List of levels for 162DY

Author: N. Nica | Citation: Nucl. Data Sheets 195, 1 (2024) | Cutoff date: 19-Sep-2023

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
80.661	2+	2.19 ns 2	80.659 7	E2		6.14	B(E2)(W.u.)=202.1 31, α=6.14, α(K)=1.82 3, α(L)=3.32 5, α(M)=0.797 12, α(N)=0.1784 25, α(O)=0.0212 3, α(P)=7.66E-5 11
265.664	4+	0.132 ns 5	185.002 1	E2		0.307	B(E2)(W.u.)=289 11, α=0.307, α(K)=0.200 3, α(L)=0.0826 12, α(M)=0.0194 3, α(N)=0.00438 7, α(O)=0.000550 8, α(P)=9.37E-6 14
548.520	6+	18.4 ps 10	282.859 2	E2		0.0773	B(E2)(W.u.)=302 16, α=0.0773, α(K)=0.0572 8, α(L)=0.01557 22, α(M)=0.00359 5, α(N)=0.000816 12, α(O)=0.0001067 15, α(P)=2.95E-6 5
888.161	2+	1.97 ps 9	622.494 3	E2		0.00875	B(E2)(W.u.)=0.628 +41-39, α=0.00875, α(K)=0.00718 10, α(L)=0.001229 18, α(M)=0.000274 4, α(N)=6.29E-5 9, α(O)=8.83E-6 13, α(P)=4.08E-7 6
	2+	1.97 ps 9	807.501 2	E2+M1	+57 +\|@-33	0.00481	B(E2)(W.u.)=8.23 41, B(M1)(W.u.)=3.4E-6 +19-10, α=0.00481, α(K)=0.00400 6, α(L)=0.000628 9, α(M)=0.0001390 20, α(N)=3.20E-5 5, α(O)=4.56E-6 7, α(P)=2.30E-7 4
	2+	1.97 ps 9	888.157 3	E2		0.00391	B(E2)(W.u.)=4.65 +24-22, α=0.00391, α(K)=0.00327 5, α(L)=0.000500 7, α(M)=0.0001103 16, α(N)=2.54E-5 4, α(O)=3.64E-6 5, α(P)=1.88E-7 3
921.28	8+	4.2 ps 2	372.50 18	[E2]		0.0339	B(E2)(W.u.)=346 17, α=0.0339, α(K)=0.0264 4, α(L)=0.00587 9, α(M)=0.001339 19, α(N)=0.000305 5, α(O)=4.10E-5 6, α(P)=1.425E-6 20
962.940	3+		697.277 2	E2(+M1)	45 GT	0.00670	α=0.00670, α(K)=0.00553 8, α(L)=0.000909 13, α(M)=0.000202 3, α(N)=4.64×10^-5 7, α(O)=6.56E-6 10, α(P)=3.17E-7 5
962.940	3+		882.276 3	E2+M1	+41 +34-13	0.00397	α=0.00397, α(K)=0.00332 5, α(L)=0.000508 8, α(M)=0.0001121 16, α(N)=2.58×10^-5 4, α(O)=3.69E-6 6, α(P)=1.91E-7 3
1060.991	4+		98.054 3	M1		2.53	α=2.53, α(K)=2.13 3, α(L)=0.314 5, α(M)=0.0690 10, α(N)=0.01595 23, α(O)=0.00233 4, α(P)=0.0001330 19
	4+		172.835 3	E2		0.387	α=0.387, α(K)=0.245 4, α(L)=0.1097 16, α(M)=0.0259 4, α(N)=0.00583 9, α(O)=0.000728 11, α(P)=1.127×10^-5 16
	4+		512.464 5	E2		0.01422	α=0.01422, α(K)=0.01147 16, α(L)=0.00214 3, α(M)=0.000481 7, α(N)=0.0001100 16, α(O)=1.520×10^-5 22, α(P)=6.43E-7 9
	4+		795.327 3	E2+M1	+12 +18-4	0.00500	α=0.00500 8, α(K)=0.00416 7, α(L)=0.000655 10, α(M)=0.0001449 22, α(N)=3.33×10^-5 5, α(O)=4.75E-6 8, α(P)=2.39E-7 4
	4+		980.335 6	E2		0.00317	α=0.00317, α(K)=0.00266 4, α(L)=0.000398 6, α(M)=8.75×10^-5 13, α(N)=2.02E-5 3, α(O)=2.90E-6 4, α(P)=1.536E-7 22
1148.232	2-	0.21 ns 4	185.292 1	E1		0.0595	B(E1)(W.u.)=2.7E-5 +7-5, α=0.0595, α(K)=0.0501 7, α(L)=0.00731 11, α(M)=0.001598 23, α(N)=0.000365 6, α(O)=5.13E-5 8, α(P)=2.51E-6 4
	2-	0.21 ns 4	260.067 8	E1		0.0246	B(E1)(W.u.)=5.0E-5 +12-8, α=0.0246, α(K)=0.0209 3, α(L)=0.00297 5, α(M)=0.000649 9, α(N)=0.0001488 21, α(O)=2.11E-5 3, α(P)=1.085E-6 16
	2-	0.21 ns 4	1067.55 10	[E1]		1.11×10^-3	B(E1)(W.u.)=5.0E-9 +13-8, α=1.11E-3, α(K)=0.000946 14, α(L)=0.0001252 18, α(M)=2.72E-5 4, α(N)=6.26E-6 9, α(O)=9.16E-7 13, α(P)=5.28E-8 8
1182.763	5+		121.774 2	E2(+M1)	1.7 GT	1.325	α=1.325 20, α(K)=0.73 7, α(L)=0.46 5, α(M)=0.109 11, α(N)=0.0245 24, α(O)=0.0030 3, α(P)=3.4×10^-5 6
	5+		219.823 1	E2		0.1729	α=0.1729, α(K)=0.1199 17, α(L)=0.0410 6, α(M)=0.00958 14, α(N)=0.00217 3, α(O)=0.000276 4, α(P)=5.85×10^-6 9
	5+		634.246 2	E2+M1	-7 +2-20	0.00853	α=0.00853 19, α(K)=0.00701 17, α(L)=0.001184 22, α(M)=0.000264 5, α(N)=6.06×10^-5 11, α(O)=8.52E-6 17, α(P)=4.00E-7 10
	5+		917.092 2	E2+M1	+50 +50-2	0.00365	α=0.00365, α(K)=0.00306 5, α(L)=0.000464 7, α(M)=0.0001022 15, α(N)=2.35×10^-5 4, α(O)=3.38E-6 5, α(P)=1.762E-7 25
1210.089	3-		149.100 2	E1		0.1059	α=0.1059, α(K)=0.0891 13, α(L)=0.01321 19, α(M)=0.00289 4, α(N)=0.000660 10, α(O)=9.18×10^-5 13, α(P)=4.35E-6 6
	3-		247.1479 9	E1		0.0281	α=0.0281, α(K)=0.0237 4, α(L)=0.00339 5, α(M)=0.000741 11, α(N)=0.0001699 24, α(O)=2.41×10^-5 4, α(P)=1.229E-6 18
	3-		321.928 2	E1		0.01444	α=0.01444, α(K)=0.01225 18, α(L)=0.001724 25, α(M)=0.000376 6, α(N)=8.64×10^-5 12, α(O)=1.234E-5 18, α(P)=6.49E-7 9
	3-		944.424 5	E1+M2	-0.10 +3-5	0.00153	α=0.00153 18, α(K)=0.00130 15, α(L)=0.000176 22, α(M)=3.8×10^-5 5, α(N)=8.8E-6 12, α(O)=1.29E-6 17, α(P)=7.4E-8 10
	3-		1129.419 6	E1+M2	+0.05 +5-3	0.00102	α=0.00102 7, α(K)=0.00087 6, α(L)=0.000115 9, α(M)=2.50×10^-5 18, α(N)=5.8E-6 5, α(O)=8.5E-7 7, α(P)=4.9E-8 4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1275.772	1-	20 fs 4	1195.092 7	E1		9.23×10^-4	B(E1)(W.u.)=0.0038 +10-7, α=9.23E-4, α(K)=0.000772 11, α(L)=0.0001017 15, α(M)=2.20E-5 3, α(N)=5.09E-6 8, α(O)=7.45E-7 11, α(P)=4.32E-8 6
1275.772	1-	20 fs 4	1275.810 18	E1		8.61×10^-4	B(E1)(W.u.)=0.0023 +6-4, α=8.61E-4, α(K)=0.000688 10, α(L)=9.04E-5 13, α(M)=1.96E-5 3, α(N)=4.52E-6 7, α(O)=6.62E-7 10, α(P)=3.85E-8 6
1297.006	4-		86.918 1	[M1,E2]		4.1	α=4.1 6, α(K)=2.29 73, α(L)=1.39 95, α(M)=0.33 24, α(N)=0.074 52, α(O)=0.0092 59, α(P)=1.26×10^-4 62
	4-		114.245 5	E1		0.216	α=0.216, α(K)=0.181 3, α(L)=0.0276 4, α(M)=0.00604 9, α(N)=0.001375 20, α(O)=0.000189 3, α(P)=8.51×10^-6 12
	4-		236.008 4	E1		0.0316	α=0.0316, α(K)=0.0267 4, α(L)=0.00383 6, α(M)=0.000837 12, α(N)=0.000192 3, α(O)=2.72×10^-5 4, α(P)=1.377E-6 20
	4-		334.063 1	E1		0.01319	α=0.01319, α(K)=0.01119 16, α(L)=0.001572 22, α(M)=0.000343 5, α(N)=7.87×10^-5 11, α(O)=1.127E-5 16, α(P)=5.95E-7 9
1324.465	6+		141.73	[M1,E2]		0.83	α=0.83 6, α(K)=0.59 16, α(L)=0.183 74, α(M)=0.042 19, α(N)=0.0096 41, α(O)=0.00125 44, α(P)=3.3×10^-5 14
	6+		263.472 1	E2		0.0966	α=0.0966, α(K)=0.0703 10, α(L)=0.0203 3, α(M)=0.00470 7, α(N)=0.001067 15, α(O)=0.0001385 20, α(P)=3.57×10^-6 5
	6+		775.941 3	E2(+M1)	2.3 GT	0.0056	α=0.0056 4, α(K)=0.0047 4, α(L)=0.00073 4, α(M)=0.000162 9, α(N)=3.72×10^-5 20, α(O)=5.3E-6 3, α(P)=2.71E-7 21
	6+		1058.779 12	E2		0.00271	α=0.00271, α(K)=0.00228 4, α(L)=0.000335 5, α(M)=7.35×10^-5 11, α(N)=1.695E-5 24, α(O)=2.45E-6 4, α(P)=1.315E-7 19
1357.928	3-	< 0.15 ps	1092.256 6	E1		1.06×10^-3	α=1.06×10^-3, α(K)=0.000907 13, α(L)=0.0001200 17, α(M)=2.60E-5 4, α(N)=6.00E-6 9, α(O)=8.78E-7 13, α(P)=5.07E-8 7
1357.928	3-	< 0.15 ps	1277.271 11	E1		8.60×10^-4	α=8.60×10^-4, α(K)=0.000686 10, α(L)=9.02E-5 13, α(M)=1.95E-5 3, α(N)=4.51E-6 7, α(O)=6.61E-7 10, α(P)=3.84E-8 6
1375.08	10+	1.57 ps 10	453.85 9	[E2]		0.0196	B(E2)(W.u.)=350 +24-21, α=0.0196, α(K)=0.01561 22, α(L)=0.00309 5, α(M)=0.000699 10, α(N)=0.0001597 23, α(O)=2.19E-5 3, α(P)=8.65E-7 13
1390.513	5-		329.524 2	[E1]		0.01364	α=0.01364, α(K)=0.01157 17, α(L)=0.001626 23, α(M)=0.000355 5, α(N)=8.15×10^-5 12, α(O)=1.165E-5 17, α(P)=6.14E-7 9
	5-		841.990 4	E1		1.73×10^-3	α=1.73×10^-3, α(K)=0.001479 21, α(L)=0.000198 3, α(M)=4.30E-5 6, α(N)=9.90E-6 14, α(O)=1.444E-6 21, α(P)=8.22E-8 12
	5-		1124.839 10	E1		1.01×10^-3	α=1.01×10^-3, α(K)=0.000860 12, α(L)=0.0001136 16, α(M)=2.46E-5 4, α(N)=5.68E-6 8, α(O)=8.32E-7 12, α(P)=4.81E-8 7
1400.26	0+		512.0 2	[E2]		0.01425	α=0.01425, α(K)=0.01150 17, α(L)=0.00214 3, α(M)=0.000482 7, α(N)=0.0001103 16, α(O)=1.524×10^-5 22, α(P)=6.45E-7 9
1400.26	0+		1319.60 6	E2		1.77×10^-3	α=1.77×10^-3, α(K)=0.001476 21, α(L)=0.000209 3, α(M)=4.57E-5 7, α(N)=1.055E-5 15, α(O)=1.533E-6 22, α(P)=8.53E-8 12
1453.468	2+		177.699 7	[E1]		0.0664	α=0.0664, α(K)=0.0560 8, α(L)=0.00818 12, α(M)=0.00179 3, α(N)=0.000409 6, α(O)=5.73×10^-5 8, α(P)=2.79E-6 4
	2+		392.485 10	E2		0.0292	α=0.0292, α(K)=0.0229 4, α(L)=0.00493 7, α(M)=0.001122 16, α(N)=0.000256 4, α(O)=3.45×10^-5 5, α(P)=1.246E-6 18
	2+		490.510 8	E2(+M1)	4.1 GE	0.0164	α=0.0164 5, α(K)=0.0132 5, α(L)=0.00247 5, α(M)=0.000556 11, α(N)=0.000127 3, α(O)=1.76×10^-5 4, α(P)=7.4E-7 3
	2+		565.316 12	[M1,E2]		0.0164	α=0.0164 54, α(K)=0.0137 47, α(L)=0.0021 5, α(M)=0.00046 11, α(N)=0.000107 25, α(O)=1.54×10^-5 40, α(P)=8.2E-7 31
	2+		1187.777 12	E2		0.00215	α=0.00215, α(K)=0.00181 3, α(L)=0.000261 4, α(M)=5.71×10^-5 8, α(N)=1.318E-5 19, α(O)=1.91E-6 3, α(P)=1.047E-7 15
	2+		1372.790 21	M1+E2(+E0)	+0.40 15	0.00241	α=0.00241 9, α(K)=0.00202 8, α(L)=0.000277 10, α(M)=6.04×10^-5 22, α(N)=1.40E-5 5, α(O)=2.06E-6 8, α(P)=1.21E-7 5
	2+		1453.77 21	[E2]		1.50×10^-3	α=1.50×10^-3, α(K)=0.001227 18, α(L)=0.0001715 24, α(M)=3.74E-5 6, α(N)=8.64E-6 13, α(O)=1.259E-6 18, α(P)=7.09E-8 10
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1485.671	5-	1.92 ns 11	95.158 1	[M1,E2]		3.0	α=3.0 3, α(K)=1.80 53, α(L)=0.94 60, α(M)=0.22 15, α(N)=0.050 33, α(O)=0.0062 37, α(P)=9.9×10^-5 47
	5-	1.92 ns 11	161.209 5	[E1]		0.0860	B(E1)(W.u.)=5.02E-8 47, α=0.0860, α(K)=0.0724 11, α(L)=0.01067 15, α(M)=0.00233 4, α(N)=0.000533 8, α(O)=7.44E-5 11, α(P)=3.57E-6 5
	5-	1.92 ns 11	188.663 3	M1+E2	0.89 19	0.350	B(E2)(W.u.)=0.24 +6-7, B(M1)(W.u.)=2.2E-5 +6-5, α=0.350 14, α(K)=0.271 18, α(L)=0.061 4, α(M)=0.0139 9, α(N)=0.00317 19, α(O)=0.000428 18, α(P)=1.56E-5 14
	5-	1.92 ns 11	275.582 4	E2		0.0839	B(E2)(W.u.)=0.0661 43, α=0.0839, α(K)=0.0617 9, α(L)=0.01715 24, α(M)=0.00397 6, α(N)=0.000900 13, α(O)=0.0001173 17, α(P)=3.16E-6 5
	5-	1.92 ns 11	302.909 2	E1		0.01679	B(E1)(W.u.)=3.30E-8 21, α=0.01679, α(K)=0.01423 20, α(L)=0.00201 3, α(M)=0.000439 7, α(N)=0.0001007 14, α(O)=1.437E-5 21, α(P)=7.51E-7 11
	5-	1.92 ns 11	424.676 4	[E1]		0.00745	B(E1)(W.u.)=1.44E-8 12, α=0.00745, α(K)=0.00633 9, α(L)=0.000877 13, α(M)=0.000191 3, α(N)=4.40E-5 7, α(O)=6.33E-6 9, α(P)=3.42E-7 5
	5-	1.92 ns 11	937.144 7	E1		1.41×10^-3	B(E1)(W.u.)=3.85E-8 +26-23, α=1.41E-3, α(K)=0.001205 17, α(L)=0.0001604 23, α(M)=3.48E-5 5, α(N)=8.03E-6 12, α(O)=1.172E-6 17, α(P)=6.72E-8 10
	5-	1.92 ns 11	1219.98 3	E1		9.01×10^-4	B(E1)(W.u.)=4.00E-8 +25-23, α=9.01E-4, α(K)=0.000744 11, α(L)=9.79E-5 14, α(M)=2.12E-5 3, α(N)=4.90E-6 7, α(O)=7.17E-7 10, α(P)=4.16E-8 6
1490.39	7+		307.7 2	[E2]		0.0597	α=0.0597, α(K)=0.0450 7, α(L)=0.01145 17, α(M)=0.00263 4, α(N)=0.000598 9, α(O)=7.89×10^-5 12, α(P)=2.35E-6 4
	7+		569.3 1	[M1,E2]		0.0161	α=0.0161 53, α(K)=0.0135 47, α(L)=0.0021 5, α(M)=0.00046 11, α(N)=0.000105 25, α(O)=1.51×10^-5 39, α(P)=8.0E-7 30
	7+		941.9 1	E2(+M1)	1.2 GT	0.0040	α=0.0040 6, α(K)=0.0034 5, α(L)=0.00049 6, α(M)=0.000109 13, α(N)=2.5×10^-5 3, α(O)=3.6E-6 5, α(P)=2.0E-7 3
1518.426	5-	< 0.13 ps	160.489 4	[E2]		0.499	α=0.499, α(K)=0.304 5, α(L)=0.1500 21, α(M)=0.0355 5, α(N)=0.00799 12, α(O)=0.000991 14, α(P)=1.376×10^-5 20
	5-	< 0.13 ps	457.49 4	[E1]		0.00628	α=0.00628, α(K)=0.00534 8, α(L)=0.000737 11, α(M)=0.0001605 23, α(N)=3.69×10^-5 6, α(O)=5.32E-6 8, α(P)=2.90E-7 4
