List of levels for 155GD

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
60.0106	5/2-	0.196 ns 15	60.0086 10	M1+E2	-0.198 8	9.14	B(E2)(W.u.)=279 +32-29, B(M1)(W.u.)=0.0493 +41-36, α=9.14, α(K)=7.25 11, α(L)=1.48 4, α(M)=0.329 9, α(N)=0.0749 20, α(O)=0.0110 3, α(P)=0.000543 8
86.5464	5/2+	6.50 ns 4	26.531 21	E1		1.95	B(E1)(W.u.)=1.36E-5 8, α=1.95, α(L)=1.530 22, α(M)=0.336 5, α(N)=0.0738 11, α(O)=0.00966 14, α(P)=0.000328 5
86.5464	5/2+	6.50 ns 4	86.5479 10	E1		0.431	B(E1)(W.u.)=3.805E-5 29, α=0.431, α(K)=0.360 5, α(L)=0.0555 8, α(M)=0.01203 17, α(N)=0.00271 4, α(O)=0.000394 6, α(P)=1.97E-5 3
105.3106	3/2+	1.16 ns 1	18.763 2	M1+E2	+0.274 4	362	B(E2)(W.u.)=313 +25-30, B(M1)(W.u.)=0.00282 +22-25, α=362 10, α(L)=280 8, α(M)=64.9 19, α(N)=14.4 4, α(O)=1.88 6, α(P)=0.01653 24
	3/2+	1.16 ns 1	45.2990 10	E1		0.437	B(E1)(W.u.)=6.20E-5 +39-36, α=0.437, α(L)=0.343 5, α(M)=0.0747 11, α(N)=0.01665 24, α(O)=0.00231 4, α(P)=9.60E-5 14
	3/2+	1.16 ns 1	105.3083 10	E1		0.254	B(E1)(W.u.)=7.94E-5 +44-41, α=0.254, α(K)=0.213 3, α(L)=0.0320 5, α(M)=0.00693 10, α(N)=0.001568 22, α(O)=0.000230 4, α(P)=1.201E-5 17
107.5804	9/2+		21.035 4	E2		2.60×10³	α=2.60×10³, α(L)=2.01E3 3, α(M)=471 7, α(N)=104.1 15, α(O)=13.25 19, α(P)=0.00391 6
117.9981	7/2+		10.4178 12	M1+E2	0.033 +9-12	3.4×10²	α=3.4×10² 6, α(L)=2.7E2 5, α(M)=59 11, α(N)=13.5 24, α(O)=2.0 3, α(P)=0.0992 14
	7/2+		31.444 7	M1+E2	0.370 14	50	α=50 3, α(L)=39.1 22, α(M)=9.1 6, α(N)=2.03 12, α(O)=0.267 15, α(P)=0.00335 6
	7/2+		57.9890 10	E1		1.238	α=1.238, α(K)=1.020 15, α(L)=0.1712 24, α(M)=0.0372 6, α(N)=0.00834 12, α(O)=0.001181 17, α(P)=5.30×10^-5 8
121.10	11/2-	31.97 ms 27 % IT = 100	13.47 19	E1		12.6	B(E1)(W.u.)=2.21E-10 14, α=12.6 6, α(L)=9.9 5, α(M)=2.23 10, α(N)=0.475 20, α(O)=0.0551 22, α(P)=0.00139 5
146.0696	7/2-	0.102 ns 11	86.0591 10	M1+E2	-0.184 23	3.14	B(E2)(W.u.)=166 +48-41, B(M1)(W.u.)=0.070 +9-7, α=3.14, α(K)=2.59 4, α(L)=0.435 16, α(M)=0.096 4, α(N)=0.0219 9, α(O)=0.00331 11, α(P)=0.000192 3
146.0696	7/2-	0.102 ns 11	146.0710 10	E2		0.649	B(E2)(W.u.)=119 +20-17, α=0.649, α(K)=0.398 6, α(L)=0.194 3, α(M)=0.0453 7, α(N)=0.01014 15, α(O)=0.001360 19, α(P)=2.12E-5 3
214.3515	13/2+		106.771 1	E2		1.98	α=1.98, α(K)=0.974 14, α(L)=0.776 11, α(M)=0.183 3, α(N)=0.0408 6, α(O)=0.00537 8, α(P)=4.86×10^-5 7
230.1286	11/2+		112.131 2	E2		1.658	α=1.658, α(K)=0.852 12, α(L)=0.622 9, α(M)=0.1463 21, α(N)=0.0327 5, α(O)=0.00431 6, α(P)=4.29×10^-5 6
230.1286	11/2+		122.548 1	(M1,E2)		1.17	α=1.17 5, α(K)=0.81 15, α(L)=0.28 14, α(M)=0.064 35, α(N)=0.0144 76, α(O)=0.00199 93, α(P)=5.2×10^-5 19
251.7056	9/2-	58 ps 6	105.636 1	M1+E2	-0.22 5	1.74	B(E2)(W.u.)=1.7×10² +8-7, B(M1)(W.u.)=0.074 9, α=1.74 3, α(K)=1.432 23, α(L)=0.238 14, α(M)=0.052 4, α(N)=0.0120 8, α(O)=0.00181 9, α(P)=0.0001057 20
	9/2-	58 ps 6	133.7	[E1]		0.1334	B(E1)(W.u.)=3.3E-5 +6-4, α=0.1334, α(K)=0.1125 16, α(L)=0.01644 23, α(M)=0.00356 5, α(N)=0.000807 12, α(O)=0.0001196 17, α(P)=6.55E-6 10
	9/2-	58 ps 6	191.691 7	E2		0.256	B(E2)(W.u.)=196 +33-30, α=0.256, α(K)=0.1759 25, α(L)=0.0621 9, α(M)=0.01433 20, α(N)=0.00322 5, α(O)=0.000441 7, α(P)=1.000E-5 14
266.6474	5/2+		120.579 2	E1		0.1763	α=0.1763, α(K)=0.1484 21, α(L)=0.0219 3, α(M)=0.00474 7, α(N)=0.001075 15, α(O)=0.0001587 23, α(P)=8.52×10^-6 12
	5/2+		148.650 1	M1+E2	-0.14 1	0.652	α=0.652, α(K)=0.549 8, α(L)=0.0812 12, α(M)=0.0177 3, α(N)=0.00407 6, α(O)=0.000627 9, α(P)=4.07×10^-5 6
	5/2+		161.334 1	M1+E2	-0.28 +6-7	0.515	α=0.515, α(K)=0.429 8, α(L)=0.068 3, α(M)=0.0148 7, α(N)=0.00340 14, α(O)=0.000518 17, α(P)=3.15×10^-5 8
	5/2+		180.103 1	M1+E2	-0.214 10	0.379	α=0.379, α(K)=0.319 5, α(L)=0.0478 7, α(M)=0.01042 15, α(N)=0.00239 4, α(O)=0.000368 6, α(P)=2.35×10^-5 4
	5/2+		206.635 3	E1		0.0416	α=0.0416, α(K)=0.0353 5, α(L)=0.00499 7, α(M)=0.001079 16, α(N)=0.000246 4, α(O)=3.70×10^-5 6, α(P)=2.17E-6 3
268.6238	3/2+		150.630 2	(E2)		0.583	α=0.583, α(K)=0.363 5, α(L)=0.1702 24, α(M)=0.0397 6, α(N)=0.00888 13, α(O)=0.001194 17, α(P)=1.95×10^-5 3
	3/2+		163.311 1	M1+E2	0.05 4	0.502	α=0.502, α(K)=0.424 6, α(L)=0.0610 10, α(M)=0.01325 21, α(N)=0.00305 5, α(O)=0.000473 7, α(P)=3.15×10^-5 5
	3/2+		182.078 1	E2		0.304	α=0.304, α(K)=0.206 3, α(L)=0.0767 11, α(M)=0.01774 25, α(N)=0.00398 6, α(O)=0.000543 8, α(P)=1.154×10^-5 17
	3/2+		208.614 3	E1		0.0406	α=0.0406, α(K)=0.0344 5, α(L)=0.00487 7, α(M)=0.001052 15, α(N)=0.000240 4, α(O)=3.61×10^-5 5, α(P)=2.12E-6 3
	3/2+		268.625 2	E1		0.0211	α=0.0211, α(K)=0.0179 3, α(L)=0.00249 4, α(M)=0.000538 8, α(N)=0.0001229 18, α(O)=1.86×10^-5 3, α(P)=1.128E-6 16
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
282.65	13/2-		161.4 2	M1+E2	-0.73 +33-11	0.498	α=0.498 15, α(K)=0.39 3, α(L)=0.085 14, α(M)=0.019 4, α(N)=0.0043 8, α(O)=0.00063 9, α(P)=2.7×10^-5 4
287.0041	3/2-		181.694 1	E1		0.0586	α=0.0586, α(K)=0.0496 7, α(L)=0.00707 10, α(M)=0.001528 22, α(N)=0.000348 5, α(O)=5.21×10^-5 8, α(P)=3.00E-6 5
