): Negative-parity sequence, signature=+1/2.
7196.6	(53/2+)		E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
7567.5	55/2+		E(level): Positive-parity sequence, based on 43/2⁺.
7672.1	57/2+		E(level): Positive-parity sequence, based on 43/2⁺.
7853.7	57/2-		E(level): Negative-parity sequence, signature=+1/2.
7985.1	59/2+		E(level): Positive-parity sequence, based on 43/2⁺.
8397.3	61/2-		E(level): Negative-parity sequence, signature=+1/2.
9083.7			E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
9462.0	65/2+		E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10180.0	69/2-		E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10216.0	(69/2+)		E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10737.5	71/2+		E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
11703.4	77/2-		"double maximum alignment " structure, involving the alignment of the spins of both neutron and proton pairs outside the ¹⁴⁶Gd core, with those of the four h_11/2 valence protons being coupled to 16⁺ (2001Ni13). E(level): "double maximum alignment " structure, involving the alignment of the spins of both neutron and proton pairs outside the ¹⁴⁶Gd core, with those of the four h_11/2 valence protons being coupled to 16⁺ (2001Ni13).
11754.8			E(level): Ordering of the transition in the cascade is uncertain. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
12304.1	79/2-		"double maximum alignment " structure, involving the alignment of the spins of both neutron and proton pairs outside the ¹⁴⁶Gd core, with those of the four h_11/2 valence protons being coupled to 16⁺ (2001Ni13). E(level): "double maximum alignment " structure, involving the alignment of the spins of both neutron and proton pairs outside the ¹⁴⁶Gd core, with those of the four h_11/2 valence protons being coupled to 16⁺ (2001Ni13).
13180.4	81/2+		According to the calculations presented by 2001Ni13, the configurations of all the positive-parity yrast states above this one involve broken proton-pairs in the ¹⁴⁶Gd core. E(level): According to the calculations presented by 2001Ni13, the configurations of all the positive-parity yrast states above this one involve broken proton-pairs in the ¹⁴⁶Gd core.

E(level)	E(gamma)	Comments
1038.5	475.4	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.04 4.
1563.0	524.5	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
2229.6	666.6	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
2574.0	344.4	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.06 2.
3354.0	780.0	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=+0.05 2.
3557.0	718.9	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.03 2.
4219.2	865.2	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.03 2.
4288.0	731.0	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.01 1.
4444.4	351.4	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=+0.03 7.
4787.9	568.7	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.11 2.
5122.6	678.2	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
5851.7	729.1	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
6223.1	371.4	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.02 1.
6747.6	961.6	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.02 1.
6976.7	770.0	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.03 2.
7111.8	364.2	M(γ): from (HI,xnγ), 2001Ni13 report δ(M2/E1)=+0.11 6.
7196.6	449.0	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
7672.1	475.5	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
7672.1	695.4	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.03 2.
7853.7	741.9	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.08 2.
8397.3	388.4	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.10 4.
8833.7	1161.6	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=+0.03 2.
9083.7	250	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
9462.0	628.3	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade. M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=+0.08 3.
9654.9	608.7	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.04 3.
E(level)	E(gamma)	Comments
9865.4	781.7	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10061.0	599.1	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10180.0	586.7	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10216.0	405.0	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10463.6	247.6	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10737.5	676.5	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10842.3	104.8	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
10842.3	378.7	M(γ): from (HI,xnγ), 2001Ni13 report δ=0.05 3.
11033.0	190.7	M(γ): from (HI,xnγ), 2001Ni13 report δ(M2/E1)=-0.04 3.
11322.7	1142.2	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
11322.7	1274.5	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=+0.04 3.
11703.4	380.7	M(γ): from (HI,xnγ), 2001Ni13 report δ(M3/E2)=-0.04 1.
11754.8	912.5	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.
12304.1	549.3	E(γ): Ordering of the transition in the cascade is uncertain.. Location of the level energy is uncertain due to the uncertain ordering of the transitions in the cascade.