	5-	< 0.13 ps	969.908 6	E1		1.32×10^-3	α=1.32×10^-3, α(K)=0.001130 16, α(L)=0.0001501 21, α(M)=3.26E-5 5, α(N)=7.51E-6 11, α(O)=1.097E-6 16, α(P)=6.30E-8 9
	5-	< 0.13 ps	1252.74 3	E1		8.76×10^-4	α=8.76×10^-4, α(K)=0.000710 10, α(L)=9.34E-5 13, α(M)=2.02E-5 3, α(N)=4.67E-6 7, α(O)=6.84E-7 10, α(P)=3.97E-8 6
1530.127	6-		233.6 1	[E2]		0.1419	α=0.1419, α(K)=0.1002 14, α(L)=0.0323 5, α(M)=0.00752 11, α(N)=0.001701 24, α(O)=0.000218 3, α(P)=4.95×10^-6 7
1530.127	6-		347.52 10	[E1]		0.01198	α=0.01198, α(K)=0.01017 15, α(L)=0.001425 20, α(M)=0.000311 5, α(N)=7.14×10^-5 10, α(O)=1.023E-5 15, α(P)=5.42E-7 8
1535.664	4+		238.673 6	[E1]		0.0307	α=0.0307, α(K)=0.0260 4, α(L)=0.00372 6, α(M)=0.000813 12, α(N)=0.000186 3, α(O)=2.64×10^-5 4, α(P)=1.339E-6 19
	4+		352.897 6	E2(+M1)	1.3 GT	0.046	α=0.046 7, α(K)=0.036 6, α(L)=0.0074 4, α(M)=0.00168 7, α(N)=0.000383 17, α(O)=5.2×10^-5 4, α(P)=2.0E-6 4
	4+		474.676 4	M1+E2	1.64 13	0.0219	α=0.0219 7, α(K)=0.0179 6, α(L)=0.00307 7, α(M)=0.000685 14, α(N)=0.000157 4, α(O)=2.21×10^-5 5, α(P)=1.04E-6 4
	4+		572.724 1	E2(+M1)	2.8 GT	0.0113	α=0.0113 6, α(K)=0.0093 6, α(L)=0.00160 6, α(M)=0.000358 13, α(N)=8.2×10^-5 3, α(O)=1.15E-5 5, α(P)=5.3E-7 4
	4+		647.502 2	E2		0.00797	B(E2)(W.u.)=1.15 35, α=0.00797, α(K)=0.00655 10, α(L)=0.001105 16, α(M)=0.000246 4, α(N)=5.65E-5 8, α(O)=7.95E-6 12, α(P)=3.73E-7 6
	4+		987.15 22	(E2)		0.00313	α=0.00313, α(K)=0.00263 4, α(L)=0.000392 6, α(M)=8.62×10^-5 12, α(N)=1.98E-5 3, α(O)=2.86E-6 4, α(P)=1.515E-7 22
1570.912	3-		212.983 1	M1+E2	0.47 7	0.269	α=0.269 6, α(K)=0.221 6, α(L)=0.0371 8, α(M)=0.00826 19, α(N)=0.00190 4, α(O)=0.000270 5, α(P)=1.34×10^-5 5
	3-		295.141 1	(E2)		0.0678	α=0.0678, α(K)=0.0506 7, α(L)=0.01331 19, α(M)=0.00307 5, α(N)=0.000697 10, α(O)=9.15×10^-5 13, α(P)=2.63E-6 4
	3-		360.824 3	M1(+E2)	0.64 LT	0.065	α=0.065 5, α(K)=0.054 5, α(L)=0.0081 3, α(M)=0.00179 6, α(N)=0.000412 14, α(O)=6.0×10^-5 3, α(P)=3.3E-6 3
	3-		422.692 9	E2		0.0238	α=0.0238, α(K)=0.0188 3, α(L)=0.00387 6, α(M)=0.000878 13, α(N)=0.000200 3, α(O)=2.73×10^-5 4, α(P)=1.033E-6 15
	3-		682.77 8	[E1]		0.00263	α=0.00263, α(K)=0.00225 4, α(L)=0.000304 5, α(M)=6.60×10^-5 10, α(N)=1.521E-5 22, α(O)=2.21E-6 3, α(P)=1.242E-7 18
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1574.293	4+		120.819 6	[E2]		1.357	α=1.357, α(K)=0.683 10, α(L)=0.519 8, α(M)=0.1237 18, α(N)=0.0278 4, α(O)=0.00338 5, α(P)=2.90×10^-5 4
	4+		216.365 13	[E1]		0.0396	α=0.0396, α(K)=0.0334 5, α(L)=0.00482 7, α(M)=0.001054 15, α(N)=0.000241 4, α(O)=3.41×10^-5 5, α(P)=1.707E-6 24
	4+		277.285 12	[E1]		0.0210	α=0.0210, α(K)=0.01774 25, α(L)=0.00252 4, α(M)=0.000550 8, α(N)=0.0001261 18, α(O)=1.80×10^-5 3, α(P)=9.28E-7 13
	4+		364.212 8	[E1]		0.01070	α=0.01070, α(K)=0.00908 13, α(L)=0.001270 18, α(M)=0.000277 4, α(N)=6.36×10^-5 9, α(O)=9.12E-6 13, α(P)=4.86E-7 7
	4+		391.541 14	[M1,E2]		0.043	α=0.043 14, α(K)=0.035 13, α(L)=0.0059 9, α(M)=0.00130 18, α(N)=0.00030 5, α(O)=4.3×10^-5 8, α(P)=2.08E-6 83
	4+		513.314 8	[M1,E2]		0.0210	α=0.0210 69, α(K)=0.0175 61, α(L)=0.0027 6, α(M)=0.00060 13, α(N)=0.00014 3, α(O)=2.0×10^-5 5, α(P)=1.04E-6 40
	4+		611.23 5	[M1,E2]		0.0135	α=0.0135 44, α(K)=0.0113 39, α(L)=0.0017 5, α(M)=0.00038 9, α(N)=8.7×10^-5 21, α(O)=1.25E-5 33, α(P)=6.7E-7 25
	4+		686.15 6	[E2]		0.00695	α=0.00695, α(K)=0.00574 8, α(L)=0.000948 14, α(M)=0.000211 3, α(N)=4.84×10^-5 7, α(O)=6.84E-6 10, α(P)=3.28E-7 5
	4+		1025.753 14	E2		0.00289	α=0.00289, α(K)=0.00243 4, α(L)=0.000359 5, α(M)=7.90×10^-5 11, α(N)=1.82E-5 3, α(O)=2.62E-6 4, α(P)=1.401E-7 20
	4+		1308.627 15	M1(+E2)	+0.04 +8-10	0.00282	α=0.00282 5, α(K)=0.00238 4, α(L)=0.000326 5, α(M)=7.10×10^-5 11, α(N)=1.643E-5 24, α(O)=2.42E-6 4, α(P)=1.426E-7 22
1575.623	6-		89.98 10	M1+E2	0.53 3	3.42	α=3.42 6, α(K)=2.45 5, α(L)=0.75 4, α(M)=0.174 8, α(N)=0.0394 18, α(O)=0.00514 21, α(P)=0.000146 3
	6-		251.10 8	[E1]		0.0270	α=0.0270, α(K)=0.0228 4, α(L)=0.00326 5, α(M)=0.000711 10, α(N)=0.0001630 23, α(O)=2.31×10^-5 4, α(P)=1.182E-6 17
	6-		392.86 4	[E1]		0.00894	α=0.00894, α(K)=0.00759 11, α(L)=0.001056 15, α(M)=0.000230 4, α(N)=5.29×10^-5 8, α(O)=7.61E-6 11, α(P)=4.08E-7 6
1634.415	5+		98.753 1	M1+E2	0.50 4	2.55	α=2.55, α(K)=1.90 4, α(L)=0.51 3, α(M)=0.116 7, α(N)=0.0264 15, α(O)=0.00350 17, α(P)=0.000114 3
	5+		309.952 5	[M1,E2]		0.081	α=0.081 23, α(K)=0.066 22, α(L)=0.0119 8, α(M)=0.00266 11, α(N)=0.00061 3, α(O)=8.5×10^-5 9, α(P)=3.8E-6 16
	5+		337.406 9	[E1]		0.01288	α=0.01288, α(K)=0.01092 16, α(L)=0.001533 22, α(M)=0.000334 5, α(N)=7.68×10^-5 11, α(O)=1.099E-5 16, α(P)=5.81E-7 9
	5+		451.649 2	E2(+M1)	1.8 GT	0.0221	α=0.0221 23, α(K)=0.0178 20, α(L)=0.00332 19, α(M)=0.00075 4, α(N)=0.000171 9, α(O)=2.36×10^-5 15, α(P)=1.01E-6 14
	5+		573.422 2	E2(+M1)	2.2 GT	0.0116	α=0.0116 9, α(K)=0.0095 8, α(L)=0.00163 9, α(M)=0.000363 18, α(N)=8.3×10^-5 5, α(O)=1.17E-5 7, α(P)=5.4E-7 6
	5+		671.475 2	E2		0.00731	α=0.00731, α(K)=0.00603 9, α(L)=0.001003 14, α(M)=0.000223 4, α(N)=5.13×10^-5 8, α(O)=7.23E-6 11, α(P)=3.44E-7 5
1637.196	1-		279.266 14	[E2]		0.0805	α=0.0805, α(K)=0.0594 9, α(L)=0.01633 23, α(M)=0.00377 6, α(N)=0.000856 12, α(O)=0.0001118 16, α(P)=3.05×10^-6 5
	1-		361.419 2	[M1,E2]		0.053	α=0.053 16, α(K)=0.043 15, α(L)=0.0074 10, α(M)=0.00166 18, α(N)=0.00038 5, α(O)=5.4×10^-5 9, α(P)=2.6E-6 11
	1-		427.110 2	E2		0.0231	α=0.0231, α(K)=0.0183 3, α(L)=0.00375 6, α(M)=0.000849 12, α(N)=0.000194 3, α(O)=2.64×10^-5 4, α(P)=1.006E-6 14
	1-		488.963 5	E2+M1		0.0238	α=0.0238 77, α(K)=0.0198 69, α(L)=0.0031 7, α(M)=0.00069 14, α(N)=0.00016 4, α(O)=2.3×10^-5 6, α(P)=1.17E-6 46
	1-		1556.50 7	E1		8.12×10^-4	α=8.12×10^-4, α(K)=0.000489 7, α(L)=6.38E-5 9, α(M)=1.382E-5 20, α(N)=3.19E-6 5, α(O)=4.68E-7 7, α(P)=2.74E-8 4
1637.92	7-		1088.6 2	E1		1.07×10^-3	α=1.07×10^-3, α(K)=0.000913 13, α(L)=0.0001207 17, α(M)=2.62E-5 4, α(N)=6.04E-6 9, α(O)=8.83E-7 13, α(P)=5.10E-8 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1669.085	4-		98.175 6	[M1,E2]		2.71	α=2.71 20, α(K)=1.65 48, α(L)=0.82 51, α(M)=0.19 13, α(N)=0.044 28, α(O)=0.0055 32, α(P)=9.1×10^-5 42
	4-		150.653 5	M1+E2	0.92 9	0.689	α=0.689 12, α(K)=0.509 16, α(L)=0.140 6, α(M)=0.0323 14, α(N)=0.0073 4, α(O)=0.00096 4, α(P)=2.87×10^-5 13
	4-		278.572 1	M1(+E2)	0.39 LT	0.134	α=0.134 5, α(K)=0.113 4, α(L)=0.01676 24, α(M)=0.00369 6, α(N)=0.000852 12, α(O)=0.0001240 19, α(P)=6.9×10^-6 3
	4-		311.157 1	M1		0.1024	α=0.1024, α(K)=0.0865 13, α(L)=0.01245 18, α(M)=0.00273 4, α(N)=0.000631 9, α(O)=9.26×10^-5 13, α(P)=5.34E-6 8
	4-		372.074 3	M1(+E2)	0.48 LT	0.061	α=0.061 3, α(K)=0.051 3, α(L)=0.00755 21, α(M)=0.00166 4, α(N)=0.000383 10, α(O)=5.59×10^-5 18, α(P)=3.14E-6 19
	4-		458.991 2	M1		0.0370	α=0.0370, α(K)=0.0313 5, α(L)=0.00445 7, α(M)=0.000974 14, α(N)=0.000225 4, α(O)=3.31×10^-5 5, α(P)=1.92E-6 3
	4-		486.322 8	[E1]		0.00547	α=0.00547, α(K)=0.00465 7, α(L)=0.000640 9, α(M)=0.0001393 20, α(N)=3.21×10^-5 5, α(O)=4.63E-6 7, α(P)=2.53E-7 4
	4-		520.890 18	[E2]		0.01363	α=0.01363, α(K)=0.01102 16, α(L)=0.00204 3, α(M)=0.000458 7, α(N)=0.0001048 15, α(O)=1.450×10^-5 21, α(P)=6.19E-7 9
	4-		1403.25 11	E1		8.13×10^-4	α=8.13×10^-4, α(K)=0.000583 9, α(L)=7.63E-5 11, α(M)=1.653E-5 24, α(N)=3.82E-6 6, α(O)=5.60E-7 8, α(P)=3.27E-8 5
1670.505	8+		345.9 1	E2		0.0421	α=0.0421, α(K)=0.0324 5, α(L)=0.00757 11, α(M)=0.001731 25, α(N)=0.000394 6, α(O)=5.25×10^-5 8, α(P)=1.728E-6 25
	8+		749.1 1	E2+M1	1.5 6	0.0072	α=0.0072 13, α(K)=0.0061 11, α(L)=0.00092 13, α(M)=0.00020 3, α(N)=4.7×10^-5 7, α(O)=6.7E-6 10, α(P)=3.6E-7 7
	8+		1121.9 2	E2		0.00241	α=0.00241, α(K)=0.00203 3, α(L)=0.000295 5, α(M)=6.47×10^-5 9, α(N)=1.491E-5 21, α(O)=2.16E-6 3, α(P)=1.172E-7 17
1683.35	7-		762.1 2	[E1]		0.00211	α=0.00211, α(K)=0.00180 3, α(L)=0.000242 4, α(M)=5.25×10^-5 8, α(N)=1.211E-5 17, α(O)=1.762E-6 25, α(P)=9.98E-8 14
1683.35	7-		1134.7 2	E1		9.95×10^-4	α=9.95×10^-4, α(K)=0.000847 12, α(L)=0.0001118 16, α(M)=2.42E-5 4, α(N)=5.59E-6 8, α(O)=8.18E-7 12, α(P)=4.74E-8 7
1691.340	2-		394.333 3	E2		0.0289	α=0.0289, α(K)=0.0226 4, α(L)=0.00486 7, α(M)=0.001105 16, α(N)=0.000252 4, α(O)=3.40×10^-5 5, α(P)=1.231E-6 18
	2-		415.569 3	M1+E2		0.036	α=0.036 12, α(K)=0.030 11, α(L)=0.0049 9, α(M)=0.00110 17, α(N)=0.00025 4, α(O)=3.6×10^-5 7, α(P)=1.78E-6 71
	2-		543.107 3	M1+E2		0.0182	α=0.0182 59, α(K)=0.0152 53, α(L)=0.0023 6, α(M)=0.00052 12, α(N)=0.00012 3, α(O)=1.7×10^-5 5, α(P)=9.0E-7 35
	2-		728.384 15	E1		0.00231	α=0.00231, α(K)=0.00197 3, α(L)=0.000265 4, α(M)=5.77×10^-5 8, α(N)=1.329E-5 19, α(O)=1.93E-6 3, α(P)=1.091E-7 16
1728.318	2+		154.026 4	[E2]		0.575	α=0.575, α(K)=0.343 5, α(L)=0.179 3, α(M)=0.0424 6, α(N)=0.00954 14, α(O)=0.001179 17, α(P)=1.537×10^-5 22
	2+		370.389 3	[E1]		0.01028	α=0.01028, α(K)=0.00873 13, α(L)=0.001219 17, α(M)=0.000266 4, α(N)=6.11×10^-5 9, α(O)=8.76E-6 13, α(P)=4.68E-7 7
	2+		452.535 8	[E1]		0.00643	α=0.00643, α(K)=0.00547 8, α(L)=0.000756 11, α(M)=0.0001646 23, α(N)=3.79×10^-5 6, α(O)=5.46E-6 8, α(P)=2.97E-7 5
	2+		840.20 6	[M1,E2]		0.0063	α=0.0063 19, α(K)=0.0053 16, α(L)=7.6×10^-4 20, α(M)=0.00017 5, α(N)=3.87E-5 97, α(O)=5.6E-6 15, α(P)=3.1E-7 11
	2+		1462.69 8	(E2)		1.49×10^-3	α=1.49×10^-3, α(K)=0.001213 17, α(L)=0.0001694 24, α(M)=3.70E-5 6, α(N)=8.54E-6 12, α(O)=1.244E-6 18, α(P)=7.01E-8 10
	2+		1647.62 7	M1(+E0,E2)		0.0015	α=0.0015 3, α(K)=0.00118 21, α(L)=0.00016 3, α(M)=3.5×10^-5 6, α(N)=8.1E-6 14, α(O)=1.19E-6 22, α(P)=7.0E-8 14
	2+		1728.58 19	[E2]		1.20×10^-3	α=1.20×10^-3, α(K)=0.000888 13, α(L)=0.0001217 17, α(M)=2.65E-5 4, α(N)=6.12E-6 9, α(O)=8.95E-7 13, α(P)=5.13E-8 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1738.999	3-		168.093 4	M1(+E2)	0.73 LT	0.528	α=0.528 23, α(K)=0.43 4, α(L)=0.077 10, α(M)=0.0173 25, α(N)=0.0040 6, α(O)=0.00056 6, α(P)=2.6×10^-5 3
	3-		348.49 3	(E2)		0.0412	α=0.0412, α(K)=0.0317 5, α(L)=0.00737 11, α(M)=0.001686 24, α(N)=0.000384 6, α(O)=5.12×10^-5 8, α(P)=1.694E-6 24
	3-		381.069 3	M1+E2	0.7 4	0.051	α=0.051 7, α(K)=0.042 7, α(L)=0.0067 5, α(M)=0.00147 9, α(N)=0.000340 22, α(O)=4.9×10^-5 4, α(P)=2.5E-6 5
	3-		441.988 5	M1+E2	0.7 4	0.034	α=0.034 5, α(K)=0.029 5, α(L)=0.0044 4, α(M)=0.00097 8, α(N)=0.000224 19, α(O)=3.2×10^-5 4, α(P)=1.7E-6 3
	3-		463.224 4	E2		0.0185	α=0.0185, α(K)=0.01481 21, α(L)=0.00290 4, α(M)=0.000655 10, α(N)=0.0001498 21, α(O)=2.05×10^-5 3, α(P)=8.22E-7 12