	3/2-		200.459 1	E1		0.0451	α=0.0451, α(K)=0.0382 6, α(L)=0.00542 8, α(M)=0.001171 17, α(N)=0.000267 4, α(O)=4.01×10^-5 6, α(P)=2.34E-6 4
	3/2-		226.991 1	M1(+E2)	0.33 LT	0.200	α=0.200 4, α(K)=0.168 4, α(L)=0.0247 5, α(M)=0.00539 13, α(N)=0.00124 3, α(O)=0.000191 4, α(P)=1.24×10^-5 4
	3/2-		286.999 4	M1+E2	-0.14 5	0.1068	α=0.1068 17, α(K)=0.0904 14, α(L)=0.01289 18, α(M)=0.00280 4, α(N)=0.000644 9, α(O)=9.98×10^-5 14, α(P)=6.67E-6 11
321.3793	5/2-		175.310 1	M1,E2		0.38	α=0.38 4, α(K)=0.29 6, α(L)=0.070 20, α(M)=0.0158 50, α(N)=0.0036 11, α(O)=0.00051 13, α(P)=1.94×10^-5 66
	5/2-		203.382 1	E1		0.0434	α=0.0434, α(K)=0.0368 6, α(L)=0.00521 8, α(M)=0.001126 16, α(N)=0.000256 4, α(O)=3.86×10^-5 6, α(P)=2.26E-6 4
	5/2-		216.069 1	E1		0.0370	α=0.0370, α(K)=0.0314 5, α(L)=0.00443 7, α(M)=0.000957 14, α(N)=0.000218 3, α(O)=3.29×10^-5 5, α(P)=1.94E-6 3
	5/2-		234.832 1	E1		0.0298	α=0.0298, α(K)=0.0253 4, α(L)=0.00355 5, α(M)=0.000767 11, α(N)=0.0001748 25, α(O)=2.64×10^-5 4, α(P)=1.573E-6 22
	5/2-		261.369 1	M1		0.1382	α=0.1382, α(K)=0.1171 17, α(L)=0.01660 24, α(M)=0.00360 5, α(N)=0.000829 12, α(O)=0.0001288 18, α(P)=8.66×10^-6 13
	5/2-		321.383 2	M1		0.0796	α=0.0796, α(K)=0.0675 10, α(L)=0.00951 14, α(M)=0.00206 3, α(N)=0.000475 7, α(O)=7.38×10^-5 11, α(P)=4.98E-6 7
326.0881	5/2+		208.089 2	M1(+E2)	0.33 LT	0.254	α=0.254 5, α(K)=0.213 5, α(L)=0.0317 8, α(M)=0.00690 20, α(N)=0.00159 5, α(O)=0.000244 6, α(P)=1.57×10^-5 5
	5/2+		218.508 4	(E2)		0.1656	α=0.1656, α(K)=0.1183 17, α(L)=0.0367 6, α(M)=0.00843 12, α(N)=0.00190 3, α(O)=0.000262 4, α(P)=6.93×10^-6 10
	5/2+		220.778 2	M1(+E2)	-0.1 3	0.218	α=0.218 8, α(K)=0.184 10, α(L)=0.0264 12, α(M)=0.0057 4, α(N)=0.00132 7, α(O)=0.000205 7, α(P)=1.36×10^-5 10
	5/2+		239.540 1	M1(+E2)	0.0 +2-3	0.175	α=0.175 4, α(K)=0.148 3, α(L)=0.0211 4, α(M)=0.00457 8, α(N)=0.001052 18, α(O)=0.0001633 25, α(P)=1.10×10^-5 3
	5/2+		266.068 4	E1		0.0216	α=0.0216, α(K)=0.0183 3, α(L)=0.00256 4, α(M)=0.000552 8, α(N)=0.0001260 18, α(O)=1.91×10^-5 3, α(P)=1.155E-6 17
350.4355	7/2+		232.437 1	M1,E2		0.16	α=0.16 3, α(K)=0.13 4, α(L)=0.026 3, α(M)=0.0058 9, α(N)=0.00131 18, α(O)=0.000192 15, α(P)=8.9×10^-6 31
	7/2+		242.855 1	M1		0.1686	α=0.1686, α(K)=0.1427 20, α(L)=0.0203 3, α(M)=0.00440 7, α(N)=0.001013 15, α(O)=0.0001573 22, α(P)=1.057×10^-5 15
	7/2+		245.129 3	E2		0.1139	α=0.1139, α(K)=0.0837 12, α(L)=0.0234 4, α(M)=0.00536 8, α(N)=0.001208 17, α(O)=0.0001687 24, α(P)=5.03×10^-6 7
367.6342	1/2+		80.6 1	(E1)		0.521	α=0.521, α(K)=0.435 7, α(L)=0.0678 10, α(M)=0.01470 22, α(N)=0.00331 5, α(O)=0.000479 7, α(P)=2.36×10^-5 4
	1/2+		99.010 2	M1,E2		2.3	α=2.3 3, α(K)=1.5 3, α(L)=0.67 42, α(M)=0.16 11, α(N)=0.035 23, α(O)=0.0047 28, α(P)=9.5×10^-5 36
	1/2+		262.322 2	M1(+E2)	-0.06 +8-6	0.1367	α=0.1367, α(K)=0.1158 17, α(L)=0.01644 23, α(M)=0.00357 5, α(N)=0.000821 12, α(O)=0.0001275 18, α(P)=8.56×10^-6 13
	1/2+		281.087 2	E2		0.0738	α=0.0738, α(K)=0.0558 8, α(L)=0.01400 20, α(M)=0.00318 5, α(N)=0.000719 10, α(O)=0.0001015 15, α(P)=3.44×10^-6 5
	1/2+		367.638 2	E1		0.00965	α=0.00965, α(K)=0.00822 12, α(L)=0.001126 16, α(M)=0.000243 4, α(N)=5.56×10^-5 8, α(O)=8.48E-6 12, α(P)=5.31E-7 8
392.317	11/2-	23 ps 2	140.610 4	M1+E2	-0.283 19	0.762	B(E2)(W.u.)=150 +25-22, B(M1)(W.u.)=0.072 7, α=0.762, α(K)=0.631 9, α(L)=0.1029 20, α(M)=0.0226 5, α(N)=0.00518 10, α(O)=0.000785 14, α(P)=4.63E-5 7
	11/2-	23 ps 2	246.253 9	E2		0.1122	B(E2)(W.u.)=267 +27-22, α=0.1122, α(K)=0.0826 12, α(L)=0.0230 4, α(M)=0.00526 8, α(N)=0.001187 17, α(O)=0.0001658 24, α(P)=4.97E-6 7
	11/2-	23 ps 2	284.8	E1(+M2)	-0.007 13	0.0182	B(E1)(W.u.)=2.79E-5 +34-30, B(M2)(W.u.)=0.08 +75-6, α=0.0182, α(K)=0.0154 3, α(L)=0.00215 4, α(M)=0.000463 9, α(N)=0.0001058 20, α(O)=1.61E-5 3, α(P)=9.80E-7 19
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
393.5322	7/2-		141.826 1	M1+E2		0.732	α=0.732 17, α(K)=0.53 10, α(L)=0.156 65, α(M)=0.036 16, α(N)=0.0080 35, α(O)=0.00112 42, α(P)=3.5×10^-5 12
	7/2-		306.986 3	E1		0.01504	α=0.01504, α(K)=0.01279 18, α(L)=0.001768 25, α(M)=0.000382 6, α(N)=8.72×10^-5 13, α(O)=1.326E-5 19, α(P)=8.15E-7 12
	7/2-		333.520 6	M1		0.0722	α=0.0722, α(K)=0.0612 9, α(L)=0.00861 12, α(M)=0.00187 3, α(N)=0.000430 6, α(O)=6.68×10^-5 10, α(P)=4.51E-6 7
423.4123	7/2+		102.036 11	E1		0.277	α=0.277, α(K)=0.232 4, α(L)=0.0350 5, α(M)=0.00757 11, α(N)=0.001712 24, α(O)=0.000251 4, α(P)=1.301×10^-5 19
	7/2+		156.766 2	M1,E2		0.54	α=0.54 3, α(K)=0.40 8, α(L)=0.106 38, α(M)=0.0241 93, α(N)=0.0054 21, α(O)=7.7×10^-4 24, α(P)=2.64E-5 90
	7/2+		305.428 8	M1		0.0911	α=0.0911, α(K)=0.0772 11, α(L)=0.01090 16, α(M)=0.00236 4, α(N)=0.000544 8, α(O)=8.46×10^-5 12, α(P)=5.70E-6 8
	7/2+		315.845 14	M1,(E2)		0.067	α=0.067 16, α(K)=0.055 16, α(L)=0.0096 5, α(M)=0.00212 6, α(N)=0.000483 16, α(O)=7.2×10^-5 6, α(P)=3.9E-6 14