	3-		528.901 5	M1(+E2)	0.045 LT	0.0257	α=0.0257, α(K)=0.0218 3, α(L)=0.00308 5, α(M)=0.000674 10, α(N)=0.0001559 22, α(O)=2.29×10^-5 4, α(P)=1.330E-6 19
	3-		590.767 3	[M1,E2]		0.0147	α=0.0147 48, α(K)=0.0123 42, α(L)=0.0019 5, α(M)=0.00041 10, α(N)=9.5×10^-5 23, α(O)=1.37E-5 36, α(P)=7.3E-7 28
	3-		678.009 3	E1		0.00267	α=0.00267, α(K)=0.00228 4, α(L)=0.000308 5, α(M)=6.70×10^-5 10, α(N)=1.543E-5 22, α(O)=2.24E-6 4, α(P)=1.259E-7 18
	3-		1473.26 5	E1		8.07×10^-4	α=8.07×10^-4, α(K)=0.000536 8, α(L)=7.01E-5 10, α(M)=1.519E-5 22, α(N)=3.51E-6 5, α(O)=5.14E-7 8, α(P)=3.01E-8 5
1745.716	1+		292.241 8	[M1,E2]		0.096	α=0.096 26, α(K)=0.077 26, α(L)=0.0143 5, α(M)=0.00321 6, α(N)=0.000735 17, α(O)=0.000102 8, α(P)=4.5×10^-6 18
	1+		597.43 5	[E1]		0.00348	α=0.00348, α(K)=0.00297 5, α(L)=0.000404 6, α(M)=8.79×10^-5 13, α(N)=2.02E-5 3, α(O)=2.93E-6 5, α(P)=1.633E-7 23
	1+		857.562 9	M1(+E2)	0.29 LT	0.00758	α=0.00758 18, α(K)=0.00643 15, α(L)=0.000896 19, α(M)=0.000196 5, α(N)=4.53×10^-5 10, α(O)=6.66E-6 15, α(P)=3.89E-7 10
	1+		1665.17 11	M1,E2		0.00150	α=0.00150 25, α(K)=0.00115 21, α(L)=0.00016 3, α(M)=3.4×10^-5 6, α(N)=7.9E-6 14, α(O)=1.17E-6 21, α(P)=6.8E-8 13
1751.881	6+		117.467 1	E2(+M1)	2.3 GT	1.503	α=1.503, α(K)=0.78 5, α(L)=0.56 4, α(M)=0.133 9, α(N)=0.0298 18, α(O)=0.00363 20, α(P)=3.5×10^-5 4
	6+		216.193 13	E2		0.183	α=0.183, α(K)=0.1259 18, α(L)=0.0438 7, α(M)=0.01024 15, α(N)=0.00232 4, α(O)=0.000295 5, α(P)=6.12×10^-6 9
	6+		427.433 5	M1+E2	1.3 3	0.031	α=0.031 3, α(K)=0.025 3, α(L)=0.00434 22, α(M)=0.00097 5, α(N)=0.000222 11, α(O)=3.13×10^-5 18, α(P)=1.49E-6 17
	6+		569.129 4	E2(+M1)	3.6 GT	0.0113	α=0.0113 4, α(K)=0.0092 4, α(L)=0.00161 5, α(M)=0.000360 9, α(N)=8.27×10^-5 21, α(O)=1.16E-5 4, α(P)=5.24E-7 23
1754.82	(7)-		1206.3 2	E1		9.13×10^-4	α=9.13×10^-4, α(K)=0.000759 11, α(L)=0.0001000 14, α(M)=2.17E-5 3, α(N)=5.00E-6 7, α(O)=7.32E-7 11, α(P)=4.25E-8 6
1766.608	3-		230.943 1	[E1]		0.0334	α=0.0334, α(K)=0.0283 4, α(L)=0.00406 6, α(M)=0.000886 13, α(N)=0.000203 3, α(O)=2.87×10^-5 4, α(P)=1.452E-6 21
	3-		280.937 2	E2		0.0790	α=0.0790, α(K)=0.0584 9, α(L)=0.01597 23, α(M)=0.00369 6, α(N)=0.000837 12, α(O)=0.0001094 16, α(P)=3.00×10^-6 5
	3-		408.678 5	M1(+E2)	1.0 LT	0.044	α=0.044 6, α(K)=0.037 6, α(L)=0.0056 5, α(M)=0.00124 9, α(N)=0.000285 21, α(O)=4.1×10^-5 4, α(P)=2.2E-6 4
	3-		469.602 3	M1+E2	0.58 3	0.0306	α=0.0306 6, α(K)=0.0257 5, α(L)=0.00384 6, α(M)=0.000845 14, α(N)=0.000195 3, α(O)=2.83×10^-5 5, α(P)=1.55E-6 3
	3-		556.519 2	M1+E2	0.52 19	0.0203	α=0.0203 14, α(K)=0.0171 13, α(L)=0.00249 13, α(M)=0.00055 3, α(N)=0.000126 7, α(O)=1.84×10^-5 11, α(P)=1.03E-6 8
	3-		618.376 3	M1+E2	2.06 13	0.01050	α=0.01050 23, α(K)=0.00870 20, α(L)=0.00141 3, α(M)=0.000312 6, α(N)=7.18×10^-5 14, α(O)=1.020E-5 20, α(P)=5.06E-7 13
	3-		705.614 7	E1		0.00246	α=0.00246, α(K)=0.00210 3, α(L)=0.000283 4, α(M)=6.16×10^-5 9, α(N)=1.419E-5 20, α(O)=2.06E-6 3, α(P)=1.162E-7 17
	3-		803.677 8	(E1)		0.00190	α=0.00190, α(K)=0.001620 23, α(L)=0.000217 3, α(M)=4.72×10^-5 7, α(N)=1.087E-5 16, α(O)=1.584E-6 23, α(P)=9.00E-8 13
	3-		878.444 6	(E1)		1.60×10^-3	α=1.60×10^-3, α(K)=0.001363 19, α(L)=0.000182 3, α(M)=3.95E-5 6, α(N)=9.11E-6 13, α(O)=1.328E-6 19, α(P)=7.59E-8 11
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1767.37	6+		846.2 2	E2		0.00434	α=0.00434, α(K)=0.00362 5, α(L)=0.000561 8, α(M)=0.0001239 18, α(N)=2.85×10^-5 4, α(O)=4.07E-6 6, α(P)=2.08E-7 3
1767.37	6+		1218.6 3	E2+M1		0.0027	α=0.0027 7, α(K)=0.0023 6, α(L)=0.00032 7, α(M)=6.9×10^-5 16, α(N)=1.6E-5 4, α(O)=2.3E-6 6, α(P)=1.34E-7 35
1826.753	4-		192.344 5	[E1]		0.0539	α=0.0539, α(K)=0.0455 7, α(L)=0.00661 10, α(M)=0.001445 21, α(N)=0.000330 5, α(O)=4.64×10^-5 7, α(P)=2.29E-6 4
	4-		251.139 24	[E2]		0.1124	α=0.1124, α(K)=0.0809 12, α(L)=0.0244 4, α(M)=0.00566 8, α(N)=0.001282 18, α(O)=0.0001657 24, α(P)=4.07×10^-6 6
	4-		291.07 4	[E1]		0.0185	α=0.0185, α(K)=0.01571 22, α(L)=0.00222 4, α(M)=0.000486 7, α(N)=0.0001114 16, α(O)=1.588×10^-5 23, α(P)=8.26E-7 12
	4-		308.321 6	[M1,E2]		0.082	α=0.082 23, α(K)=0.067 22, α(L)=0.0121 8, α(M)=0.00270 10, α(N)=0.00062 3, α(O)=8.7×10^-5 9, α(P)=3.9E-6 16
	4-		341.081 3	E2(+M1)	1.5 GT	0.049	α=0.049 6, α(K)=0.039 6, α(L)=0.0082 3, α(M)=0.00187 6, α(N)=0.000426 14, α(O)=5.8×10^-5 3, α(P)=2.2E-6 4
	4-		436.241 4	M1		0.0422	α=0.0422, α(K)=0.0357 5, α(L)=0.00508 8, α(M)=0.001112 16, α(N)=0.000257 4, α(O)=3.78×10^-5 6, α(P)=2.19E-6 3
	4-		529.749 4	M1+E2	0.47 11	0.0234	α=0.0234 10, α(K)=0.0197 9, α(L)=0.00286 9, α(M)=0.000629 19, α(N)=0.000145 5, α(O)=2.12×10^-5 7, α(P)=1.19E-6 6
	4-		643.989 2	E1		0.00297	α=0.00297, α(K)=0.00254 4, α(L)=0.000344 5, α(M)=7.47×10^-5 11, α(N)=1.721E-5 24, α(O)=2.50E-6 4, α(P)=1.398E-7 20
	4-		678.52 3	[E2]		0.00714	α=0.00714, α(K)=0.00588 9, α(L)=0.000976 14, α(M)=0.000217 3, α(N)=4.99×10^-5 7, α(O)=7.04E-6 10, α(P)=3.36E-7 5
	4-		765.756 9	[E1]		0.00209	α=0.00209, α(K)=0.001782 25, α(L)=0.000239 4, α(M)=5.20×10^-5 8, α(N)=1.199E-5 17, α(O)=1.745E-6 25, α(P)=9.88E-8 14
	4-		863.808 5	[E1]		1.65×10^-3	α=1.65×10^-3, α(K)=0.001408 20, α(L)=0.000188 3, α(M)=4.08E-5 6, α(N)=9.41E-6 14, α(O)=1.373E-6 20, α(P)=7.83E-8 11
1840.486	3+		269.575 10	[E1]		0.0225	α=0.0225, α(K)=0.0190 3, α(L)=0.00271 4, α(M)=0.000591 9, α(N)=0.0001356 19, α(O)=1.93×10^-5 3, α(P)=9.94E-7 14
	3+		387.017 21	[M1,E2]		0.044	α=0.044 14, α(K)=0.036 13, α(L)=0.0061 9, α(M)=0.00135 18, α(N)=0.00031 5, α(O)=4.4×10^-5 8, α(P)=2.14E-6 85
	3+		543.477 4	[E1]		0.00427	α=0.00427, α(K)=0.00364 5, α(L)=0.000498 7, α(M)=0.0001083 16, α(N)=2.49×10^-5 4, α(O)=3.61E-6 5, α(P)=1.99E-7 3
	3+		630.398 4	E1		0.00311	α=0.00311, α(K)=0.00265 4, α(L)=0.000360 5, α(M)=7.82×10^-5 11, α(N)=1.80E-5 3, α(O)=2.61E-6 4, α(P)=1.461E-7 21
	3+		779.494 6	M1(+E2)	0.55 LT	0.0092	α=0.0092 6, α(K)=0.0078 5, α(L)=0.00110 6, α(M)=0.000240 13, α(N)=5.6×10^-5 3, α(O)=8.2E-6 5, α(P)=4.7E-7 3
	3+		877.537 14	M1		0.00729	α=0.00729, α(K)=0.00619 9, α(L)=0.000860 12, α(M)=0.000188 3, α(N)=4.34×10^-5 6, α(O)=6.39E-6 9, α(P)=3.74E-7 6
	3+		952.42 9	[M1,E2]		0.0047	α=0.0047 13, α(K)=0.0040 12, α(L)=0.00056 14, α(M)=0.00012 3, α(N)=2.9×10^-5 7, α(O)=4.2E-6 11, α(P)=2.35E-7 72
	3+		1574.66 9	(E2)		1.34×10^-3	α=1.34×10^-3, α(K)=0.001056 15, α(L)=0.0001462 21, α(M)=3.19E-5 5, α(N)=7.36E-6 11, α(O)=1.075E-6 15, α(P)=6.10E-8 9
	3+		1759.8 5	[M1,E2]		0.00140	α=0.00140 22, α(K)=0.00103 17, α(L)=0.000140 23, α(M)=3.0×10^-5 5, α(N)=7.0E-6 12, α(O)=1.03E-6 17, α(P)=6.0E-8 11
1851.811	4-		493.885 2	M1(+E2)	0.58 LT	0.0288	α=0.0288 20, α(K)=0.0243 18, α(L)=0.00352 17, α(M)=0.00077 4, α(N)=0.000178 9, α(O)=2.60×10^-5 14, α(P)=1.48E-6 12
	4-		554.802 3	M1(+E2)	0.20 LT	0.0226	α=0.0226, α(K)=0.0191 4, α(L)=0.00271 5, α(M)=0.000592 10, α(N)=0.0001370 22, α(O)=2.01×10^-5 4, α(P)=1.166E-6 21
	4-		641.715 4	M1+E2	1.18 16	0.0113	α=0.0113 6, α(K)=0.0095 5, α(L)=0.00145 6, α(M)=0.000319 13, α(N)=7.3×10^-5 3, α(O)=1.06E-5 5, α(P)=5.6E-7 4
	4-		669.039 12	E1		0.00275	α=0.00275, α(K)=0.00234 4, α(L)=0.000317 5, α(M)=6.89×10^-5 10, α(N)=1.587E-5 23, α(O)=2.31E-6 4, α(P)=1.294E-7 19
	4-		703.582 13	E2		0.00656	α=0.00656, α(K)=0.00542 8, α(L)=0.000888 13, α(M)=0.000197 3, α(N)=4.53×10^-5 7, α(O)=6.41E-6 9, α(P)=3.10E-7 5
	4-		1585.83 25	E1		8.17×10^-4	α=8.17×10^-4, α(K)=0.000474 7, α(L)=6.18E-5 9, α(M)=1.339E-5 19, α(N)=3.09E-6 5, α(O)=4.54E-7 7, α(P)=2.66E-8 4
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1862.677	4-		228.263 1	E1		0.0345	α=0.0345, α(K)=0.0291 4, α(L)=0.00418 6, α(M)=0.000914 13, α(N)=0.000209 3, α(O)=2.96×10^-5 5, α(P)=1.495E-6 21
	4-		327.012 1	E1		0.01390	α=0.01390, α(K)=0.01178 17, α(L)=0.001658 24, α(M)=0.000362 5, α(N)=8.30×10^-5 12, α(O)=1.187E-5 17, α(P)=6.26E-7 9
	4-		377.015 5	[M1,E2]		0.047	α=0.047 15, α(K)=0.039 14, α(L)=0.0065 10, α(M)=0.00146 18, α(N)=0.00034 5, α(O)=4.7×10^-5 8, α(P)=2.29E-6 92
	4-		652.581 3	E2		0.00782	α=0.00782, α(K)=0.00643 9, α(L)=0.001082 16, α(M)=0.000241 4, α(N)=5.53×10^-5 8, α(O)=7.79E-6 11, α(P)=3.67E-7 6
	4-		714.444 5	E2		0.00633	α=0.00633, α(K)=0.00524 8, α(L)=0.000854 12, α(M)=0.000190 3, α(N)=4.36×10^-5 6, α(O)=6.17E-6 9, α(P)=3.00E-7 5
1878.05	9+		387.5 1	E2		0.0303	α=0.0303, α(K)=0.0237 4, α(L)=0.00515 8, α(M)=0.001171 17, α(N)=0.000267 4, α(O)=3.60×10^-5 5, α(P)=1.288E-6 18
	9+		502.9 2	E2(+M1)		0.0221	α=0.0221 72, α(K)=0.0184 64, α(L)=0.0029 7, α(M)=0.00064 13, α(N)=0.00015 3, α(O)=2.1×10^-5 5, α(P)=1.09E-6 43
	9+		956.9 1	E2(+M1)		0.0046	α=0.0046 13, α(K)=0.0039 12, α(L)=0.00056 14, α(M)=0.00012 3, α(N)=2.8×10^-5 7, α(O)=4.1E-6 11, α(P)=2.32E-7 71
1886.82	4+		1806.15 9	E2		1.16×10^-3	α=1.16×10^-3, α(K)=0.000819 12, α(L)=0.0001117 16, α(M)=2.43E-5 4, α(N)=5.62E-6 8, α(O)=8.23E-7 12, α(P)=4.73E-8 7
1887.67	7+		135.9 1	E2+M1		0.95	α=0.95 6, α(K)=0.67 18, α(L)=0.216 93, α(M)=0.050 23, α(N)=0.0114 51, α(O)=0.00147 55, α(P)=3.7×10^-5 16
	7+		253.2 1	E2		0.1095	α=0.1095, α(K)=0.0790 12, α(L)=0.0236 4, α(M)=0.00548 8, α(N)=0.001242 18, α(O)=0.0001607 23, α(P)=3.98×10^-6 6
	7+		397.4 3	E2		0.0282	α=0.0282, α(K)=0.0221 4, α(L)=0.00473 7, α(M)=0.001076 16, α(N)=0.000245 4, α(O)=3.32×10^-5 5, α(P)=1.207E-6 17
	7+		563.2 1	E2		0.01119	α=0.01119, α(K)=0.00910 13, α(L)=0.001625 23, α(M)=0.000364 5, α(N)=8.34×10^-5 12, α(O)=1.161E-5 17, α(P)=5.14E-7 8
	7+		704.9 1	E2		0.00653	α=0.00653, α(K)=0.00540 8, α(L)=0.000884 13, α(M)=0.000196 3, α(N)=4.51×10^-5 7, α(O)=6.38E-6 9, α(P)=3.09E-7 5
1901.10	12+	0.81 ps 8	526.2 1	E2		0.01328	B(E2)(W.u.)=326 +36-30, α=0.01328, α(K)=0.01075 15, α(L)=0.00198 3, α(M)=0.000444 7, α(N)=0.0001017 15, α(O)=1.408E-5 20, α(P)=6.04E-7 9
1910.430	3-		552.486 21	[M1,E2]		0.0174	α=0.0174 57, α(K)=0.0145 50, α(L)=0.0022 6, α(M)=0.00049 11, α(N)=0.00011 3, α(O)=1.64×10^-5 42, α(P)=8.6E-7 33
	3-		849.435 7	E1		1.70×10^-3	α=1.70×10^-3, α(K)=0.001454 21, α(L)=0.000194 3, α(M)=4.22E-5 6, α(N)=9.73E-6 14, α(O)=1.419E-6 20, α(P)=8.09E-8 12
	3-		947.484 8	E1		1.38×10^-3	α=1.38×10^-3, α(K)=0.001181 17, α(L)=0.0001570 22, α(M)=3.41E-5 5, α(N)=7.86E-6 11, α(O)=1.147E-6 16, α(P)=6.58E-8 10
	3-		1022.278 11	E1		1.20×10^-3	α=1.20×10^-3, α(K)=0.001025 15, α(L)=0.0001358 19, α(M)=2.95E-5 5, α(N)=6.80E-6 10, α(O)=9.93E-7 14, α(P)=5.72E-8 8
1939.65	9-		1018.3 1	E1		1.21×10^-3	α=1.21×10^-3, α(K)=0.001032 15, α(L)=0.0001368 20, α(M)=2.97E-5 5, α(N)=6.85E-6 10, α(O)=1.001E-6 14, α(P)=5.76E-8 8
1951.391	3+,4+		497.926 12	[E2]		0.01532	α=0.01532, α(K)=0.01233 18, α(L)=0.00233 4, α(M)=0.000524 8, α(N)=0.0001200 17, α(O)=1.654×10^-5 24, α(P)=6.90E-7 10
	3+,4+		654.381 5	E1		0.00288	α=0.00288, α(K)=0.00245 4, α(L)=0.000332 5, α(M)=7.22×10^-5 11, α(N)=1.663E-5 24, α(O)=2.41E-6 4, α(P)=1.353E-7 19
	3+,4+		741.313 13	[E1]		0.00223	α=0.00223, α(K)=0.00190 3, α(L)=0.000256 4, α(M)=5.56×10^-5 8, α(N)=1.281E-5 18, α(O)=1.86E-6 3, α(P)=1.054E-7 15
	3+,4+		988.44 4	M1(+E2)	0.87 LT	0.0050	α=0.0050 5, α(K)=0.0042 5, α(L)=0.00059 6, α(M)=0.000128 12, α(N)=3.0×10^-5 3, α(O)=4.4E-6 5, α(P)=2.5E-7 3
	3+,4+		1685.79 14	(E2)		1.24×10^-3	α=1.24×10^-3, α(K)=0.000930 13, α(L)=0.0001278 18, α(M)=2.79E-5 4, α(N)=6.43E-6 9, α(O)=9.40E-7 14, α(P)=5.37E-8 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1959.36	9-		1038.0 1	E1		1.16×10^-3	α=1.16×10^-3, α(K)=0.000996 14, α(L)=0.0001320 19, α(M)=2.86E-5 4, α(N)=6.60E-6 10, α(O)=9.65E-7 14, α(P)=5.56E-8 8
1963.598	5-		211.711 3	(E1)		0.0419	α=0.0419, α(K)=0.0354 5, α(L)=0.00511 8, α(M)=0.001117 16, α(N)=0.000256 4, α(O)=3.61×10^-5 5, α(P)=1.80E-6 3
	5-		329.184 1	E1		0.01368	α=0.01368, α(K)=0.01160 17, α(L)=0.001630 23, α(M)=0.000356 5, α(N)=8.17×10^-5 12, α(O)=1.168E-5 17, α(P)=6.16E-7 9
	5-		387.976 12	[M1,E2]		0.044	α=0.044 14, α(K)=0.036 13, α(L)=0.0060 9, α(M)=0.00134 18, α(N)=0.00031 5, α(O)=4.4×10^-5 8, α(P)=2.13E-6 85
	5-		427.932 2	E1		0.00732	α=0.00732, α(K)=0.00622 9, α(L)=0.000861 12, α(M)=0.000188 3, α(N)=4.32×10^-5 6, α(O)=6.21E-6 9, α(P)=3.36E-7 5
	5-		639.144 11	[E1]		0.00302	α=0.00302, α(K)=0.00258 4, α(L)=0.000349 5, α(M)=7.59×10^-5 11, α(N)=1.749E-5 25, α(O)=2.54E-6 4, α(P)=1.420E-7 20
	5-		666.594 7	E2(+M1)	2.3 GT	0.0080	α=0.0080 6, α(K)=0.0066 5, α(L)=0.00108 6, α(M)=0.000239 12, α(N)=5.5×10^-5 3, α(O)=7.8E-6 5, α(P)=3.8E-7 4
	5-		753.500 11	E2		0.00561	α=0.00561, α(K)=0.00465 7, α(L)=0.000746 11, α(M)=0.0001653 24, α(N)=3.80×10^-5 6, α(O)=5.40E-6 8, α(P)=2.67E-7 4
	5-		780.77 4	[E1]		0.00201	α=0.00201, α(K)=0.001715 24, α(L)=0.000230 4, α(M)=5.00×10^-5 7, α(N)=1.153E-5 17, α(O)=1.678E-6 24, α(P)=9.52E-8 14
	5-		902.610 20	[E1]		1.51×10^-3	α=1.51×10^-3, α(K)=0.001294 19, α(L)=0.0001725 25, α(M)=3.74E-5 6, α(N)=8.64E-6 12, α(O)=1.260E-6 18, α(P)=7.21E-8 10
	5-		1415.30 18	[E1]		8.12×10^-4	α=8.12×10^-4, α(K)=0.000574 8, α(L)=7.52E-5 11, α(M)=1.629E-5 23, α(N)=3.76E-6 6, α(O)=5.51E-7 8, α(P)=3.22E-8 5
1985.88	8+		1064.6 2	M1		0.00457	B(M1)(W.u.)=0.0058, α=0.00457, α(K)=0.00388 6, α(L)=0.000536 8, α(M)=0.0001169 17, α(N)=2.70×10^-5 4, α(O)=3.98E-6 6, α(P)=2.34E-7 4
2009.796			372.597 3	E2		0.0339	α=0.0339, α(K)=0.0264 4, α(L)=0.00587 9, α(M)=0.001338 19, α(N)=0.000305 5, α(O)=4.10×10^-5 6, α(P)=1.424E-6 20
2040.97	8+		153.4 1	E2+M1		0.65	α=0.65 7, α(K)=0.47 13, α(L)=0.135 48, α(M)=0.031 12, α(N)=0.0071 27, α(O)=9.3×10^-4 28, α(P)=2.6E-5 11
2040.97	8+		289.0 1	E2		0.0724	α=0.0724, α(K)=0.0538 8, α(L)=0.01438 21, α(M)=0.00332 5, α(N)=0.000753 11, α(O)=9.87×10^-5 14, α(P)=2.78E-6 4
2071.95	(4)		1108.85 18	M1		0.00414	α=0.00414, α(K)=0.00352 5, α(L)=0.000485 7, α(M)=0.0001059 15, α(N)=2.45×10^-5 4, α(O)=3.61E-6 5, α(P)=2.12E-7 3
2080.03	(2,3)		1814.62 7	E2		1.15×10^-3	α=1.15×10^-3, α(K)=0.000812 12, α(L)=0.0001107 16, α(M)=2.41E-5 4, α(N)=5.57E-6 8, α(O)=8.15E-7 12, α(P)=4.69E-8 7
2100.66	9-		1179.6 2	E1		9.39×10^-4	α=9.39×10^-4, α(K)=0.000790 11, α(L)=0.0001041 15, α(M)=2.26E-5 4, α(N)=5.21E-6 8, α(O)=7.62E-7 11, α(P)=4.42E-8 7
2181.0	4+		1292.8				B(E2)(W.u.)=2.8 8
2187.9	8+	8.3 µs 3	146.4 1	[M1]		0.810	B(M1)(W.u.)=7.3×10^-9 9, α=0.810, α(K)=0.682 10, α(L)=0.0999 15, α(M)=0.0219 3, α(N)=0.00507 8, α(O)=0.000743 11, α(P)=4.24E-5 6
	8+	8.3 µs 3	228.6 1	[E1]		0.0343	B(E1)(W.u.)=1.86E-11 37, α=0.0343, α(K)=0.0290 4, α(L)=0.00417 6, α(M)=0.000911 13, α(N)=0.000209 3, α(O)=2.95E-5 5, α(P)=1.489E-6 21
	8+	8.3 µs 3	248.0 1	[E1]		0.0278	B(E1)(W.u.)=3.9E-12 10, α=0.0278, α(K)=0.0235 4, α(L)=0.00336 5, α(M)=0.000735 11, α(N)=0.0001684 24, α(O)=2.39E-5 4, α(P)=1.219E-6 18
	8+	8.3 µs 3	300.3 1	[M1]		0.1126	B(M1)(W.u.)=2.11×10^-9 18, α=0.1126, α(K)=0.0951 14, α(L)=0.01370 20, α(M)=0.00300 5, α(N)=0.000695 10, α(O)=0.0001019 15, α(P)=5.87E-6 9
	8+	8.3 µs 3	341.8 1	[E1]		0.01248	B(E1)(W.u.)=3.3E-12 7, α=0.01248, α(K)=0.01058 15, α(L)=0.001485 21, α(M)=0.000324 5, α(N)=7.44E-5 11, α(O)=1.065E-5 15, α(P)=5.64E-7 8
	8+	8.3 µs 3	380.2 1	[E1]		0.00966	B(E1)(W.u.)=1.75E-10 7, α=0.00966, α(K)=0.00820 12, α(L)=0.001144 16, α(M)=0.000249 4, α(N)=5.73E-5 8, α(O)=8.23E-6 12, α(P)=4.40E-7 7
	8+	8.3 µs 3	435.4 1	[E2]		0.0219	B(E2)(W.u.)=5.8E-7 9, α=0.0219, α(K)=0.01739 25, α(L)=0.00352 5, α(M)=0.000798 12, α(N)=0.000182 3, α(O)=2.48E-5 4, α(P)=9.59E-7 14
	8+	8.3 µs 3	504.3 1	[E1]		0.00504	B(E1)(W.u.)=1.153E-10 +47-43, α=0.00504, α(K)=0.00429 6, α(L)=0.000589 9, α(M)=0.0001282 18, α(N)=2.95E-5 5, α(O)=4.26E-6 6, α(P)=2.34E-7 4
	8+	8.3 µs 3	550.3 1	[E1]		0.00416	B(E1)(W.u.)=5.50E-12 +41-39, α=0.00416, α(K)=0.00354 5, α(L)=0.000484 7, α(M)=0.0001053 15, α(N)=2.42E-5 4, α(O)=3.51E-6 5, α(P)=1.94E-7 3
	8+	8.3 µs 3	1266.5 2	[M1]		0.00303	B(M1)(W.u.)=4.2×10^-12 +13-14, α=0.00303, α(K)=0.00257 4, α(L)=0.000352 5, α(M)=7.68E-5 11, α(N)=1.778E-5 25, α(O)=2.62E-6 4, α(P)=1.543E-7 22
	8+	8.3 µs 3	1639.2 2	[E2]		1.28×10^-3	B(E2)(W.u.)=5.9E-10 12, α=1.28E-3, α(K)=0.000980 14, α(L)=0.0001350 19, α(M)=2.94E-5 5, α(N)=6.80E-6 10, α(O)=9.93E-7 14, α(P)=5.66E-8 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2211.59	9+		170.7 2	E2+M1		0.47	α=0.47 7, α(K)=0.349 96, α(L)=0.090 26, α(M)=0.0207 66, α(N)=0.0047 15, α(O)=0.00062 15, α(P)=1.96×10^-5 80
	9+		323.9 1	E2		0.0512	α=0.0512, α(K)=0.0389 6, α(L)=0.00953 14, α(M)=0.00219 3, α(N)=0.000497 7, α(O)=6.59×10^-5 10, α(P)=2.05E-6 3
	9+		333.9 2	E2+M1		0.066	α=0.066 20, α(K)=0.054 18, α(L)=0.0094 9, α(M)=0.00211 16, α(N)=0.00048 4, α(O)=6.8×10^-5 9, α(P)=3.2E-6 13
2262.30	10+		887.3 1	M1		0.00710	α=0.00710, α(K)=0.00603 9, α(L)=0.000837 12, α(M)=0.000183 3, α(N)=4.23×10^-5 6, α(O)=6.22E-6 9, α(P)=3.64E-7 6
2280.88	11-		905.8 1	E1		1.50×10^-3	α=1.50×10^-3, α(K)=0.001286 18, α(L)=0.0001713 24, α(M)=3.72E-5 6, α(N)=8.58E-6 12, α(O)=1.251E-6 18, α(P)=7.16E-8 10
2394.85	1+	11.1 fs 7	2314.1 2	[M1]		1.26×10^-3	B(M1)(W.u.)=0.0540 +47-43, α=1.26×10^-3, α(K)=0.000640 9, α(L)=8.63E-5 12, α(M)=1.88E-5 3, α(N)=4.34E-6 6, α(O)=6.41E-7 9, α(P)=3.81E-8 6
2394.85	1+	11.1 fs 7	2394.9 2	M1		1.25×10^-3	B(M1)(W.u.)=0.096 +7-6, α=1.25×10^-3, α(K)=0.000593 9, α(L)=7.98E-5 12, α(M)=1.737E-5 25, α(N)=4.02E-6 6, α(O)=5.93E-7 9, α(P)=3.52E-8 5
2491.65	14+	0.45 ps 5	590.6 1	[E2]		0.00995	B(E2)(W.u.)=330 +42-33, α=0.00995, α(K)=0.00812 12, α(L)=0.001421 20, α(M)=0.000318 5, α(N)=7.29E-5 11, α(O)=1.018E-5 15, α(P)=4.61E-7 7
2503.83	11-		1129.0 2	E1		1.00×10^-3	α=1.00×10^-3, α(K)=0.000855 12, α(L)=0.0001128 16, α(M)=2.45E-5 4, α(N)=5.65E-6 8, α(O)=8.26E-7 12, α(P)=4.78E-8 7
2520.4	1-	7.5 fs 6	2440	[E1]		1.14×10^-3	B(E1)(W.u.)=0.00113 +11-9, α=1.14E-3, α(K)=0.000237 4, α(L)=3.06E-5 5, α(M)=6.61E-6 10, α(N)=1.528E-6 22, α(O)=2.25E-7 4, α(P)=1.333E-8 19
2520.4	1-	7.5 fs 6	2520	E1		1.18×10^-3	B(E1)(W.u.)=8.6E-4 +8-7, α=1.18E-3, α(K)=0.000226 4, α(L)=2.91E-5 4, α(M)=6.29E-6 9, α(N)=1.452E-6 21, α(O)=2.14E-7 3, α(P)=1.269E-8 18
2534.86	12+		272.6 2	[E2]		0.0868	B(E2)(W.u.)=2.4×10² +3-4, α=0.0868, α(K)=0.0637 9, α(L)=0.0179 3, α(M)=0.00413 6, α(N)=0.000937 14, α(O)=0.0001221 18, α(P)=3.26E-6 5
2534.86	12+		447.3 1	[E2]		0.0204	B(E2)(W.u.)=3.2×10² +1-11, α=0.0204, α(K)=0.01621 23, α(L)=0.00324 5, α(M)=0.000732 11, α(N)=0.0001672 24, α(O)=2.28E-5 4, α(P)=8.97E-7 13
2569.4	1+	39 fs 4	2489	[M1]		1.25×10^-3	B(M1)(W.u.)=0.0102 18, α=1.25×10^-3, α(K)=0.000544 8, α(L)=7.32E-5 11, α(M)=1.592E-5 23, α(N)=3.68E-6 6, α(O)=5.43E-7 8, α(P)=3.23E-8 5
2569.4	1+	39 fs 4	2569	M1		1.25×10^-3	B(M1)(W.u.)=0.0239 +32-25, α=1.25×10^-3, α(K)=0.000507 8, α(L)=6.82E-5 10, α(M)=1.482E-5 21, α(N)=3.43E-6 5, α(O)=5.06E-7 7, α(P)=3.01E-8 5
2622.78	12+		360.8 2	[E2]		0.0372	B(E2)(W.u.)=9×10¹ +2-7, α=0.0372, α(K)=0.0288 4, α(L)=0.00655 10, α(M)=0.001494 22, α(N)=0.000340 5, α(O)=4.56E-5 7, α(P)=1.548E-6 22
2622.78	12+		535.5 1	[E2]		0.01270	B(E2)(W.u.)=95 +8-29, α=0.01270, α(K)=0.01029 15, α(L)=0.00188 3, α(M)=0.000422 6, α(N)=9.66E-5 14, α(O)=1.339E-5 19, α(P)=5.79E-7 9
2900.0	1+	2.05 fs 13	2819.0 4	[M1]		1.27×10^-3	B(M1)(W.u.)=0.152 11, α=1.27×10^-3, α(K)=0.000413 6, α(L)=5.54E-5 8, α(M)=1.204E-5 17, α(N)=2.79E-6 4, α(O)=4.11E-7 6, α(P)=2.45E-8 4
2900.0	1+	2.05 fs 13	2900.3 4	M1		1.29×10^-3	B(M1)(W.u.)=0.302 19, α=1.29×10^-3, α(K)=0.000389 6, α(L)=5.20E-5 8, α(M)=1.131E-5 16, α(N)=2.62E-6 4, α(O)=3.86E-7 6, α(P)=2.30E-8 4
2929.4	1-	20.0 fs 21	2849	[E1]		1.32×10^-3	B(E1)(W.u.)=1.76E-4 +27-24, α=1.32E-3, α(K)=0.000187 3, α(L)=2.41E-5 4, α(M)=5.20E-6 8, α(N)=1.202E-6 17, α(O)=1.771E-7 25, α(P)=1.053E-8 15
2929.4	1-	20.0 fs 21	2929	E1		1.35×10^-3	B(E1)(W.u.)=2.90E-4 +38-31, α=1.35E-3, α(K)=0.000180 3, α(L)=2.31E-5 4, α(M)=4.99E-6 7, α(N)=1.153E-6 17, α(O)=1.698E-7 24, α(P)=1.010E-8 15
2934.55	14+		311.6 2	[E2]		0.0575	B(E2)(W.u.)=53 +65-19, α=0.0575, α(K)=0.0434 7, α(L)=0.01094 16, α(M)=0.00251 4, α(N)=0.000571 9, α(O)=7.54E-5 11, α(P)=2.28E-6 4
2934.55	14+		399.8 1	[E2]		0.0278	B(E2)(W.u.)=3.1×10² +8-11, α=0.0278, α(K)=0.0218 3, α(L)=0.00464 7, α(M)=0.001055 15, α(N)=0.000241 4, α(O)=3.25E-5 5, α(P)=1.189E-6 17
2965	1+	33 fs 5	2885	[M1]		1.28×10^-3	B(M1)(W.u.)=0.0082 +20-18, α=1.28×10^-3, α(K)=0.000393 6, α(L)=5.26E-5 8, α(M)=1.144E-5 16, α(N)=2.65E-6 4, α(O)=3.91E-7 6, α(P)=2.33E-8 4
2965	1+	33 fs 5	2965	M1		1.30×10^-3	B(M1)(W.u.)=0.0180 +37-25, α=1.30×10^-3, α(K)=0.000370 6, α(L)=4.96E-5 7, α(M)=1.077E-5 15, α(N)=2.49E-6 4, α(O)=3.68E-7 6, α(P)=2.19E-8 3
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
3061.2	1+	3.9 fs 4	2980.3 4	[M1]		1.30×10^-3	B(M1)(W.u.)=0.048 +11-12, α=1.30×10^-3, α(K)=0.000366 6, α(L)=4.90E-5 7, α(M)=1.065E-5 15, α(N)=2.46E-6 4, α(O)=3.64E-7 5, α(P)=2.17E-8 3
3061.2	1+	3.9 fs 4	3061.4 4	M1		1.32×10^-3	B(M1)(W.u.)=0.152 +21-17, α=1.32×10^-3, α(K)=0.000345 5, α(L)=4.62E-5 7, α(M)=1.004E-5 14, α(N)=2.32E-6 4, α(O)=3.43E-7 5, α(P)=2.04E-8 3
3145.64	14+		523.2 1	[E2]		0.01348	B(E2)(W.u.)=3.2×10² 6, α=0.01348, α(K)=0.01090 16, α(L)=0.00201 3, α(M)=0.000452 7, α(N)=0.0001034 15, α(O)=1.432E-5 20, α(P)=6.12E-7 9
3145.64	14+		610.5 1	[E2]		0.00917	B(E2)(W.u.)=63 21, α=0.00917, α(K)=0.00751 11, α(L)=0.001296 19, α(M)=0.000290 4, α(N)=6.64E-5 10, α(O)=9.30E-6 13, α(P)=4.27E-7 6