	7/2+		336.864 2	M1		0.0703	α=0.0703, α(K)=0.0596 9, α(L)=0.00839 12, α(M)=0.00182 3, α(N)=0.000419 6, α(O)=6.51×10^-5 10, α(P)=4.39E-6 7
	7/2+		363.391 12	E1		0.00993	α=0.00993, α(K)=0.00845 12, α(L)=0.001159 17, α(M)=0.000250 4, α(N)=5.72×10^-5 8, α(O)=8.72E-6 13, α(P)=5.46E-7 8
423.82	17/2+		209.4 2	E2		0.191	α=0.191, α(K)=0.1346 20, α(L)=0.0435 7, α(M)=0.01000 15, α(N)=0.00225 4, α(O)=0.000310 5, α(P)=7.81×10^-6 12
427.2375	3/2+		59.602 1	E2(+M1)	0.50 GE	14.7	α=14.7 39, α(K)=4.9 18, α(L)=7.6 44, α(M)=1.8 11, α(N)=0.40 23, α(O)=0.052 29, α(P)=3.4×10^-4 16
	3/2+		101.148 2	M1+E2	0.50 AP	2.04	α2.04 AP, α(K)≈1.541, α(L)≈0.389, α(M)≈0.0881, α(N)≈0.0199, α(O)≈0.00284, α(P)≈0.0001094
	3/2+		158.612 1	E2		0.488	α=0.488, α(K)=0.311 5, α(L)=0.1366 20, α(M)=0.0318 5, α(N)=0.00712 10, α(O)=0.000960 14, α(P)=1.693×10^-5 24
	3/2+		160.589 2	M1(+E2)	0.33 LT	0.523	α=0.523, α(K)=0.438 10, α(L)=0.067 4, α(M)=0.0147 9, α(N)=0.00336 19, α(O)=0.000515 22, α(P)=3.23×10^-5 10
	3/2+		321.926 3	M1+E2	0.77 AP	0.0678	α0.0678 AP, α(K)≈0.0562, α(L)≈0.00913, α(M)≈0.00201, α(N)≈0.000460, α(O)≈6.94×10^-5, α(P)≈4.00E-6
	3/2+		340.690 1	M1(+E2)	0.02 7	0.0683	α=0.0683, α(K)=0.0579 9, α(L)=0.00814 12, α(M)=0.001765 25, α(N)=0.000406 6, α(O)=6.31×10^-5 9, α(P)=4.26E-6 7
	3/2+		367.225 2	E1(+M2)	0.04 AP	0.01000	α0.01000 AP, α(K)≈0.00850, α(L)≈0.001175, α(M)≈0.000254, α(N)≈5.80×10^-5, α(O)≈8.86E-6, α(P)≈5.55E-7
	3/2+		427.18 1	E1		0.00676	α=0.00676, α(K)=0.00576 8, α(L)=0.000783 11, α(M)=0.0001689 24, α(N)=3.87×10^-5 6, α(O)=5.92E-6 9, α(P)=3.76E-7 6
450.5630	3/2-		124.476 2	E1		0.1618	α=0.1618, α(K)=0.1363 19, α(L)=0.0201 3, α(M)=0.00434 6, α(N)=0.000984 14, α(O)=0.0001454 21, α(P)=7.85×10^-6 11
	3/2-		129.182 1	(M1,E2)		0.985	α=0.985 20, α(K)=0.70 13, α(L)=0.22 11, α(M)=0.052 26, α(N)=0.0116 58, α(O)=0.00161 70, α(P)=4.5×10^-5 16
	3/2-		364.019 3	E1		0.00989	α=0.00989, α(K)=0.00842 12, α(L)=0.001154 17, α(M)=0.000249 4, α(N)=5.69×10^-5 8, α(O)=8.69E-6 13, α(P)=5.44E-7 8
	3/2-		390.552 1	M1		0.0478	α=0.0478, α(K)=0.0405 6, α(L)=0.00567 8, α(M)=0.001229 18, α(N)=0.000283 4, α(O)=4.40×10^-5 7, α(P)=2.98E-6 5
	3/2-		450.559 3	M1		0.0330	α=0.0330, α(K)=0.0280 4, α(L)=0.00391 6, α(M)=0.000846 12, α(N)=0.000195 3, α(O)=3.03×10^-5 5, α(P)=2.05E-6 3
451.3716	1/2-		164.366 2	M1,E2		0.46	α=0.46 4, α(K)=0.35 7, α(L)=0.089 29, α(M)=0.0201 72, α(N)=0.0046 16, α(O)=6.5×10^-4 19, α(P)=2.32E-5 79
	1/2-		182.748 1	E1		0.0577	α=0.0577, α(K)=0.0488 7, α(L)=0.00696 10, α(M)=0.001505 21, α(N)=0.000342 5, α(O)=5.13×10^-5 8, α(P)=2.96E-6 5
	1/2-		346.059 2	E1		0.01118	α=0.01118, α(K)=0.00952 14, α(L)=0.001308 19, α(M)=0.000282 4, α(N)=6.45×10^-5 9, α(O)=9.84E-6 14, α(P)=6.13E-7 9
	1/2-		391.360 2	E2		0.0273	α=0.0273, α(K)=0.0217 3, α(L)=0.00440 7, α(M)=0.000985 14, α(N)=0.000224 4, α(O)=3.25×10^-5 5, α(P)=1.416E-6 20
	1/2-		451.370 3	M1,E2		0.0256	α=0.0256 73, α(K)=0.0213 66, α(L)=0.0033 6, α(M)=0.00073 12, α(N)=0.00017 3, α(O)=2.5×10^-5 5, α(P)=1.51E-6 54
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
453.67	15/2+		223.6 2	E2		0.1536	α=0.1536, α(K)=0.1104 16, α(L)=0.0335 5, α(M)=0.00769 12, α(N)=0.001731 25, α(O)=0.000240 4, α(P)=6.50×10^-6 10
453.67	15/2+		239.3 2	M1+E2	-1.2 8	0.145	α=0.145 24, α(K)=0.11 3, α(L)=0.0238 22, α(M)=0.0053 6, α(N)=0.00121 13, α(O)=0.000176 10, α(P)=7.7×10^-6 26
454.4744	5/2-		336.472 2	E1		0.01198	α=0.01198, α(K)=0.01019 15, α(L)=0.001403 20, α(M)=0.000303 5, α(N)=6.92×10^-5 10, α(O)=1.054E-5 15, α(P)=6.55E-7 10
	5/2-		367.929 1	E1		0.00964	α=0.00964, α(K)=0.00820 12, α(L)=0.001124 16, α(M)=0.000243 4, α(N)=5.55×10^-5 8, α(O)=8.46E-6 12, α(P)=5.30E-7 8
	5/2-		394.474 8	M1,E2		0.037	α=0.037 10, α(K)=0.0304 92, α(L)=0.0049 7, α(M)=0.00108 12, α(N)=0.00025 3, α(O)=3.7×10^-5 6, α(P)=2.14E-6 76
	5/2-		454.472 3	M1		0.0323	α=0.0323, α(K)=0.0274 4, α(L)=0.00382 6, α(M)=0.000827 12, α(N)=0.000190 3, α(O)=2.96×10^-5 5, α(P)=2.01E-6 3
463.88	15/2-		181.1 2	M1+E2	-0.49 +17-35	0.364	α=0.364 16, α(K)=0.297 25, α(L)=0.052 8, α(M)=0.0115 19, α(N)=0.0026 4, α(O)=0.00039 5, α(P)=2.1×10^-5 3
463.88	15/2-		342.9 2	E2		0.0402	α=0.0402, α(K)=0.0314 5, α(L)=0.00687 10, α(M)=0.001549 22, α(N)=0.000351 5, α(O)=5.04×10^-5 8, α(P)=2.01E-6 3
488.7209	5/2+		61.484 1	M1+E2	0.42 AP	9.41	α9.41 AP, α(K)≈6.33, α(L)≈2.39, α(M)≈0.550, α(N)≈0.1237, α(O)≈0.01705, α(P)≈0.000467
	5/2+		138.285 1	E2,M1		0.793	α=0.793 14, α(K)=0.57 11, α(L)=0.172 75, α(M)=0.039 19, α(N)=0.0089 40, α(O)=0.00124 49, α(P)=3.8×10^-5 13
	5/2+		162.631 1	[M1,E2]		0.48	α=0.48 3, α(K)=0.36 7, α(L)=0.092 31, α(M)=0.0210 76, α(N)=0.0047 17, α(O)=6.7×10^-4 20, α(P)=2.39E-5 81
	5/2+		220.099 1	M1,E2		0.19	α=0.19 3, α(K)=0.15 4, α(L)=0.031 5, α(M)=0.0070 13, α(N)=0.0016 3, α(O)=0.000231 25, α(P)=1.03×10^-5 36
	5/2+		370.721 5	M1+E2	-0.25 +14-18	0.0534	α=0.0534 24, α(K)=0.0452 22, α(L)=0.00643 15, α(M)=0.00140 3, α(N)=0.000321 7, α(O)=4.98×10^-5 14, α(P)=3.31E-6 18
	5/2+		383.414 7	M1		0.0501	α=0.0501, α(K)=0.0425 6, α(L)=0.00596 9, α(M)=0.001290 18, α(N)=0.000297 5, α(O)=4.62×10^-5 7, α(P)=3.13E-6 5
	5/2+		402.173 2	M1		0.0442	α=0.0442, α(K)=0.0376 6, α(L)=0.00525 8, α(M)=0.001138 16, α(N)=0.000262 4, α(O)=4.07×10^-5 6, α(P)=2.76E-6 4
	5/2+		488.65 15	E1		0.00496	α=0.00496, α(K)=0.00423 6, α(L)=0.000572 8, α(M)=0.0001232 18, α(N)=2.82×10^-5 4, α(O)=4.33E-6 6, α(P)=2.78E-7 4
534.30	13/2-	15 ps 2	141.9	M1+E2	-0.20 3	0.743	B(E2)(W.u.)=74 +26-21, B(M1)(W.u.)=0.071 +11-9, α=0.743, α(K)=0.622 9, α(L)=0.0954 21, α(M)=0.0209 5, α(N)=0.00479 11, α(O)=0.000733 15, α(P)=4.59E-5 7
	13/2-	15 ps 2	282.6 1	E2		0.0725	B(E2)(W.u.)=278 +44-33, α=0.0725, α(K)=0.0549 8, α(L)=0.01372 20, α(M)=0.00312 5, α(N)=0.000704 10, α(O)=9.96E-5 14, α(P)=3.39E-6 5
	13/2-	15 ps 2	304.2	[E1]		0.01538	B(E1)(W.u.)=2.41E-5 +40-32, α=0.01538, α(K)=0.01308 19, α(L)=0.00181 3, α(M)=0.000391 6, α(N)=8.93E-5 13, α(O)=1.357E-5 19, α(P)=8.34E-7 12
553.371	(7/2)-		435.365 5	E1		0.00647	α=0.00647, α(K)=0.00551 8, α(L)=0.000749 11, α(M)=0.0001614 23, α(N)=3.70×10^-5 6, α(O)=5.66E-6 8, α(P)=3.60E-7 5
559.368	1/2-		272.354 6	M1		0.1238	α=0.1238, α(K)=0.1048 15, α(L)=0.01484 21, α(M)=0.00322 5, α(N)=0.000741 11, α(O)=0.0001152 17, α(P)=7.75×10^-6 11
559.368	1/2-		559.374 4	M1(+E2)	0.50 LE	0.0182	α=0.0182 9, α(K)=0.0154 8, α(L)=0.00216 9, α(M)=0.000468 18, α(N)=0.000108 4, α(O)=1.67×10^-5 7, α(P)=1.12E-6 7
581.4556	5/2-		260.071 3	(M1,E2)		0.117	α=0.117 23, α(K)=0.094 25, α(L)=0.0178 10, α(M)=0.0040 4, α(N)=0.00090 7, α(O)=0.000133 3, α(P)=6.5×10^-6 23
	5/2-		294.453 10	M1		0.1005	α=0.1005, α(K)=0.0851 12, α(L)=0.01203 17, α(M)=0.00261 4, α(N)=0.000600 9, α(O)=9.33×10^-5 13, α(P)=6.29E-6 9
	5/2-		463.460 4	E1		0.00560	α=0.00560, α(K)=0.00477 7, α(L)=0.000647 9, α(M)=0.0001393 20, α(N)=3.19×10^-5 5, α(O)=4.89E-6 7, α(P)=3.13E-7 5
	5/2-		476.162 9	E1		0.00526	α=0.00526, α(K)=0.00449 7, α(L)=0.000607 9, α(M)=0.0001308 19, α(N)=3.00×10^-5 5, α(O)=4.60E-6 7, α(P)=2.95E-7 5
	5/2-		521.472 10	M1,E2		0.0176	α=0.0176 52, α(K)=0.0148 46, α(L)=0.0022 5, α(M)=0.00049 10, α(N)=0.000112 22, α(O)=1.7×10^-5 4, α(P)=1.05E-6 37
	5/2-		581.430 12	E2		0.00948	α=0.00948, α(K)=0.00779 11, α(L)=0.001314 19, α(M)=0.000290 4, α(N)=6.62×10^-5 10, α(O)=9.88E-6 14, α(P)=5.29E-7 8
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
592.1422	3/2-		141.5 1	(M1)		0.750	α=0.750, α(K)=0.634 9, α(L)=0.0911 13, α(M)=0.0198 3, α(N)=0.00456 7, α(O)=0.000707 10, α(P)=4.72×10^-5 7
	3/2-		270.758 3	M1		0.1257	α=0.1257, α(K)=0.1065 15, α(L)=0.01508 22, α(M)=0.00327 5, α(N)=0.000753 11, α(O)=0.0001170 17, α(P)=7.88×10^-6 11
	3/2-		305.131 9	M1		0.0914	α=0.0914, α(K)=0.0774 11, α(L)=0.01093 16, α(M)=0.00237 4, α(N)=0.000546 8, α(O)=8.48×10^-5 12, α(P)=5.72E-6 8
	3/2-		323.519 4	E1		0.01320	α=0.01320, α(K)=0.01123 16, α(L)=0.001548 22, α(M)=0.000334 5, α(N)=7.64×10^-5 11, α(O)=1.162E-5 17, α(P)=7.19E-7 10
	3/2-		325.488 6	(E1)		0.01300	α=0.01300, α(K)=0.01106 16, α(L)=0.001525 22, α(M)=0.000329 5, α(N)=7.52×10^-5 11, α(O)=1.145E-5 16, α(P)=7.09E-7 10
	3/2-		486.852 8	E1		0.00500	α=0.00500, α(K)=0.00427 6, α(L)=0.000577 8, α(M)=0.0001243 18, α(N)=2.85×10^-5 4, α(O)=4.37E-6 7, α(P)=2.81E-7 4
	3/2-		505.590 9	E1		0.00460	α=0.00460, α(K)=0.00392 6, α(L)=0.000529 8, α(M)=0.0001139 16, α(N)=2.61×10^-5 4, α(O)=4.01E-6 6, α(P)=2.58E-7 4
	3/2-		532.129 8	E2		0.01186	α=0.01186, α(K)=0.00970 14, α(L)=0.001693 24, α(M)=0.000375 6, α(N)=8.54×10^-5 12, α(O)=1.268E-5 18, α(P)=6.54E-7 10
	3/2-		592.137 7	E0+E2,M1		0.0128	α=0.0128 38, α(K)=0.0107 33, α(L)=0.0016 4, α(M)=0.00035 8, α(N)=8.0×10^-5 17, α(O)=1.2E-5 3, α(P)=7.7E-7 26
610.8425	7/2+		183.605 2	[E2]		0.296	α=0.296, α(K)=0.200 3, α(L)=0.0741 11, α(M)=0.01713 24, α(N)=0.00385 6, α(O)=0.000525 8, α(P)=1.128×10^-5 16
	7/2+		187.434 3	E2,M1		0.31	α=0.31 4, α(K)=0.24 5, α(L)=0.055 14, α(M)=0.0124 34, α(N)=0.00280 74, α(O)=0.00040 8, α(P)=1.61×10^-5 55
	7/2+		284.745 4	M1		0.1099	α=0.1099, α(K)=0.0931 13, α(L)=0.01316 19, α(M)=0.00286 4, α(N)=0.000657 10, α(O)=0.0001021 15, α(P)=6.88×10^-6 10
	7/2+		344.204 6	M1		0.0664	α=0.0664, α(K)=0.0563 8, α(L)=0.00792 11, α(M)=0.001717 24, α(N)=0.000395 6, α(O)=6.14×10^-5 9, α(P)=4.15E-6 6
614.8556	3/2-	14 ps +7-3	293.460 8	M1		0.1014	B(M1)(W.u.)=2.6×10^-4 9, α=0.1014, α(K)=0.0859 12, α(L)=0.01214 17, α(M)=0.00263 4, α(N)=0.000606 9, α(O)=9.41E-5 14, α(P)=6.34E-6 9
	3/2-	14 ps +7-3	327.871 9	(M1,E2)		0.061	α=0.061 15, α(K)=0.050 15, α(L)=0.0085 5, α(M)=0.00188 8, α(N)=0.000430 21, α(O)=6.4×10^-5 6, α(P)=3.5E-6 13
	3/2-	14 ps +7-3	554.843 3	M1(+E2)	0.50 LE	0.0186	B(E2)(W.u.)=1.57 +45-51, B(M1)(W.u.)=0.0037 +10-12, α=0.0186 10, α(K)=0.0157 8, α(L)=0.00221 9, α(M)=0.000478 18, α(N)=0.000110 5, α(O)=1.71E-5 7, α(P)=1.14E-6 7