Levels: Based on data from ¹⁶²Tb β^- decay, ¹⁶²Ho ε decay (15 min and 67 min), ¹⁶¹Dy(n,γ), ¹⁶²Dy(n,n’γ), ¹⁶⁰Gd(α,2nγ), Coul. ex., ¹⁶²Dy(d,d’), ¹⁶³Dy(d,t), ¹⁶¹Dy(d,p), ¹⁶⁴Dy(p,t), ¹⁶⁰Dy(t,p), ¹⁶²Dy(γ,γ’), muonic atoms, ¹⁶⁶Er(d,⁶Li), ¹⁶¹Dy(α,³He), ¹⁶³Dy(³He,α), ¹⁶³Dy(³He,αγ), ¹⁶¹Dy(⁶¹Ni,⁶⁰Niγ), ¹¹⁸Sn(¹⁶²Dy,¹⁶²Dy’γ), ¹⁶⁰Gd(⁷Li,p4nγ), and ¹⁶⁰Gd(³⁷Cl,Xγ).

Levels: α number of levels above 1.9 MeV have been proposed from (n,n’γ) but are not listed here. For a discussion, see the (n,n’γ) data set. Several levels seen only in (p,t) and (³He,α) are not listed here. See those data sets for this information.

Levels: Calculation of isomer shift: 1973Me08.

Levels: Measured Coulomb displacement energies: 1983Ja03.

Levels: The following theory or model articles may be of interest:

Levels: Discussions of wavefunctions:

Levels: γ-vibrational state and bands - 1965Be40, 1988Ja12; octupole states and bands - 1972Ne02, 1988Ba17; 0⁺ states - 1973Ab06, 1975Bi13, 1981Bi14; 3- at 1770 and 2- at 1866 - 1972Ne21; 4⁺ at 1536, 1⁺ at 1745, 3- at 1770, and 2- at 1866 - 1973We10; 5- at 1485 - 1980Ku15; 4⁺ at 1535 - 1986Ne06; 1⁺ states from 2.5 to 3.5 MeV - 1989Su15; low-K bands - 1988Ch26.

Levels: 1996So19 and 1997So26 report the results of quasiparticle- phonon model (QPM) calculations of the microscopic make-up of the configurations of the nonrotational states in a number of doubly even nuclides, including ¹⁶²Dy. These results for ¹⁶²Dy are generally accepted here.

Levels: Discussions of other items:

Levels: Calculated energies of bandheads for γ, β, and octupole bands - 1965So04; energies and B(E3) for octupole states - 1970Ne02; B(E2) ratios - 1972We05; level energies in five bands - 1974Be69; δ² from IBA model - 1981Wa28, 1987Li11; Δ and B(E2) values - 1993Mi18; B(E1), B(E2), B(E3) for three levels - 1993So20.

Levels: band(b) γ-vibrational band, SIGNATURE=1 BRANCH. See the comments on the signature=0 branch.

Levels: band(c) K^π=2- OCTUPOLE-VIBRATIONAL band, SIGNATURE=0 BRANCH. See the comments on the signature=1 branch.

Levels: band(g) K^π=5- band, SIGNATURE=0 BRANCH. See the comments on the signature=1 branch.

Gammas: Based on data from ¹⁶²Tb β^- decay, ¹⁶²Ho ε decay (15 min and 67 min), ¹⁶¹Dy(n,γ), ¹⁶²Dy(n,n’γ), ¹⁶⁰Gd(α,2nγ), Coul. ex., ¹⁶²Dy(γ,γ’), ¹¹⁸Sn(¹⁶²Dy,¹⁶²Dy’γ), ¹⁶⁰Gd(⁷Li,p4nγ), and ¹⁶⁰Gd(³⁷Cl,Xγ).

Q-value: S(2n)=14651.38 10, S(2p)=14817.1 11 (2021Wa16)

Q(β-)=-2141 keV 3	S(n)= 8196.99 keV 6	S(p)= 8008.4 keV 12	Q(α)= 83.9 keV 10
Reference: 2021WA16

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - K^π=0⁺ ground-state band.
0.0	0+	STABLE
80.661 3	2+	2.19 ns 2	80.659 7	100	E2	0.0	0+
265.664 3	4+	0.132 ns 5	185.002 1	100	E2	80.661	2+
548.520 3	6+	18.4 ps 10	282.859 2	100	E2	265.664	4+
921.28 5	8+	4.2 ps 2	372.50 18	100	[E2]	548.520	6+
1375.08 7	10+	1.57 ps 10	453.85 9	100	[E2]	921.28	8+
1901.10 8	12+	0.81 ps 8	526.2 1	100	E2	1375.08	10+
2491.65 9	14+	0.45 ps 5	590.6 1	100	[E2]	1901.10	12+
3138.55 12	16+		647.0 1	100		2491.65	14+
3830.93 14	18+		692.4 1	100		3138.55	16+
4577.73 17	20+		746.8 1	100		3830.93	18+
5352.0 3	22+		774.3 2	<100		4577.73	20+
6153.2 4	24+		801.2 2	<100		5352.0	22+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - G-vibrational band, signature=0 branch.
888.161 3	2+	1.97 ps 9
1060.991 3	4+		98.054 3 172.835 3 512.464 5 795.327 3 980.335 6	0.08 1 0.71 3 1.58 6 100 4 57 2	M1 E2 E2 E2+M1 E2	962.940 888.161 548.520 265.664 80.661	3+ 2+ 6+ 4+ 2+
1324.465 3	6+		141.73 263.472 1 775.941 3 1058.779 12	1.0 2 11.2 2 100 6 57.5 18	[M1,E2] E2 E2(+M1) E2	1182.763 1060.991 548.520 265.664	5+ 4+ 6+ 4+
1670.505 19	8+		345.9 1 749.1 1 1121.9 2	56 4 100 4 52 4	E2 E2+M1 E2	1324.465 921.28 548.520	6+ 8+ 6+
2087.49 7	10+		417.0 1 712.5 1 1166.3 2	100 3 57 3 35 3		1670.505 1375.08 921.28	8+ 10+ 8+
2622.78 9	12+		360.8 2 535.5 1 721.7 1 1247.9 2	8E+1 4 6.6E+2 9 100 3.4E+2 5	[E2] [E2]	2262.30 2087.49 1901.10 1375.08	10+ 10+ 12+ 10+
3145.64 10	14+		523.2 1 610.5 1 1244.2 2	82 6 100 6 29 6	[E2] [E2]	2622.78 2534.86 1901.10	12+ 12+ 12+
3734.23 14	16+		588.6 1	100		3145.64	14+
4342.53 18	18+		608.3 1	100		3734.23	16+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - K^π=2- octupole-vibrational band, signature=1 branch.
1210.089 3	3-
1390.513 3	5-		180.41 329.524 2 841.990 4 1124.839 10	0.14 4.13 9 37.1 11 100 3	[E1] E1 E1	1210.089 1060.991 548.520 265.664	3- 4+ 6+ 4+
1637.92 8	7-		716.3 1 1088.6 2	35 5 100 10	E1	921.28 548.520	8+ 6+
1959.36 8	9-		322.2? 583.9 1 1038.0 1	25 3 100 13	E1	1637.196 1375.08 921.28	1- 10+ 8+
2330.95 8	11-		370.9 1 430.4 2 955.8 1	53 6 12 100 6		1959.36 1901.10 1375.08	9- 12+ 10+
2777.99 11	13-		446.1 2 877.0 1	<25 100 5		2330.95 1901.10	11- 12+
3293.21 11	15-		515.1 1 801.6 1	46 8 100 8		2777.99 2491.65	13- 14+
3874.28 13	17-		581.0 1 735.8 1	100 10 60 10		3293.21 3138.55	15- 16+
4516.28 16	19-		642.0 1	100		3874.28	17-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Kπ=8⁺ band based on 8.3 μs isomer
2187.9 10	8+	8.3 µs 3
2368.9 13	(9+)		181	100		2187.9	8+
2567.9 13	(10+)		199 380			2368.9 2187.9	(9+) 8+
2784.9 14	(11+)		217 416			2567.9 2368.9	(10+) (9+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - K^π=0- octupole-vibrational band.
1275.772 4	1-	20 fs 4
1357.928 3	3-	< 0.15 ps	1092.256 6 1277.271 11	72 5 100.0 19	E1 E1	265.664 80.661	4+ 2+
1518.426 4	5-	< 0.13 ps	160.489 4 457.49 4 969.908 6 1252.74 3	0.62 4 0.15 4 41.9 15 100 8	[E2] [E1] E1 E1	1357.928 1060.991 548.520 265.664	3- 4+ 6+ 4+
1754.82 20	(7)-		1206.3 2	100 9	E1	548.520	6+
2100.66 14	9-		725.5 2 1179.6 2	18 5 100 23	E1	1375.08 921.28	10+ 8+
2503.83 12	11-		403.3 2 602.7 2 1129.0 2	<33 36 7 100	E1	2100.66 1901.10 1375.08	9- 12+ 10+
2963.94 13	13-		460.2 1 1062.6 2 1588.6 3	100 9 100 9		2503.83 1901.10 1375.08	11- 12+ 10+
3474.84 17	15-		510.9 1	100		2963.94	13-
4037.24 20	17-		562.4 1	100		3474.84	15-
4650.55 22	19-		613.3 1	100		4037.24	17-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - K^π=0⁺ band, S, OR ’Super’, band.
1400.26 6	0+
1453.468 5	2+		177.699 7 392.485 10 490.510 8 565.316 12 1187.777 12 1372.790 21 1453.77 21	0.94 11 1.0 1 3.3 2 2.0 3 70 5 100 4 3.4 14	[E1] E2 E2(+M1) [M1,E2] E2 M1+E2(+E0) [E2]	1275.772 1060.991 962.940 888.161 265.664 80.661 0.0	1- 4+ 3+ 2+ 4+ 2+ 0+
1574.293 4	4+		120.819 6 216.365 13 277.285 12 364.212 8 391.541 14 513.314 8 611.23 5 686.15 6 1025.753 14 1308.627 15	0.21 4 0.25 3 0.20 3 0.48 3 0.92 8 2.1 1 0.50 8 1.2 3 20.8 8 100 8	[E2] [E1] [E1] [E1] [M1,E2] [M1,E2] [M1,E2] [E2] E2 M1(+E2)	1453.468 1357.928 1297.006 1210.089 1182.763 1060.991 962.940 888.161 548.520 265.664	2+ 3- 4- 3- 5+ 4+ 3+ 2+ 6+ 4+
1767.37 17	6+		846.2 2 1218.6 3	47 7 100 13	E2 E2+M1	921.28 548.520	8+ 6+
1985.88 21	8+		1064.6 2	100	M1	921.28	8+
2262.30 11	10+		276.6 2 ? 887.3 1 1340.9 5	<50 100 ≤77	M1	1985.88 1375.08 921.28	8+ 10+ 8+
2534.86 9	12+		272.6 2 ? 447.3 1 633.6 1 1160.1 2	6.2 11 100 3 74 3 29 3	[E2] [E2]	2262.30 2087.49 1901.10 1375.08	10+ 10+ 12+ 10+
2934.55 10	14+		311.6 2 399.8 1 442.7 1 1033.8 2	5.1 8 100 3 21 3 16 3	[E2] [E2]	2622.78 2534.86 2491.65 1901.10	12+ 12+ 14+ 12+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
3373.94 12	16+		439.4 1 882.2 2	100 3 <13		2934.55 2491.65	14+ 14+
3878.37 13	18+		504.4 1 739.8 1	100 4 67 4		3373.94 3138.55	16+ 16+
4434.60 14	20+		556.2 1 603.7 1	100 6 88 6		3878.37 3830.93	18+ 18+
5061.80 18	22+		627.2 1	100		4434.60	20+
5747.20 20	24+		685.4 1	100		5061.80	22+
6488.7 3	26+		741.5 2	<100		5747.20	24+
7276.0 4	28+		787.3 2	<100		6488.7	26+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - K^π=5- band, signature=1 branch.
1485.671 3	5-	1.92 ns 11
1683.35 8	7-		107.7 2 197.4 2 762.1 2 1134.7 2	5 31 4 100 4	[E1] E1	1575.623 1485.671 921.28 548.520	6- 5- 8+ 6+
1939.65 9	9-		564.6 2 1018.3 1	16 4 100 12	E1	1375.08 921.28	10+ 8+
2280.88 12	11-		905.8 1	100	E1	1375.08	10+
2682.59 10	13-		402.0 1 781.6 1	42 3 100 3		2280.88 1901.10	11- 12+
3145.63 10	15-		463.2 1 654.2 1	100 3 66 3		2682.59 2491.65	13- 14+
3666.92 15	17-		521.1 1	100		3145.63	15-
4243.52 18	19-		576.6 1	100		3666.92	17-
4873.42 21	21-		629.9 1	100		4243.52	19-
5554.13 23	23-		680.7 1	100		4873.42	21-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 8 - K^π=4⁺ band, probable hexadecapole vibration.
1535.664 3	4+
1634.415 3	5+		98.753 1 309.952 5 337.406 9 451.649 2 573.422 2 671.475 2	17 1 1.6 2 0.45 9 20 2 77.7 21 100 3	M1+E2 [M1,E2] [E1] E2(+M1) E2(+M1) E2	1535.664 1324.465 1297.006 1182.763 1060.991 962.940	4+ 6+ 4- 5+ 4+ 3+
1751.881 3	6+		117.467 1 216.193 13 266.211 427.433 5 569.129 4 691.0 1	65 3 41.0 14 6.0 6 35 3 100 5 75 5	E2(+M1) E2 M1+E2 E2(+M1)	1634.415 1535.664 1485.671 1324.465 1182.763 1060.991	5+ 4+ 5- 6+ 5+ 4+
1887.67 5	7+		135.9 1 253.2 1 397.4 3 563.2 1 704.9 1	81 6 100 6 50 6 31 6 25 6	E2+M1 E2 E2 E2 E2	1751.881 1634.415 1490.39 1324.465 1182.763	6+ 5+ 7+ 6+ 5+
2040.97 7	8+		153.4 1 289.0 1 550.6 2	100 30 85 15 15	E2+M1 E2	1887.67 1751.881 1490.39	7+ 6+ 7+
2211.59 8	9+		170.7 2 323.9 1 333.9 2 541.4 2	63 7 100 7 30 4 11	E2+M1 E2 E2+M1	2040.97 1887.67 1878.05 1670.505	8+ 7+ 9+ 8+
2398.27 22	10+		186.6? 357.3 2	100		2211.59 2040.97	9+ 8+
2601.32 12	11+		263.3 2 389.9 1	<83 100 17		2337.35 2211.59	11+ 9+
2817	12+		419	100		2398.27	10+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
3052.82 15	13+		451.5 1	100		2601.32	11+
3269	14+		452	100		2817	12+
3564.22 18	15+		511.4 1	100		3052.82	13+
3835	16+		566	100		3269	14+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 9 - K^π=3- octupole-vibrational band.
1570.912 3	3-
1669.085 3	4-		98.175 6 150.653 5 278.572 1 311.157 1 372.074 3 458.991 2 486.322 8 520.890 18 1403.25 11	0.17 6 15.3 4 10.4 2 100 5 4.6 1 8.8 11 1.7 3 0.61 11 23 8	[M1,E2] M1+E2 M1(+E2) M1 M1(+E2) M1 [E1] [E2] E1	1570.912 1518.426 1390.513 1357.928 1297.006 1210.089 1182.763 1148.232 265.664	3- 5- 5- 3- 4- 3- 5+ 2- 4+
1833.25 19	(5-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 10 - K^π=1- octupole-vibrational band.
1637.196 4	1-
1691.340 4	2-		394.333 3 415.569 3 543.107 3 728.384 15	12.1 6 56 4 100 4 98 10	E2 M1+E2 M1+E2 E1	1297.006 1275.772 1148.232 962.940	4- 1- 2- 3+
1738.999 4	3-		168.093 4 348.49 3 381.069 3 441.988 5 463.224 4 528.901 5 590.767 3 678.009 3 1473.26 5	2.5 3 5.1 13 4.4 3 5.0 3 13 1 100 3 50.7 13 83 3 63 7	M1(+E2) (E2) M1+E2 M1+E2 E2 M1(+E2) [M1,E2] E1 E1	1570.912 1390.513 1357.928 1297.006 1275.772 1210.089 1148.232 1060.991 265.664	3- 5- 3- 4- 1- 3- 2- 4+ 4+
1851.811 4	4-		493.885 2 554.802 3 641.715 4 669.039 12 703.582 13 1585.83 25	53 2 82 5 35 4 53 4 14.6 7 100 30	M1(+E2) M1(+E2) M1+E2 E1 E2 E1	1357.928 1297.006 1210.089 1182.763 1148.232 265.664	3- 4- 3- 5+ 2- 4+
1963.598 3	5-		211.711 3 329.184 1 387.976 12 427.932 2 639.144 11 666.594 7 753.500 11 780.77 4 902.610 20 1415.30 18	27 9 141 9 4.5 5 86.8 14 20 3 57.3 23 82 9 27 5 68 5 100 27	(E1) E1 [M1,E2] E1 [E1] E2(+M1) E2 [E1] [E1] [E1]	1751.881 1634.415 1575.623 1535.664 1324.465 1297.006 1210.089 1182.763 1060.991 548.520	6+ 5+ 6- 4+ 6+ 4- 3- 5+ 4+ 6+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 11 - K^π=0⁺ band.
1666.27 20	0+
1728.318 4	2+		154.026 4 370.389 3 452.535 8 840.20 6 1462.69 8 1647.62 7 1728.58 19	0.57 7 3.5 2 3.2 6 3.9 15 32 6 100 9 54 8	[E2] [E1] [E1] [M1,E2] (E2) M1(+E0,E2) [E2]	1574.293 1357.928 1275.772 888.161 265.664 80.661 0.0	4+ 3- 1- 2+ 4+ 2+ 0+
1886.82 9	4+		671.55 10 923.8 3 1806.15 9	64 5 10 2 100 6	E2	1210.089 962.940 80.661	3- 3+ 2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 12 - K^π=1⁺ band.
1745.716 7	1+
1782.68 9	2+		819.76 13 894.39 22 1516.6 3 1702.08 19 1782.8 2	74 19 64 9 26 7 100 9 111 5		962.940 888.161 265.664 80.661 0.0	3+ 2+ 4+ 2+ 0+
1840.486 4	3+		269.575 10 387.017 21 543.477 4 630.398 4 779.494 6 877.537 14 952.42 9 1574.66 9 1759.8 5	1.2 2 1.6 5 24.2 14 40 4 70 5 52.6 18 12 4 86 11 100 26	[E1] [M1,E2] [E1] E1 M1(+E2) M1 [M1,E2] (E2) [M1,E2]	1570.912 1453.468 1297.006 1210.089 1060.991 962.940 888.161 265.664 80.661	3- 2+ 4- 3- 4+ 3+ 2+ 4+ 2+
2079	(6+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 13 - SECOND EXCITED K^π=3- band. Configuration=(ν 5/2[642])+(ν 1/2[521])
1766.608 3	3-
1826.753 4	4-		192.344 5 251.139 24 291.07 4 308.321 6 341.081 3 436.241 4 529.749 4 643.989 2 678.52 3 765.756 9 863.808 5	2.1 2 1.7 4 0.32 9 1.5 2 2.5 3 4.8 2 30.6 8 41 2 5.2 5 26 2 100 2	[E1] [E2] [E1] [M1,E2] E2(+M1) M1 M1+E2 E1 [E2] [E1] [E1]	1634.415 1575.623 1535.664 1518.426 1485.671 1390.513 1297.006 1182.763 1148.232 1060.991 962.940	5+ 6- 4+ 5- 5- 5- 4- 5+ 2- 4+ 3+
1913.68 7	5-
2000.7 10
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 14 - BANDHEAD OF α K^π=4- band.
1862.677 3	4-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 15 - SECOND EXCITED K^π=2- band.
1863.83 6	2-
1910.430 6	3-		552.486 21 849.435 7 947.484 8 1022.278 11	1.0 1 80 2 100 3 93 6	[M1,E2] E1 E1 E1	1357.928 1060.991 962.940 888.161	3- 4+ 3+ 2+
1974.10 10	4-		678.05 13 911.86 22 1010.09 19	82 8 61 8 100 10		1297.006 1060.991 962.940	4- 4+ 3+
2053.541 13	5-		302.880 20 536.8 3 663.41 728.384 15 994.0 4 1505.2 7 1786.9 3	4.0 13 21 19 4.0 89 9 75 13 10.4 6 100 11		1751.881 1518.426 1390.513 1324.465 1060.991 548.520 265.664	6+ 5- 5- 6+ 4+ 6+ 4+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 16 - K^π=0⁺ band
2125.212 8	0+
2189.71 18	(2+)		1226.4 2 2110.0 4 2190.8 6	66 19 100 16 22 9		962.940 80.661 0.0	3+ 2+ 0+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 17 - SECOND EXCITED K^π=4⁺ band.
2181.0	4+
2292.4 7	5+		1231.4 1329.4	2.2E+2 7 100		1060.991 962.940	4+ 3+
2421.0	6+		1238.2	100		1182.763	5+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 18 - K^π=8⁺ BANDHEAD. Configuration=(ν 5/2[523])+(ν 11/2[505]).
2203	(8+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 19 - MEMBER OF α K^π=3⁺ band. Configuration=(ν 11/2[505])-(ν 5/2[523]).
2283	(5+)
2374	(6+)
2562	(7+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 20 - K^π=6⁺ band MEMBER. Configuration=(ν 5/2[642])+(ν 7/2[633]).
2506	(7+)
2755	(8+)
2930	(9+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 21 - K^π=1⁺ band MEMBER. Configuration=(ν 7/2[633])-(ν 5/2[642]).
2623	(6+)
2847	(7+)