	3/2-	14 ps +7-3	614.854 3	E2(+M1)	1.53 GT	0.0093	B(E2)(W.u.)=3.0 9, B(M1)(W.u.)=9.5E-4 +26-32, α=0.0093 11, α(K)=0.0077 9, α(L)=0.00122 10, α(M)=0.000268 21, α(N)=6.1E-5 5, α(O)=9.3E-6 8, α(P)=5.3E-7 7
647.7928	5/2-	14 ps +16-6	193.319 4	M1,E2		0.28	α=0.28 4, α(K)=0.22 5, α(L)=0.049 11, α(M)=0.0110 28, α(N)=0.0025 6, α(O)=0.00036 7, α(P)=1.48×10^-5 50
	5/2-	14 ps +16-6	379.165 4	E1		0.00896	B(E1)(W.u.)=1.8E-5 +13-9, α=0.00896, α(K)=0.00763 11, α(L)=0.001044 15, α(M)=0.000225 4, α(N)=5.15E-5 8, α(O)=7.87E-6 11, α(P)=4.94E-7 7
	5/2-	14 ps +16-6	501.713 7	M1+E2	1.0 LE	0.022	B(E2)(W.u.)=2.4 +18-12, B(M1)(W.u.)=0.0012 +9-6, α=0.022 3, α(K)=0.019 3, α(L)=0.00272 24, α(M)=0.00059 5, α(N)=0.000136 12, α(O)=2.10E-5 20, α(P)=1.36E-6 21
	5/2-	14 ps +16-6	529.793 8	E1		0.00414	B(E1)(W.u.)=2.3E-5 +17-12, α=0.00414, α(K)=0.00354 5, α(L)=0.000476 7, α(M)=0.0001024 15, α(N)=2.35E-5 4, α(O)=3.61E-6 5, α(P)=2.33E-7 4
	5/2-	14 ps +16-6	587.78 3	E0+E2,M1		0.0130	α=0.0130 38, α(K)=0.0109 34, α(L)=0.0016 4, α(M)=0.00035 8, α(N)=8.1×10^-5 17, α(O)=1.2E-5 3, α(P)=7.8E-7 27
	5/2-	14 ps +16-6	647.796 7	E2+M1	2.0 GT	0.0079	B(E2)(W.u.)=1.8 +14-9, B(M1)(W.u.)=3.6E-4 +28-19, α=0.0079 6, α(K)=0.0065 6, α(L)=0.00103 6, α(M)=0.000227 13, α(N)=5.2E-5 3, α(O)=7.8E-6 5, α(P)=4.5E-7 5
658.985	5/2-		512.918 7	M1		0.0237	α=0.0237, α(K)=0.0201 3, α(L)=0.00279 4, α(M)=0.000605 9, α(N)=0.0001392 20, α(O)=2.17×10^-5 3, α(P)=1.473E-6 21
658.985	5/2-		598.974 6	M1,E2		0.0124	α=0.0124 37, α(K)=0.0104 32, α(L)=0.0015 4, α(M)=0.00034 7, α(N)=7.7×10^-5 17, α(O)=1.2E-5 3, α(P)=7.4E-7 25
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
663.7	17/2-		199.6 2	(M1+E2)		0.26	α=0.26 4, α(K)=0.20 5, α(L)=0.044 9, α(M)=0.0098 23, α(N)=0.0022 5, α(O)=0.00032 6, α(P)=1.35×10^-5 46
663.7	17/2-		381.1 2	E2		0.0295	α=0.0295, α(K)=0.0234 4, α(L)=0.00480 7, α(M)=0.001077 16, α(N)=0.000244 4, α(O)=3.54×10^-5 5, α(P)=1.517E-6 22
720.6172	1/2+		270.051 5	E1		0.0208	α=0.0208, α(K)=0.01766 25, α(L)=0.00246 4, α(M)=0.000531 8, α(N)=0.0001212 17, α(O)=1.84×10^-5 3, α(P)=1.114E-6 16
	1/2+		451.991 3	M1		0.0327	α=0.0327, α(K)=0.0278 4, α(L)=0.00387 6, α(M)=0.000839 12, α(N)=0.000193 3, α(O)=3.00×10^-5 5, α(P)=2.04E-6 3
	1/2+		615.302 3	M1		0.01499	α=0.01499, α(K)=0.01275 18, α(L)=0.001758 25, α(M)=0.000380 6, α(N)=8.75×10^-5 13, α(O)=1.363E-5 19, α(P)=9.29E-7 13
729.6	15/2-	5.8 ps 11	195.4	M1+E2	-0.26 13	0.301	B(E2)(W.u.)=6×10¹ +7-4, B(M1)(W.u.)=0.067 +16-13, α=0.301 7, α(K)=0.252 8, α(L)=0.0382 15, α(M)=0.0083 4, α(N)=0.00192 9, α(O)=0.000294 10, α(P)=1.86E-5 8
	15/2-	5.8 ps 11	337.3	E2		0.0422	B(E2)(W.u.)=3.3×10² +8-5, α=0.0422, α(K)=0.0329 5, α(L)=0.00728 11, α(M)=0.001641 23, α(N)=0.000372 6, α(O)=5.33E-5 8, α(P)=2.10E-6 3
	15/2-	5.8 ps 11	515.3	[E1]		0.00440	B(E1)(W.u.)=1.46E-5 +38-26, α=0.00440, α(K)=0.00376 6, α(L)=0.000506 7, α(M)=0.0001091 16, α(N)=2.50E-5 4, α(O)=3.84E-6 6, α(P)=2.48E-7 4
736.76	21/2+		313.0 2	E2		0.0529	α=0.0529, α(K)=0.0407 6, α(L)=0.00947 14, α(M)=0.00214 3, α(N)=0.000485 7, α(O)=6.91×10^-5 10, α(P)=2.57E-6 4
752.549	(5/2+)		329.143 9	M1		0.0748	α=0.0748, α(K)=0.0634 9, α(L)=0.00892 13, α(M)=0.00193 3, α(N)=0.000445 7, α(O)=6.92×10^-5 10, α(P)=4.67E-6 7
	(5/2+)		666.012 9	M1,(E2)		0.0096	α=0.0096 28, α(K)=0.0081 25, α(L)=0.0012 3, α(M)=0.00026 6, α(N)=5.9×10^-5 13, α(O)=9.0E-6 22, α(P)=5.7E-7 19
	(5/2+)		692.46 4	(E1)		0.00234	α=0.00234, α(K)=0.00200 3, α(L)=0.000265 4, α(M)=5.71×10^-5 8, α(N)=1.309E-5 19, α(O)=2.02E-6 3, α(P)=1.332E-7 19
786.74	19/2+		333.1 2	E2		0.0438	α=0.0438, α(K)=0.0341 5, α(L)=0.00760 11, α(M)=0.001715 25, α(N)=0.000388 6, α(O)=5.57×10^-5 8, α(P)=2.17E-6 3
786.74	19/2+		362.8 2	(M1+E2)		0.046	α=0.046 12, α(K)=0.038 12, α(L)=0.0063 7, α(M)=0.00138 12, α(N)=0.00032 3, α(O)=4.8×10^-5 6, α(P)=2.67E-6 95
815.733	(3/2)+		489.646 10	(M1,E2)		0.0207	α=0.0207 60, α(K)=0.0173 54, α(L)=0.0027 5, α(M)=0.00058 10, α(N)=0.000133 24, α(O)=2.0×10^-5 5, α(P)=1.23E-6 43
	(3/2)+		547.05 3	M1,E2		0.0156	α=0.0156 46, α(K)=0.0131 41, α(L)=0.0020 4, α(M)=0.00043 9, α(N)=9.8×10^-5 20, α(O)=1.5E-5 4, α(P)=9.3E-7 32
	(3/2)+		729.165 17	M1		0.00984	α=0.00984, α(K)=0.00838 12, α(L)=0.001148 16, α(M)=0.000248 4, α(N)=5.71×10^-5 8, α(O)=8.90E-6 13, α(P)=6.09E-7 9
872.810	(5/2)+		418.336 3	E1		0.00710	α=0.00710, α(K)=0.00605 9, α(L)=0.000824 12, α(M)=0.0001775 25, α(N)=4.06×10^-5 6, α(O)=6.22E-6 9, α(P)=3.94E-7 6
880.7	19/2-		217.1 2	M1+E2	-0.29 11	0.224	α=0.224 5, α(K)=0.188 6, α(L)=0.0284 8, α(M)=0.00619 19, α(N)=0.00142 4, α(O)=0.000218 5, α(P)=1.38×10^-5 5
880.7	19/2-		416.8 2	E2		0.0229	α=0.0229, α(K)=0.0183 3, α(L)=0.00358 5, α(M)=0.000800 12, α(N)=0.000182 3, α(O)=2.65×10^-5 4, α(P)=1.203E-6 17
896.9	17/2-	4.9 ps 3	167.4	M1+E2	-0.15 4	0.467	B(E2)(W.u.)=30 +18-14, B(M1)(W.u.)=0.072 9, α=0.467, α(K)=0.393 6, α(L)=0.0579 11, α(M)=0.01261 25, α(N)=0.00290 6, α(O)=0.000448 8, α(P)=2.91E-5 5
	17/2-	4.9 ps 3	362.8	E2		0.0340	B(E2)(W.u.)=316 +21-18, α=0.0340, α(K)=0.0268 4, α(L)=0.00567 8, α(M)=0.001273 18, α(N)=0.000289 4, α(O)=4.17E-5 6, α(P)=1.727E-6 25
	17/2-	4.9 ps 3	443.2	[E1]		0.00620	B(E1)(W.u.)=4.2E-6 10, α=0.00620, α(K)=0.00529 8, α(L)=0.000718 10, α(M)=0.0001548 22, α(N)=3.54E-5 5, α(O)=5.43E-6 8, α(P)=3.46E-7 5
1002.955	1/2-		187.222 2	E1		0.0541	α=0.0541, α(K)=0.0458 7, α(L)=0.00652 10, α(M)=0.001409 20, α(N)=0.000321 5, α(O)=4.81×10^-5 7, α(P)=2.78E-6 4
	1/2-		388.098 3	M1		0.0485	α=0.0485, α(K)=0.0412 6, α(L)=0.00577 8, α(M)=0.001250 18, α(N)=0.000288 4, α(O)=4.47×10^-5 7, α(P)=3.03E-6 5
	1/2-		734.79 20	E1		0.00207	α=0.00207, α(K)=0.001772 25, α(L)=0.000234 4, α(M)=5.04×10^-5 7, α(N)=1.156E-5 17, α(O)=1.79E-6 3, α(P)=1.183E-7 17
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1012.893	3/2-		365.112 11	(M1)		0.0569	α=0.0569, α(K)=0.0483 7, α(L)=0.00678 10, α(M)=0.001468 21, α(N)=0.000338 5, α(O)=5.26×10^-5 8, α(P)=3.55E-6 5
	3/2-		524.197 18	E1		0.00424	α=0.00424, α(K)=0.00362 5, α(L)=0.000487 7, α(M)=0.0001049 15, α(N)=2.40×10^-5 4, α(O)=3.69E-6 6, α(P)=2.39E-7 4
	3/2-		725.82 4	E2		0.00556	α=0.00556, α(K)=0.00464 7, α(L)=0.000725 11, α(M)=0.0001590 23, α(N)=3.64×10^-5 5, α(O)=5.50E-6 8, α(P)=3.18E-7 5
	3/2-		744.290 22	(E1)		0.00202	α=0.00202, α(K)=0.001726 25, α(L)=0.000228 4, α(M)=4.91×10^-5 7, α(N)=1.126E-5 16, α(O)=1.739E-6 25, α(P)=1.153E-7 17
	3/2-		907.62 3	(E1)		1.36×10^-3	α=1.36×10^-3, α(K)=0.001170 17, α(L)=0.0001533 22, α(M)=3.29E-5 5, α(N)=7.56E-6 11, α(O)=1.170E-6 17, α(P)=7.85E-8 11
1035.221	1/2+,3/2+		219.487 2	M1,E2		0.19	α=0.19 3, α(K)=0.15 4, α(L)=0.031 5, α(M)=0.0070 13, α(N)=0.0016 3, α(O)=0.00023 3, α(P)=1.04×10^-5 36
	1/2+,3/2+		314.604 8	M1,(E2)		0.068	α=0.068 17, α(K)=0.056 16, α(L)=0.0097 4, α(M)=0.00214 5, α(N)=0.000489 15, α(O)=7.3×10^-5 6, α(P)=3.9E-6 14
	1/2+,3/2+		667.613 20	M1,E2		0.0095	α=0.0095 28, α(K)=0.0080 24, α(L)=0.0012 3, α(M)=0.00025 6, α(N)=5.8×10^-5 13, α(O)=9.0E-6 22, α(P)=5.7E-7 19
	1/2+,3/2+		768.62 3	(M1,E2)		0.0068	α=0.0068 19, α(K)=0.0057 17, α(L)=0.00082 19, α(M)=0.00018 4, α(N)=4.1×10^-5 10, α(O)=6.3E-6 16, α(P)=4.1E-7 13
1060.599	(5/2-)		1000.56 7	(E2)		0.00275	α=0.00275, α(K)=0.00232 4, α(L)=0.000336 5, α(M)=7.30×10^-5 11, α(N)=1.674E-5 24, α(O)=2.56E-6 4, α(P)=1.607E-7 23
1086.846	3/2+		334.305 7	M1		0.0718	α=0.0718, α(K)=0.0608 9, α(L)=0.00856 12, α(M)=0.00186 3, α(N)=0.000427 6, α(O)=6.64×10^-5 10, α(P)=4.48E-6 7
1104.792	(7/2-)		986.4 3	E1		1.17×10^-3	α=1.17×10^-3, α(K)=0.000999 14, α(L)=0.0001305 19, α(M)=2.80E-5 4, α(N)=6.44E-6 9, α(O)=9.97E-7 14, α(P)=6.71E-8 10
1113.2	21/2-		232.4 2	M1+E2	-0.33 +8-16	0.185	α=0.185 6, α(K)=0.155 7, α(L)=0.0235 7, α(M)=0.00512 18, α(N)=0.00118 4, α(O)=0.000180 4, α(P)=1.13×10^-5 6
1113.2	21/2-		449.5 2	E2		0.0186	α=0.0186, α(K)=0.01495 21, α(L)=0.00282 4, α(M)=0.000628 9, α(N)=0.0001428 20, α(O)=2.10×10^-5 3, α(P)=9.92E-7 14
1129.842	3/2-		126.887 1	E2		1.065	α=1.065, α(K)=0.601 9, α(L)=0.359 5, α(M)=0.0841 12, α(N)=0.0188 3, α(O)=0.00250 4, α(P)=3.10×10^-5 5
1129.842	3/2-		1069.97 7	E2		0.00239	α=0.00239, α(K)=0.00202 3, α(L)=0.000289 4, α(M)=6.28×10^-5 9, α(N)=1.440E-5 21, α(O)=2.21E-6 3, α(P)=1.402E-7 20
1142.3	19/2-	2.4 ps 2	245.4	M1+E2	-0.20 4	0.1619	B(E2)(W.u.)=30 +29-17, B(M1)(W.u.)=0.09 +7-4, α=0.1619 24, α(K)=0.1366 21, α(L)=0.0198 3, α(M)=0.00432 7, α(N)=0.000993 15, α(O)=0.0001535 22, α(P)=1.007E-5 17
1142.3	19/2-	2.4 ps 2	412.8	E2		0.0235	B(E2)(W.u.)=323 +44-58, α=0.0235, α(K)=0.0188 3, α(L)=0.00369 6, α(M)=0.000826 12, α(N)=0.000188 3, α(O)=2.74E-5 4, α(P)=1.233E-6 18
1144.4	25/2+		407.6 2	E2		0.0244	α=0.0244, α(K)=0.0194 3, α(L)=0.00385 6, α(M)=0.000861 13, α(N)=0.000196 3, α(O)=2.85×10^-5 4, α(P)=1.274E-6 18
1192.850	1/2+,3/2+		765.68 11	(E2,M1)		0.0068	α=0.0068 19, α(K)=0.0058 17, α(L)=0.00083 20, α(M)=0.00018 4, α(N)=4.1×10^-5 10, α(O)=6.3E-6 16, α(P)=4.1E-7 13
1197.611	3/2-,5/2,7/2		1137.66 12	E2(+M1)		0.0027	α=0.0027 7, α(K)=0.0023 6, α(L)=0.00032 7, α(M)=6.9×10^-5 15, α(N)=1.6E-5 4, α(O)=2.5E-6 6, α(P)=1.65E-7 42
1220.32	23/2+		433.5 2	E2		0.0205	α=0.0205, α(K)=0.01646 24, α(L)=0.00316 5, α(M)=0.000705 10, α(N)=0.0001602 23, α(O)=2.34×10^-5 4, α(P)=1.088E-6 16
1220.32	23/2+		483.6 2	(M1+E2)		0.0214	α=0.0214 62, α(K)=0.0179 56, α(L)=0.0028 5, α(M)=0.00060 11, α(N)=0.000138 25, α(O)=2.1×10^-5 5, α(P)=1.27E-6 45
1282.7	15/2-		1161	E2		0.00203	α=0.00203, α(K)=0.001717 24, α(L)=0.000242 4, α(M)=5.25×10^-5 8, α(N)=1.204E-5 17, α(O)=1.85E-6 3, α(P)=1.191E-7 17
1297.177	7/2+		808.38 3	E2,M1		0.0060	α=0.0060 17, α(K)=0.0051 15, α(L)=0.00072 17, α(M)=0.00016 4, α(N)=3.6×10^-5 9, α(O)=5.6E-6 14, α(P)=3.6E-7 11
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1326.5	21/2-	2.4 ps 4	184.3	[M1+E2]		0.33	α=0.33 4, α(K)=0.25 6, α(L)=0.058 15, α(M)=0.0131 38, α(N)=0.00298 81, α(O)=0.00043 9, α(P)=1.69×10^-5 57