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	0+	STABLE	Δ<r²> data are available: for ¹⁶⁰Dy-¹⁶²Dy, Δ<r²>≈0.13 fm² (1985Ne09, read from plot by evaluator) and \|l=0.129 8 fm² (1990Wa25) where Δ<r²>≈\|l. For ¹⁶²Dy-¹⁶⁴Dy, Δ<r²> ≈0.12 fm² (1985Ne09) and \|l=0.119 fm². See also 1970Va21 and 1978Ho09. Other isotope shift data: 1968De36, 1973Le16, and 1982Cl04. E(level): Δ<r²> data are available: for ¹⁶⁰Dy-¹⁶²Dy, Δ<r²>≈0.13 fm² (1985Ne09, read from plot by evaluator) and \|l=0.129 8 fm² (1990Wa25) where Δ<r²>≈\|l. For ¹⁶²Dy-¹⁶⁴Dy, Δ<r²> ≈0.12 fm² (1985Ne09) and \|l=0.119 fm². See also 1970Va21 and 1978Ho09. Other isotope shift data: 1968De36, 1973Le16, and 1982Cl04. K^π=0⁺ ground-state band.
80.661	2+	2.19 ns 2	μ=+0.686 28 E(level): K^π=0⁺ ground-state band.
265.664	4+	0.132 ns 5	μ=+1.14 12 E(level): K^π=0⁺ ground-state band.
548.520	6+	18.4 ps 10	μ=+2.18 11 E(level): K^π=0⁺ ground-state band.
888.161	2+	1.97 ps 9	μ=0.92 6 E(level): G-vibrational band, signature=0 branch.
921.28	8+	4.2 ps 2	μ=+3.05 16 E(level): K^π=0⁺ ground-state band.
1060.991	4+		E(level): G-vibrational band, signature=0 branch.
1210.089	3-		B(E3)=0.104 7 E(level): K^π=2- octupole-vibrational band, signature=1 branch.
1275.772	1-	20 fs 4	XREF: Q(1279). E(level): K^π=0- octupole-vibrational band.
1324.465	6+		XREF: Q(1329). E(level): G-vibrational band, signature=0 branch.
1357.928	3-	< 0.15 ps	B(E3)=0.033 11 XREF: M(1357.4)U(1363)V(1364). E(level): K^π=0- octupole-vibrational band.
1375.08	10+	1.57 ps 10	μ=+3.6 4 E(level): K^π=0⁺ ground-state band.
1390.513	5-		XREF: V(1397)Z(1387.5). E(level): K^π=2- octupole-vibrational band, signature=1 branch.
1400.26	0+		XREF: O(1397)S(1398.9). E(level): K^π=0⁺ band, S, OR ’Super’, band.
1453.468	2+		XREF: V(1461). E(level): K^π=0⁺ band, S, OR ’Super’, band.
1485.671	5-	1.92 ns 11	XREF: V(1493). E(level): K^π=5- band, signature=1 branch.
1518.426	5-	< 0.13 ps	XREF: Q(1527)V(1529). E(level): K^π=0- octupole-vibrational band.
1530.127	6-		XREF: K(1527.5). E(level): Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1535.664	4+		XREF: O(1533). E(level): K^π=4⁺ band, probable hexadecapole vibration.
1570.912	3-		XREF: p(1572.0). E(level): K^π=3- octupole-vibrational band.
1574.293	4+		XREF: F(1575.6)γ(1575.6)U(1578). E(level): K^π=0⁺ band, S, OR ’Super’, band.
1575.623	6-		XREF: V(1581).
1634.415	5+		XREF: V(1644). E(level): K^π=4⁺ band, probable hexadecapole vibration.
1637.196	1-		E(level): K^π=1- octupole-vibrational band.
1637.92	7-		E(level): K^π=2- octupole-vibrational band, signature=1 branch. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
E(level)	J^π(level)	T_1/2(level)	Comments
1666.27	0+		E(level): K^π=0⁺ band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1669.085	4-		E(level): K^π=3- octupole-vibrational band.
1670.505	8+		XREF: K(1670.2). E(level): G-vibrational band, signature=0 branch.
1683.35	7-		XREF: V(1691). E(level): K^π=5- band, signature=1 branch.
1691.340	2-		XREF: S(1700). E(level): K^π=1- octupole-vibrational band.
1728.318	2+		XREF: Q(1723)S(1732). E(level): K^π=0⁺ band.
1738.999	3-		XREF: Q(1737). E(level): K^π=1- octupole-vibrational band.
1745.716	1+		E(level): K^π=1⁺ band.
1751.881	6+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
1754.82	(7)-		XREF: K(1759.)V(1765). E(level): K^π=0- octupole-vibrational band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1766.608	3-		XREF: U(1759). E(level): SECOND EXCITED K^π=3- band. Configuration=(ν 5/2[642])+(ν 1/2[521]).
1767.37	6+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
1782.68	2+		Listed γ branching is from (n,n’γ), except where noted otherwise. E(level): Listed γ branching is from (n,n’γ), except where noted otherwise. K^π=1⁺ band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1807.56	8-		XREF: V(1816).
1826.753	4-		XREF: U(1828). E(level): SECOND EXCITED K^π=3- band. Configuration=(ν 5/2[642])+(ν 1/2[521]).
1833.25	(5-)		XREF: H(1837.09). E(level): K^π=3- octupole-vibrational band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1840.486	3+		XREF: V(1843). E(level): K^π=1⁺ band.
1851.811	4-		E(level): K^π=1- octupole-vibrational band.
1862.677	4-		E(level): BANDHEAD OF α K^π=4- band.
1863.83	2-		Member of a possible doublet. 1995Be02 assign a number of γ’s deexciting this level. 2006Ap01, however, state that this level is not populated in the (n,γ) reaction with thermal neutrons. The listed γ branching is from (n,n’γ). E(level): Member of a possible doublet. 1995Be02 assign a number of γ’s deexciting this level. 2006Ap01, however, state that this level is not populated in the (n,γ) reaction with thermal neutrons. The listed γ branching is from (n,n’γ). SECOND EXCITED K^π=2- band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1886.82	4+		The listed γ branching is from 2002Go15, in (n,n’γ). For a discussion of the problems associated with this γ branching, see the comments on this level in the ¹⁶¹Dy(n,γ) E=th data set. E(level): The listed γ branching is from 2002Go15, in (n,n’γ). For a discussion of the problems associated with this γ branching, see the comments on this level in the ¹⁶¹Dy(n,γ) E=th data set. K^π=0⁺ band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1887.67	7+		γ-decay properties are from (α,2nγ). E(level): γ-decay properties are from (α,2nγ). K^π=4⁺ band, probable hexadecapole vibration.
1895.42	2+		Listed γ branching is from (n,n’γ). E(level): Listed γ branching is from (n,n’γ). Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1901.10	12+	0.81 ps 8	XREF: M(1903.1). E(level): K^π=0⁺ ground-state band.
1904.13			Assigned as the 4⁺ member of the Kπ=1⁺ band at 1745 keV by 1995Be02 from (n,γ). However, the fact that this level is populated differently in (d,p) and (d,t) from the lower-spin members of this band suggests that it is not a member. In a subsequent (n,γ) study, 2006Ap01 do not confirm the population in (n,γ) of a level at this energy. They propose that the Jπ=4⁺ band member is at 1954 keV. E(level): Assigned as the 4⁺ member of the Kπ=1⁺ band at 1745 keV by 1995Be02 from (n,γ). However, the fact that this level is populated differently in (d,p) and (d,t) from the lower-spin members of this band suggests that it is not a member. In a subsequent (n,γ) study, 2006Ap01 do not confirm the population in (n,γ) of a level at this energy. They propose that the Jπ=4⁺ band member is at 1954 keV. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
E(level)	J^π(level)	T_1/2(level)	Comments
1910.430	3-		E(level): SECOND EXCITED K^π=2- band.
1913.68	5-		E(level): SECOND EXCITED K^π=3- band. Configuration=(ν 5/2[642])+(ν 1/2[521]). Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1939.65	9-		γ-decay properties are from (α,2nγ). E(level): γ-decay properties are from (α,2nγ). K^π=5- band, signature=1 branch.
1959.36	9-		XREF: V(1955). E(level): K^π=2- octupole-vibrational band, signature=1 branch.
1963.598	5-		E(level): K^π=1- octupole-vibrational band.
1974.10	4-		XREF: F(1973.2)γ(1973.2). E(level): SECOND EXCITED K^π=2- band. Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1982.46	2+		E(level): Level reported by 1995Be02 in (n,γ), but not confirmed by 2006Ap01 (whose data extend only to levels below 2 MeV). See the relevant comment in the ¹⁶²Dy(n,γ) E=th data set.
1985.88	8+		XREF: K(1989.)U(1990). E(level): K^π=0⁺ band, S, OR ’Super’, band.
2000.7			E(level): SECOND EXCITED K^π=3- band. Configuration=(ν 5/2[642])+(ν 1/2[521]).
2040.97	8+		γ-decay properties are from (α,2nγ). E(level): γ-decay properties are from (α,2nγ). K^π=4⁺ band, probable hexadecapole vibration.
2053.541	5-		E(level): SECOND EXCITED K^π=2- band.
2079	(6+)		E(level): K^π=1⁺ band.
2080.03	(2,3)		XREF: Q(2076)U(2085).
2087.49	10+		E(level): G-vibrational band, signature=0 branch.
2100.66	9-		γ-decay properties are from (α,2nγ). E(level): γ-decay properties are from (α,2nγ). K^π=0- octupole-vibrational band.
2103.48	(2+)		XREF: R(2108.5).
2125.212	0+		XREF: S(2126.5). E(level): K^π=0⁺ band.
2181.0	4+		E(level): SECOND EXCITED K^π=4⁺ band.
2187.9	8+	8.3 µs 3	Proposed configuration=ν11/2[505]~#ν5/2[523], Kπ=8⁺, in 2011Sw02 (¹⁶⁰Gd(⁹Be,α3nγ)). E(level): Kπ=8⁺ band based on 8.3 μs isomer.
2189.71	(2+)		XREF: H(2192.0). E(level): K^π=0⁺ band.
2203	(8+)		E(level): K^π=8⁺ BANDHEAD. Configuration=(ν 5/2[523])+(ν 11/2[505]).
2211.59	9+		γ branching and properties are from (α,2nγ). E(level): γ branching and properties are from (α,2nγ). K^π=4⁺ band, probable hexadecapole vibration.
2262.30	10+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
2280.88	11-		E(level): K^π=5- band, signature=1 branch.
2283	(5+)		E(level): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). MEMBER OF α K^π=3⁺ band. Configuration=(ν 11/2[505])-(ν 5/2[523]).
E(level)	J^π(level)	T_1/2(level)	Comments
2292.4	5+		E(level): SECOND EXCITED K^π=4⁺ band.
2330.95	11-		E(level): K^π=2- octupole-vibrational band, signature=1 branch.
2368.9	(9+)		E(level): Kπ=8⁺ band based on 8.3 μs isomer.
2374	(6+)		E(level): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). MEMBER OF α K^π=3⁺ band. Configuration=(ν 11/2[505])-(ν 5/2[523]).
2394.85	1+	11.1 fs 7	BM1=0.52 3 T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2398.27	10+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
2421.0	6+		E(level): SECOND EXCITED K^π=4⁺ band.
2491.65	14+	0.45 ps 5	XREF: M(2495). E(level): K^π=0⁺ ground-state band.
2494.4	0+		XREF: S(2496.7).
2503.83	11-		XREF: I(2504.15). E(level): K^π=0- octupole-vibrational band.
2506	(7+)		E(level): K^π=6⁺ band MEMBER. Configuration=(ν 5/2[642])+(ν 7/2[633]).
2520.4	1-	7.5 fs 6	BE1=5.0E-5 4 XREF: n(2520). T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2534.86	12+		XREF: I(2535.21). E(level): K^π=0⁺ band, S, OR ’Super’, band.
2537.4	1	98 fs 21	T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2554.3			XREF: p(2553.7).
2562	(7+)		E(level): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). MEMBER OF α K^π=3⁺ band. Configuration=(ν 11/2[505])-(ν 5/2[523]).
2567.9	(10+)		Magnitude of g_K-g_R=0.24 4 (2011Sw02, ¹⁶⁰Gd(⁹Be,α3nγ)). E(level): Kπ=8⁺ band based on 8.3 μs isomer.
2569.4	1+	39 fs 4	BM1=0.13 1 T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2601.32	11+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
2622.78	12+		E(level): G-vibrational band, signature=0 branch.
2623	(6+)		E(level): K^π=1⁺ band MEMBER. Configuration=(ν 7/2[633])-(ν 5/2[642]).
2682.59	13-		E(level): K^π=5- band, signature=1 branch.
2755	(8+)		E(level): K^π=6⁺ band MEMBER. Configuration=(ν 5/2[642])+(ν 7/2[633]).
2777.99	13-		E(level): K^π=2- octupole-vibrational band, signature=1 branch.
2779.8			XREF: E(2773).
E(level)	J^π(level)	T_1/2(level)	Comments
2784.9	(11+)		Magnitude of g_K-g_R=0.27 +8-6 (2011Sw02, ¹⁶⁰Gd(⁹Be,α3nγ)). E(level): Kπ=8⁺ band based on 8.3 μs isomer.
2802.7	0+		XREF: E(2796).
2815	1	39 fs 13	T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2817	12+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
2847	(7+)		E(level): K^π=1⁺ band MEMBER. Configuration=(ν 7/2[633])-(ν 5/2[642]).
2900.0	1+	2.05 fs 13	BM1=1.63 10 XREF: H(2902.1). T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2909.4	1	22 fs 7	XREF: H(2909.7). T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2929.4	1-	20.0 fs 21	BE1=1.7E-5 2 T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
2930	(9+)		E(level): K^π=6⁺ band MEMBER. Configuration=(ν 5/2[642])+(ν 7/2[633]).
2934.55	14+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
2963.94	13-		E(level): K^π=0- octupole-vibrational band.
2965	1+	33 fs 5	BM1=0.10 1 T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
3052.82	13+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
3061.2	1+	3.9 fs 4	BM1=0.86 8 T_1/2(level): From (γ,γ’) and, to the extent that level may decay via unreported γ’s, values are upper limits.
3138.55	16+		XREF: M(3144). E(level): K^π=0⁺ ground-state band.
3145.63	15-		E(level): K^π=5- band, signature=1 branch.
3145.64	14+		E(level): G-vibrational band, signature=0 branch.
3269	14+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
3293.21	15-		E(level): K^π=2- octupole-vibrational band, signature=1 branch.
3373.94	16+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
3474.84	15-		E(level): K^π=0- octupole-vibrational band.
3564.22	15+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
3666.92	17-		E(level): K^π=5- band, signature=1 branch.
3734.23	16+		E(level): G-vibrational band, signature=0 branch.
3830.93	18+		XREF: I(3832.3)M(3837). E(level): K^π=0⁺ ground-state band.
E(level)	J^π(level)	T_1/2(level)	Comments
3835	16+		E(level): K^π=4⁺ band, probable hexadecapole vibration.
3874.28	17-		E(level): K^π=2- octupole-vibrational band, signature=1 branch.
3878.37	18+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
4037.24	17-		E(level): K^π=0- octupole-vibrational band.
4243.52	19-		E(level): K^π=5- band, signature=1 branch.
4342.53	18+		E(level): G-vibrational band, signature=0 branch.
4434.60	20+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
4516.28	19-		E(level): K^π=2- octupole-vibrational band, signature=1 branch.
4577.73	20+		XREF: Y(4572). E(level): K^π=0⁺ ground-state band.
4650.55	19-		E(level): K^π=0- octupole-vibrational band.
4873.42	21-		E(level): K^π=5- band, signature=1 branch.
5061.80	22+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
5352.0	22+		E(level): K^π=0⁺ ground-state band.
5554.13	23-		E(level): K^π=5- band, signature=1 branch.
5747.20	24+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
6153.2	24+		E(level): K^π=0⁺ ground-state band.
6488.7	26+		E(level): K^π=0⁺ band, S, OR ’Super’, band.
7276.0	28+		E(level): K^π=0⁺ band, S, OR ’Super’, band.