	21/2-	2.4 ps 4	429.7	E2		0.0210	B(E2)(W.u.)=2.8×10² +6-4, α=0.0210, α(K)=0.01685 24, α(L)=0.00325 5, α(M)=0.000725 11, α(N)=0.0001648 23, α(O)=2.41E-5 4, α(P)=1.112E-6 16
	21/2-	2.4 ps 4	539.4	[E1]		0.00398	B(E1)(W.u.)=4.2E-5 +14-11, α=0.00398, α(K)=0.00340 5, α(L)=0.000457 7, α(M)=9.84E-5 14, α(N)=2.25E-5 4, α(O)=3.46E-6 5, α(P)=2.24E-7 4
1332.06	1/2(+),3/2(+)		1331.66 18	(E1)		7.67×10^-4	α=7.67×10^-4, α(K)=0.000582 9, α(L)=7.51E-5 11, α(M)=1.611E-5 23, α(N)=3.70E-6 6, α(O)=5.75E-7 8, α(P)=3.92E-8 6
1343.313	3/2-,5/2,7/2-		238.524 10	M1,E2		0.15	α=0.15 3, α(K)=0.12 3, α(L)=0.0237 24, α(M)=0.0053 7, α(N)=0.00120 14, α(O)=0.000176 12, α(P)=8.3×10^-6 29
1363.631	5/2,7/2+		276.84 3	(M1)		0.1185	α=0.1185, α(K)=0.1003 14, α(L)=0.01420 20, α(M)=0.00308 5, α(N)=0.000709 10, α(O)=0.0001102 16, α(P)=7.42×10^-6 11
1434.40	1/2+,3/2+		982.91 13	E1		1.17×10^-3	α=1.17×10^-3, α(K)=0.001006 14, α(L)=0.0001314 19, α(M)=2.82E-5 4, α(N)=6.48E-6 9, α(O)=1.004E-6 14, α(P)=6.76E-8 10
1437.681			332.909 13	M1,E2		0.058	α=0.058 15, α(K)=0.048 14, α(L)=0.0081 6, α(M)=0.00180 9, α(N)=0.000411 23, α(O)=6.1×10^-5 6, α(P)=3.4E-6 12
1460.6	17/2-		178	M1		0.395	α=0.395, α(K)=0.334 5, α(L)=0.0478 7, α(M)=0.01038 15, α(N)=0.00239 4, α(O)=0.000371 6, α(P)=2.48×10^-5 4
1470.02	5/2+		1183.2 4	E1		8.53×10^-4	α=8.53×10^-4, α(K)=0.000717 10, α(L)=9.29E-5 13, α(M)=1.99E-5 3, α(N)=4.58E-6 7, α(O)=7.11E-7 10, α(P)=4.83E-8 7
1474.50	1/2+,3/2+,5/2+		181.949 3	(E2)		0.305	α=0.305, α(K)=0.206 3, α(L)=0.0769 11, α(M)=0.01779 25, α(N)=0.00400 6, α(O)=0.000545 8, α(P)=1.157×10^-5 17
1474.50	1/2+,3/2+,5/2+		461.57 8	E1		0.00565	α=0.00565, α(K)=0.00482 7, α(L)=0.000653 10, α(M)=0.0001407 20, α(N)=3.22×10^-5 5, α(O)=4.94E-6 7, α(P)=3.16E-7 5
1517.10	3/2+,5/2+,7/2+		1062.8 3	E1		1.01×10^-3	α=1.01×10^-3, α(K)=0.000870 13, α(L)=0.0001134 16, α(M)=2.43E-5 4, α(N)=5.59E-6 8, α(O)=8.66E-7 13, α(P)=5.85E-8 9
1615.3	23/2-		473.0	[E2]		0.01617	α=0.01617, α(K)=0.01309 19, α(L)=0.00241 4, α(M)=0.000535 8, α(N)=0.0001218 17, α(O)=1.79×10^-5 3, α(P)=8.73E-7 13
1619.3	25/2-		259.2 2	M1+E2	-0.60 +24-30	0.129	α=0.129 9, α(K)=0.107 9, α(L)=0.0175 5, α(M)=0.00385 13, α(N)=0.00088 3, α(O)=0.0001331 21, α(P)=7.7×10^-6 9
1619.3	25/2-		506.1 2	[E2]		0.01351	α=0.01351, α(K)=0.01100 16, α(L)=0.00196 3, α(M)=0.000435 7, α(N)=9.91×10^-5 14, α(O)=1.467E-5 21, α(P)=7.39E-7 11
1635.5	29/2+		491.1 2	E2		0.01463	α=0.01463, α(K)=0.01188 17, α(L)=0.00215 3, α(M)=0.000477 7, α(N)=0.0001086 16, α(O)=1.603×10^-5 23, α(P)=7.95E-7 12
1679.2	19/2-		218.4 2	M1		0.225	α=0.225, α(K)=0.190 3, α(L)=0.0271 4, α(M)=0.00589 9, α(N)=0.001355 20, α(O)=0.000210 3, α(P)=1.412×10^-5 20
1889.9	27/2-		270.5 2	M1+E2	-0.45 +20-45	0.119	α=0.119 12, α(K)=0.099 13, α(L)=0.0153 4, α(M)=0.00335 12, α(N)=0.000768 24, α(O)=0.0001172 17, α(P)=7.2×10^-6 12
1889.9	27/2-		530.0 2	[E2]		0.01199	α=0.01199, α(K)=0.00979 14, α(L)=0.001713 24, α(M)=0.000379 6, α(N)=8.64×10^-5 13, α(O)=1.283E-5 18, α(P)=6.60E-7 10
1913.1	21/2-		233.6 2	M1		0.187	α=0.187, α(K)=0.1586 23, α(L)=0.0225 4, α(M)=0.00489 7, α(N)=0.001127 16, α(O)=0.0001749 25, α(P)=1.175×10^-5 17
2161.0	23/2-		247.9 2	M1		0.1594	α=0.1594, α(K)=0.1350 20, α(L)=0.0192 3, α(M)=0.00416 6, α(N)=0.000958 14, α(O)=0.0001487 21, α(P)=1.000×10^-5 15
2199.2	33/2+		563.7 2	E2		0.01024	α=0.01024, α(K)=0.00841 12, α(L)=0.001434 21, α(M)=0.000317 5, α(N)=7.23×10^-5 11, α(O)=1.077E-5 16, α(P)=5.69E-7 8
2421.6	25/2-		260.7 2	M1		0.1392	α=0.1392, α(K)=0.1179 17, α(L)=0.01671 24, α(M)=0.00363 6, α(N)=0.000835 12, α(O)=0.0001297 19, α(P)=8.72×10^-6 13
2694.6	27/2-		273.0 8	M1		0.1230	α=0.1230 20, α(K)=0.1042 17, α(L)=0.01475 24, α(M)=0.00320 6, α(N)=0.000737 12, α(O)=0.0001144 19, α(P)=7.70×10^-6 13
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
2825.5	37/2+		626.3 2	E2		0.00789	α=0.00789, α(K)=0.00652 10, α(L)=0.001070 15, α(M)=0.000236 4, α(N)=5.38×10^-5 8, α(O)=8.07E-6 12, α(P)=4.45E-7 7
2978.4	29/2-		283	M1		0.1117	α=0.1117, α(K)=0.0946 14, α(L)=0.01338 19, α(M)=0.00290 4, α(N)=0.000668 10, α(O)=0.0001038 15, α(P)=6.99×10^-6 10
3274.0	31/2-		296	M1		0.0991	α=0.0991, α(K)=0.0839 12, α(L)=0.01186 17, α(M)=0.00257 4, α(N)=0.000592 9, α(O)=9.20×10^-5 13, α(P)=6.20E-6 9

1989Sh41 interpret the low-lying level scheme of ¹⁵⁵Gd in terms of parity-doublet bands, implying the existence of octupole deformation. Subsequently, 1992No05 (involving one of the authors of 1989Sh41) present calculations of the octupole correlations in this nuclide and conclude that the influence of such correlations is much reduced with respect to those in the near-lying nuclides, ¹⁵³Sm and ¹⁵⁵Sm.

Levels: 1996No10, in (γ,γ’), report B(M1) values for the transitions exciting the levels. These are based on the assumption that the exciting transitions are M1. This assumption has not yet been proven. The B(M1) values are not listed here; they are shown in the ¹⁵⁵Gd(γ,γ’) data set.