E(level)	E(gamma)	Comments
80.661	80.659	M(γ): all data agree with pure E2 assignment, namely, K/L=0.54 (1961Jo10), L1/L2/L3=0.11/0.98/1.00 (1961Ha23), and α(K)exp=2.1 (evaluator’s combination of Iγ from 1971Wo09 and Ice from 1961Jo10). All data are from ¹⁶²Ho ε decays.
265.664	185.002	M(γ): the data agree reasonably well with pure E2, namely, K/L=2.3 5, 2.2, and 2.1 (1967Ba34,1961Jo10,1961Ha23), L1/L2/L3=0.38/1.15/1.00 (1961Ha23), and α(K)exp=0.19 3 (1967Ba34) (evaluator’s combination of Iγ from 1971Wo09 and Ice from 1961Jo10). Data are from ¹⁶¹Dy(n,γ) for 1967Ba34 and otherwise from ¹⁶²Ho ε decays.
888.161	622.494	I(γ): weighted average of: 2.08 7 (¹⁶²Tb β^- decay); and and 1.93 7 (n,γ). Other: 1.4 1 (n,n’γ).
888.161	888.157	I(γ): weighted average of: 90 4, from ¹⁶²Tb β^- decay; 90 6, from (n,n’γ); and 92 3, from (n,γ). Other: 126 9, from ¹⁶²Ho ε decay (67.0 min).
921.28	372.50	E(γ): average of: 372.20 9 (from (n,n’γ)); 372.56 15 (from muonic atom); and 372.75 8 (from Coul. ex.).
962.940	697.277	I(γ): weighted average of: 20.3 11 (n,n’γ); 19.2 6 (¹⁶²Tb β^- decay); 17 3 (¹⁶²Ho ε decay (67.0 min)); and 19.8 11 (n,γ).
1060.991	980.335	I(γ): weighted average of: 59 3, from (n,γ); and 53 4, from (n,n’γ). From ¹⁶²Ho ε decay (67.0 min), Iγ=84 7. M(γ): from (n,γ) (2006Ap01), α(K)exp=0.0027 1, which is interpreted as E2⁺<7%M1, supporting the assignment.
1148.232	185.292	I(γ): weighted average of: 18.0 14, from ¹⁶²Tb β^- decay; and 20.7 9, from (n,γ).
1182.763	219.823	I(γ): from 2006Ap01, (n,γ). From ¹⁶²Ho ε decay (67.0 m), Iγ=5.6 28.
1182.763	634.246	I(γ): from 2006Ap01, (n,γ). From ¹⁶²Ho ε decay (67.0 min), Iγ=18.6 10. Other: 28 2, from (n,n’γ).
1210.089	247.1479	I(γ): from 2006Ap01 (n,γ). Others: 9.0 15, from (n,n’γ); and 10 2, from ¹⁶²Ho ε decay (67.0 min).
	321.928	E(γ): Multiply placed with undivided intensity I(γ): weighted average of 20.4 12, from (n,n’γ), and 25 3, from ¹⁶²Ho ε decay (67.0 min). From (n,γ), Iγ=21.5 5, but γ has two placements there.. from Iγ(321.9γ)/Iγ(1129.3γ) in ¹⁶²Ho ε decay (67.0 min) and Iγ(1129.6γ), Iγ=30 4. Thus, most, if not all, of the intensity in this peak is associated with this placement.. Multiply placed with undivided intensity
	944.424	I(γ): weighted average of: 59 3, from (n,n’γ); 59 3, from ¹⁶²Ho ε decay (67.0 min); and 62 3, from (n,γ). Other: 86 18, from ¹⁶²Tb β^- decay.
1275.772	1275.810	I(γ): from 2006Ap01, (n,γ). From ¹⁶²Tb β^- decay, where coincidence data were used to get the singlet value, Iγ=52 14. M(γ): from (n,γ) (2006Ap01) and (α,2nγ) (1982Fi15), α(K)exp=0.00063 2 and 0.0003 1.
1297.006	236.008	I(γ): from 2006Ap01 (n,γ). From (n,n’γ), Iγ=23.6 15. From (n,γ), 1967Ba34 report Iγ=22 4, while 1995Be02 report Iγ=13.8 23.
1324.465	141.73	I(γ): from Iγ(141)/Iγ(263)=0.086 13 in (n,γ) (1978Ge03). γ not reported by 2006Ap01.
1324.465	1058.779	I(γ): weighted average of: 53 4, in (n,n’γ); 59 2, in (n,γ); and 50 9, in ¹⁶²Ho ε decay (67.0 min). From Iγ(776γ)/Iγ(1059γ) in (⁷Li,p4nγ), Iγ=45 5. From (⁶¹Ni,⁶⁰Niγ), Iγ=68 8.
1357.928	1092.256	I(γ): from (n,γ). From ¹⁶²Tb β^- decay, Iγ=46 14.
1357.928	1277.271	I(γ): value from (n,γ). γ is a doublet in most studies. M(γ): from (n,γ) (1967Ba34) and (α,2nγ) (1982Fi15), α(K)exp=0.00056 28 and 0.0003 1, which gives E1 with δ<0.17, but in both cases γ has two placements.
1390.513	329.524	I(γ): from (n,γ).
1390.513	841.990	I(γ): weighted average of: 36.0 14, from ¹⁶²Ho ε decay (67.0 min); and 38.2 15, from (n,γ). Other: 60 5, from (n,n’γ). From γγ(θ) in (n,γ), δ=0.04 +38-30 (1980Hu06) if J(1390)=5.
1453.468	392.485	M(γ): from ¹⁶²Ho ε decay (evaluator’s combination of 1961Ha23 and 1971Wo09), α(K)exp=0.022, which gives primarily E2.
	1187.777	I(γ): from (n,γ). Others: 60.7 18, from ¹⁶²Ho ε decay (15.0 min); 72.0 4, from (n,n’γ); and 84 16, from ¹⁶²Tb β^- decay.
	1372.790	M(γ): 2002Go15 report mult=M1⁺E2. From α(K)exp=0.00230 in (n,γ), 2006Ap01 give mult=M1. However, a ΔK=0 transition such as this is expected to have an E0 contribution.
	1453.77	E(γ): from ¹⁶²Ho (67.0 min) ε decay. γ not reported by 2006Ap01 in (n,γ). I(γ): from Iγ(1453.7γ)/Iγ(1372.7γ) in ¹⁶²Ho (67.0 min) ε decay and Iγ(1372.7γ).
E(level)	E(gamma)	Comments
1485.671	95.158	E(γ): from (n,γ) I(γ): from ¹⁶²Ho ε decay (67.0 min). Other: 1.7 1, from (n,γ).
	161.209	E(γ): from (n,γ) I(γ): from ¹⁶²Ho ε decay (67.0 min). Other: 0.52 8, from (n,γ).
	188.663	E(γ): from (n,γ) I(γ): from ¹⁶²Ho ε decay (67.0 min). Other: 0.94 8, from (n,γ). M(γ): from ¹⁶²Ho ε decay (67.0 min) (evaluator’s combination of 1961Ha23 and 1971Wo09), α(K)exp=0.35, which gives M1.
	275.582	E(γ): from (n,γ)
	302.909	E(γ): from (n,γ). Multiply placed with undivided intensity I(γ): from ¹⁶²Ho ε decay (67.0 min). Other: 1.42 6, from (n,γ).. Multiply placed with undivided intensity M(γ): from ¹⁶²Ho ε decay (67.0 min) (evaluator’s combination of 1961Ha23 and 1971Wo09), α(K)exp=0.025, which gives primarily E1.
	424.676	E(γ): from (n,γ) I(γ): from ¹⁶²Ho ε decay (67.0 min). Other: 1.80 7, from (n,γ).
	937.144	E(γ): from (n,γ). I(γ): weighted average of: 40 3, from (n,n’γ); 44.0 9, from ¹⁶²Ho ε decay (67.0 min); and 45 3, from (n,γ). M(γ): from ¹⁶²Ho ε decay (67.0 min) (evaluator’s combination of 1961Jo10 and 1971Wo09) and (α,2nγ) (1982Fi15), α(K)exp=0.016 and 0.0014 4, respectively, which give E1.
	1219.98	E(γ): from (n,γ).
1490.39	307.7	I(γ): from (α,2nγ). Other: 16 2 from (⁷Li,p4nγ); and 30, from Iγ(307γ)/Iγ(941γ) in (¹⁶²Dy,¹⁶²Dy’γ).
1490.39	569.3	I(γ): from (α,2nγ). Other: 19 2, from Iγ(569γ)/Iγ(941γ) in (¹⁶²Dy,¹⁶²Dy’γ).
1518.426	969.908	I(γ): from 2006Ap01 (n,γ). From (α,2nγ), 2006Ap01 report Iγ=110 45
1530.127	233.6	E(γ): placed here only in (α,2nγ) and (n,n’γ). I(γ): from (n,n’γ).
1530.127	347.52	E(γ): Multiply placed with undivided intensity I(γ): from (n,n’γ), where γ is doubly placed.. Multiply placed with undivided intensity
1575.623	278.49	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1575.623	392.86	E(γ): from ¹⁶²Ho ε decay (67.0 min).
1637.196	1637.32	I(γ): from (n,n’γ). γ not reported in (n,γ).
1637.92	1088.6	M(γ): from 1982Fi15 (α,2nγ), α(K)exp=0.0004 1, which gives mult=E1.
1666.27	1585.6	E(γ): Multiply placed with undivided intensity I(γ): γ is doubly placed in (n,n’γ).. Multiply placed with undivided intensity
1669.085	458.991	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1669.085	486.322	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1670.505	345.9	I(γ): from (⁷Li,p4nγ). Other: 58 8, from (α,2nγ).
	749.1	M(γ): from (α,2nγ), α(K)exp=0.0062 9, which gives δ=1.5 +10-5
	1121.9	I(γ): from (⁷Li,p4nγ). Other: 62 12, from (α,2nγ).
1683.35	762.1	E(γ): from (α,2nγ) I(γ): weighted average of: 32 4 (⁷Li,p4nγ); and 30 5 (α,2nγ).
1683.35	1134.7	E(γ): from (α,2nγ) M(γ): from (α,2nγ), α(K)exp=0.0007 2, which gives mult=E1.
E(level)	E(gamma)	Comments
1691.340	728.384	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1728.318	1462.69	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1647.62	M(γ): from α(K)exp=0.0018 1 in (n,γ), 2006Ap01 give mult=M1. However, a ΔK=0 transition such as this is unlikely to Be pure M1. Some E0⁺E2 contribution is expected. From (n,n’γ), 2002Go15 report δ(E2/M1)=-0.20 +15-18 or +4.3 +57-18.
	1728.58	E(γ): from (n,n’γ). γ not reported by 2006Ap01 in (n,γ). I(γ): from Iγ(1728.5γ)/Iγ(1647.6γ) in (n,n’γ) and Iγ(1647.6γ).
1751.881	216.193	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1751.881	691.0	E(γ): from 2006Ap01 (α,2nγ). 2006Ap01, in (n,γ), do not report this γ. This γ is also not reported in (⁷Li,p4nγ). I(γ): from 2006Ap01, (α,2nγ). From (¹⁶²Dy,¹⁶²Dy’γ), 2001Wu05 report Iγ(691)/Iγ(569)=63 27.
1754.82	1206.3	E(γ): from (⁷Li,p4nγ). M(γ): From (α,2nγ), α(K)exp\|<0.0007, which gives mult=E1.
1782.68	1782.8	E(γ): Multiply placed with undivided intensity I(γ): from ¹⁶²Tb β^- decay. From ¹⁶²Ho ε decay (15.0 min), Iγ=87 13. From (n,n’γ), Iγ=113 11.. Multiply placed with undivided intensity
1807.56	277.3	E(γ): from (α,2nγ). From (⁷Li,p4nγ), Eγ=277.
1845.53	925	E(γ): reported in ¹⁶¹Dy(⁶¹Ni,⁶⁰Niγ) only.
1863.83	1782.8	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1878.05	956.9	M(γ): from (α,2nγ), the 956⁺957 peak has α(K)exp=0.0053 (1982Fi15), which gives M1.
1886.82	671.55	E(γ): poor energy fit, level-energy difference=676.8 keV. Note that γ is doubly placed. γ is not included in the least-squares fit to obtain the level energies.. Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1887.67	135.9	E(γ): from (α,2nγ). γ not reported in (⁷Li,p4nγ).
1895.42	747.24	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1895.42	1814.92	E(γ): Multiply placed with undivided intensity I(γ): most of the intensity must Be associated with this placement.. Multiply placed with undivided intensity
1910.430	849.435	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1939.65	1018.3	M(γ): from (α,2nγ), α(K)exp=0.0004 1, which gives mult=E1
1959.36	1038.0	E(γ): from (α,2nγ). From 2002Ju08, (⁷Li,p4nγ), Eγ=1037.8 2. M(γ): from (α,2nγ), α(K)exp\|<0.0016, which gives mult=E1
1974.10	678.05	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1982.46	1716.4	I(γ): from (n,n’γ).
	1902.1	I(γ): from (n,n’γ). From β^- decay, Iγ(1902)/Iγ(1982)=1.03. From (n,γ), this ratio is 0.17, but Iγ(1902γ) is listed there as 2.7 30, so there may Be a misprint.
	1982.2	I(γ): from (n,n’γ).
1985.88	1064.6	M(γ): from (α,2nγ), α(K)exp=0.0050 9, which gives mult=M1. 2001Wu05 state that the M1 component dominates the ΔJ=0 transitions connecting the g.s. and S bands. α small E2 component, of course, is not ruled out.
1999.33	1108.6	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1999.33	1999.5	E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided
E(level)	E(gamma)	Comments
2009.796	686.15	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2009.796	1462.69	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2053.541	302.880	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2053.541	728.384	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2080.03	216.193	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1814.62	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	1999.5	E(γ): Multiply placed with intensity suitably divided I(γ): Multiply placed with intensity suitably divided
2100.66	1179.6	M(γ): from (α,2nγ), α(K)exp=0.0010 3, which gives mult=E1.
2110.70	171.0	I(γ): note: Iγ(171)/Iγ(303)=1.54 in (α,2nγ).
2120.717	486.322	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2125.212	399.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	491.03	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	849.435	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2129.497	302.880	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	399.3	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	458.991	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	491.03	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2148.681	321.928	E(γ): Multiply placed with undivided intensity I(γ): most of the intensity of this peak is associated with the other placement. See the comment in the (n,γ) data set.. Multiply placed with undivided intensity
2262.30	887.3	M(γ): from (α,2nγ), α(K)exp=0.0082 12, which gives mult=M1.
2280.88	905.8	M(γ): from (α,2nγ), α(K)exp\|<0.0013, which gives mult=E1.
2314.1	2315.1	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
2330.95	430.4	I(γ): from Iγ(430.4γ)/Iγ(957.0γ) in (α,2nγ) and Iγ(955.8γ). γ not reported in the heavy-ion studies.
2398.27	357.3	E(γ): from (α,2nγ).
2503.83	1129.0	M(γ): from (α,2nγ), α(K)exp=0.0008 2, which is interpreted as E1, but peak is doublet including an E1 γ from the 1210 level.
2534.86	272.6	I(γ): computed from Iγ(272γ)/Iγ(447γ) in (¹⁶²Dy,¹⁶²Dy’γ) and Iγ(447). 2002Ju08, (⁷Li,p4nγ), report Iγ<15.
2534.86	1160.1	I(γ): from 2002Ju08, (⁷Li,p4nγ). 2001Wu05, in (¹⁶²Dy,¹⁶²Dy’γ), report Iγ(1160γ)/Iγ(633γ)=1.36 16.
E(level)	E(gamma)	Comments
2622.78	360.8	E(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). I(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ).
	535.5	E(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). I(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ).
	721.7	E(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). I(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ).
	1247.9	E(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ). I(γ): The listed Eγ values are from 2002Ju08, (⁷Li,p4nγ). The Iγ values are from 2001Wu05, (¹⁶²Dy,¹⁶²Dy’γ). They differ markedly from those of 2002Ju08, (⁷Li,p4nγ).
2900.0	2819.0	I(γ): from (γ,γ’). Other: 56 25 from (n,n’γ).
2934.55	311.6	I(γ): from 2001Wu05 (1620y,¹⁶²Dy’γ). 2002Ju08, (⁷Li,p4nγ), report Iγ<13.
3061.2	2980.3	I(γ): from (γ,γ’). Other: 41 6 from (n,n’γ).
3145.64	523.2	I(γ): from 2002Ju08, (⁷Li,p4nγ). The value from 2001Wu05 in (¹⁶²Dy,¹⁶²Dy’γ) differs from this.
	610.5	I(γ): from 2002Ju08, (⁷Li,p4nγ). The value from 2001Wu05 in (¹⁶²Dy,¹⁶²Dy’γ) differs from this.
	1244.2	I(γ): from 2002Ju08, (⁷Li,p4nγ). The value from 2001Wu05 in (¹⁶²Dy,¹⁶²Dy’γ) differs from this.
4577.73	746.8	E(γ): from 2002Ju08, (⁷Li,p4nγ)

References:
A	¹⁶²Tb β^- decay	B	¹⁶²Ho ε decay (15.0 M)
C	¹⁶²Ho ε decay (67.0 M)	D	¹⁶²Er 2ε decay
E	¹⁶¹Dy(n,γ) E=TH	F	¹⁶¹Dy(n,γ) E=2 KEV
G	¹⁶¹Dy(n,γ) E=24 KEV	H	¹⁶²Dy(n,n’γ)
I	¹⁶⁰Gd(α,2nγ)	J	¹⁶³Dy(³He,αγ)
K	¹⁶¹Dy(⁶¹Ni,⁶⁰NiG)	L	muonic atom: PIONIC atom
M	Coulomb Excitation	N	¹⁶²Dy(γ,γ’)
O	¹⁶⁰Dy(t,p)	P	¹⁶¹Dy(d,p)
Q	¹⁶²Dy(d,d’)	R	¹⁶³Dy(d,t)
S	¹⁶⁴Dy(p,t)	T	¹⁶⁶Er(d,⁶Li)
U	¹⁶¹Dy(α,³He)	V	¹⁶³Dy(³He,α)
W	¹⁶⁰Gd(⁷Li,p4nγ)	X	¹¹⁸Sn(¹⁶²Dy,¹⁶²Dy’γ)
Y	¹⁶⁰Gd(³⁷Cl,xγ)	Z	¹⁶⁰Gd(⁹Be,α3nγ)