Levels: Above≈1 MeV, the association of states reported in (d,d’) with those observed in other reactions is in many cases uncertain

Levels: E(x) Neutron capture "state "

Levels: E(y) Neutron binding energy

Levels: J(z) Capture state is formed by s-wave (L=0) neutron capture on a doubly even target nucleus (J=0)

Q(β-)=-820 keV 10	S(n)= 6435.24 keV 18	S(p)= 7620.7 keV 8	Q(α)= 81.5 keV 7
S(2n)= 15329.96 keV 18	S(2p)= 14088.1 keV 8
Reference: 2017WA10

References:
A	¹⁵⁵Eu β^- decay (4.753 Y)	B	¹⁵⁵Gd IT decay (31.97 MS)
C	¹⁵⁵Tb ε decay	D	¹⁵⁰Nd(¹²C,α3nγ),¹⁵⁰Nd(⁹Be,4nγ)
E	¹⁵⁴Sm(α,3nγ)	F	¹⁵⁴Gd(n,γ) E=TH,2,24 KEV
G	¹⁵⁴Gd(d,p)	H	¹⁵⁵Gd(γ,γ’)
I	¹⁵⁵Gd(d,d’)	J	¹⁵⁶Gd(p,d),(p,dγ)
K	¹⁵⁶Gd(d,t)	L	¹⁵⁶Gd(³He,α)
M	¹⁵⁷Gd(p,t)	N	Coulomb Excitation

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - g.s. band, signature=-1/2. Dominant configuration is 3/2[521]
0.0	3/2-	STABLE
146.0696 7	7/2-	0.102 ns 11	86.0591 10 146.0710 10	100 10 33.2 20	M1+E2 E2	60.0106 0.0	5/2- 3/2-
392.317 4	11/2-	23 ps 2	140.610 4 246.253 9 284.8	46 2 100 13 1	M1+E2 E2 E1(+M2)	251.7056 146.0696 107.5804	9/2- 7/2- 9/2+
729.6 5	15/2-	5.8 ps 11	195.4 337.3 515.3	19 1 100 6.7 6	M1+E2 E2 [E1]	534.30 392.317 214.3515	13/2- 11/2- 13/2+
1142.3 8	19/2-	2.4 ps 2	245.4 412.8	18 12 100 42	M1+E2 E2	896.9 729.6	17/2- 15/2-
1615.3 13	23/2-		473.0	100	[E2]	1142.3	19/2-
2136.0 16	27/2-		520.7	100		1615.3	23/2-
2702.2 19	31/2-		566.2	100		2136.0	27/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - g.s. band, signature=+1/2. Dominant configuration is 3/2[521]
60.0106 6	5/2-	0.196 ns 15
251.7056 10	9/2-	58 ps 6	105.636 1 133.7 191.691 7	93 11 7.6 4 100 14	M1+E2 [E1] E2	146.0696 117.9981 60.0106	7/2- 7/2+ 5/2-
534.30 10	13/2-	15 ps 2	141.9 282.6 1 304.2	22 1 100 6.6 4	M1+E2 E2 [E1]	392.317 251.7056 230.1286	11/2- 9/2- 11/2+
896.9 6	17/2-	4.9 ps 3	167.4 362.8 443.2	9 1 100 0.9 2	M1+E2 E2 [E1]	729.6 534.30 453.67	15/2- 13/2- 15/2+
1326.5 7	21/2-	2.4 ps 4	184.3 429.7 539.4	6 2 100 8 2	[M1+E2] E2 [E1]	1142.3 896.9 786.74	19/2- 17/2- 19/2+
1809.4 13	25/2-		482.9	100		1326.5	21/2-
2331.9 16	29/2-		522.5	100		1809.4	25/2-
2883.7 19	33/2-		551.8	100		2331.9	29/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - Mixed positive-parity band, signature=-1/2. Significant
86.5464 6	5/2+	6.50 ns 4
105.3106 6	3/2+	1.16 ns 1	18.763 2 45.2990 10 105.3083 10	0.23 3 6.21 17 100.0 20	M1+E2 E1 E1	86.5464 60.0106 0.0	5/2+ 5/2- 3/2-
107.5804 10	9/2+		21.035 4	100	E2	86.5464	5/2+
117.9981 7	7/2+		10.4178 12 31.444 7 57.9890 10	5.3 6 10.6 23 100 8	M1+E2 M1+E2 E1	107.5804 86.5464 60.0106	9/2+ 5/2+ 5/2-
230.1286 13	11/2+		112.131 2 122.548 1	86 10 100 7	E2 (M1,E2)	117.9981 107.5804	7/2+ 9/2+
453.67 13	15/2+		223.6 2 239.3 2	100 11 43 5	E2 M1+E2	230.1286 214.3515	11/2+ 13/2+
786.74 18	19/2+		333.1 2 362.8 2	100 6 37 3	E2 (M1+E2)	453.67 423.82	15/2+ 17/2+
1220.32 22	23/2+		433.5 2 483.6 2	100 6 20 2	E2 (M1+E2)	786.74 736.76	19/2+ 21/2+
1743.3 3	27/2+		523.0 2 599.0 2	100 7 20 5	Q	1220.32 1144.4	23/2+ 25/2+
2345.4 4	31/2+		602.0 2	100		1743.3	27/2+
3015.4 4	35/2+		670.0 2	100	Q	2345.4	31/2+
3730.5 5	39/2+		715.1 2	100	Q	3015.4	35/2+
4504.0 5	43/2+		773.5 2	100		3730.5	39/2+
5343.4 6	47/2+		839.4 2	100		4504.0	43/2+
6240.6 6	(51/2+)		897.6 2 ?	100		5343.4	47/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - Mixed positive-parity band, signature=+1/2. See comment for
214.3515 14	13/2+
423.82 17	17/2+		209.4 2	100	E2	214.3515	13/2+
736.76 22	21/2+		313.0 2	100	E2	423.82	17/2+
1144.4 3	25/2+		407.6 2	100	E2	736.76	21/2+
1635.5 4	29/2+		491.1 2	100	E2	1144.4	25/2+
2199.2 4	33/2+		563.7 2	100	E2	1635.5	29/2+
2825.5 5	37/2+		626.3 2	100	E2	2199.2	33/2+
3505.8 5	41/2+		680.3 2	100	Q	2825.5	37/2+
4234.7 5	45/2+		728.9 2	100	Q	3505.8	41/2+
5009.5 6	49/2+		774.8 2	100		4234.7	45/2+
5829	(53/2+)		820?			5009.5	49/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - K^π=3/2⁺ band. Conf=3/2(402)+... . Band also contains a
268.6238 7	3/2+
326.0881 8	5/2+		208.089 2 218.508 4 220.778 2 239.540 1 266.068 4	37 4 1.29 18 100 11 40 4 4.7 5	M1(+E2) (E2) M1(+E2) M1(+E2) E1	117.9981 107.5804 105.3106 86.5464 60.0106	7/2+ 9/2+ 3/2+ 5/2+ 5/2-
423.4123 13	7/2+		102.036 11 156.766 2 277.361 7 305.428 8 315.845 14 336.864 2 363.391 12	2.1 9 12.7 16 6.1 9 100 9 23.2 23 98 9 36 9	E1 M1,E2 M1 M1,(E2) M1 E1	321.3793 266.6474 146.0696 117.9981 107.5804 86.5464 60.0106	5/2- 5/2+ 7/2- 7/2+ 9/2+ 5/2+ 5/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - K^π=3/2- band. Conf=3/2(532). α=8.02 keV, A₃=-191 eV
287.0041 7	3/2-
321.3793 6	5/2-		175.310 1 203.382 1 216.069 1 234.832 1 261.369 1 321.383 2	32 3 21.3 22 100 7 24.4 15 29 5 11.5 11	M1,E2 E1 E1 E1 M1 M1	146.0696 117.9981 105.3106 86.5464 60.0106 0.0	7/2- 7/2+ 3/2+ 5/2+ 5/2- 3/2-
393.5322 11	7/2-		141.826 1 247.462 4 275.535 6 306.986 3 333.520 6 393.57 4	32 3 46 4 6.2 7 100 10 29 3 3.5 10	M1+E2 E1 M1	251.7056 146.0696 117.9981 86.5464 60.0106 0.0	9/2- 7/2- 7/2+ 5/2+ 5/2- 3/2-
485.975 4	(9/2-)		234.270 3	100		251.7056	9/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - "5/2[642] " band. This is the dominant configuration. This band
266.6474 7	5/2+
350.4355 9	7/2+		232.437 1 242.855 1 245.129 3 263.884 4	100 9 80 7 14.3 14 12.7 14	M1,E2 M1 E2	117.9981 107.5804 105.3106 86.5464	7/2+ 9/2+ 3/2+ 5/2+
860.17 21	(13/2)+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 8 - K^π=1/2⁺ band. Conf=1/2(400). α=16.08 keV, a=+0.235 (from
367.6342 8	1/2+
427.2375 7	3/2+		59.602 1 101.148 2 105.864 1 158.612 1 160.589 2 309.21 3 321.926 3 340.690 1 367.225 2 427.18 1	2.3 9 20 5 1.4 3 6.6 7 74 8 0.33 5 11 1 83 8 100 9 2.2 1	E2(+M1) M1+E2 E2 M1(+E2) M1+E2 M1(+E2) E1(+M2) E1	367.6342 326.0881 321.3793 268.6238 266.6474 117.9981 105.3106 86.5464 60.0106 0.0	1/2+ 5/2+ 5/2- 3/2+ 5/2+ 7/2+ 3/2+ 5/2+ 5/2- 3/2-
488.7209 8	5/2+		61.484 1 138.285 1 162.631 1 201.0 10 220.099 1 222.069 9 342.647 4 370.721 5 381.06 3 383.414 7 402.173 2 428.7 1 488.65 15	16 3 18.6 19 ≈8 6 4 75 8 8.3 8 3.6 8 100 8 2.3 2 11.4 11 37 3 0.4 2 7.5 13	M1+E2 E2,M1 [M1,E2] M1,E2 M1+E2 M1 M1 E1	427.2375 350.4355 326.0881 287.0041 268.6238 266.6474 146.0696 117.9981 107.5804 105.3106 86.5464 60.0106 0.0	3/2+ 7/2+ 5/2+ 3/2- 3/2+ 5/2+ 7/2- 7/2+ 9/2+ 3/2+ 5/2+ 5/2- 3/2-
610.8425 16	7/2+		183.605 2 187.434 3 284.745 4 344.204 6 359.093 18	75 9 58 5 87 9 58 5 100 9	[E2] E2,M1 M1 M1	427.2375 423.4123 326.0881 266.6474 251.7056	3/2+ 7/2+ 5/2+ 5/2+ 9/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 9 - K^π=1/2- band. Conf=1/2(530). α=12.96 keV, a=-1.02 (from
450.5630 8	3/2-
451.3716 8	1/2-		83.738 1 164.366 2 182.748 1 346.059 2 391.360 2 451.370 3	1.9 3 24.6 16 14.1 14 72 7 15.8 15 100 10	M1,E2 E1 E1 E2 M1,E2	367.6342 287.0041 268.6238 105.3106 60.0106 0.0	1/2+ 3/2- 3/2+ 3/2+ 5/2- 3/2-
581.4556 13	5/2-		158.044 4 187.923 1 231.033 6 260.071 3 294.453 10 312.824 7 463.460 4 476.162 9 521.472 10 581.430 12	2.6 4 9.9 11 0.99 25 5.3 5 1.48 25 1.2 1 100 10 8.6 9 5.8 9 20 2	(M1,E2) M1 E1 E1 M1,E2 E2	423.4123 393.5322 350.4355 321.3793 287.0041 268.6238 117.9981 105.3106 60.0106 0.0	7/2+ 7/2- 7/2+ 5/2- 3/2- 3/2+ 7/2+ 3/2+ 5/2- 3/2-
804.382 21	(9/2-)		318.422 21 574.03 8	23 18 100 14		485.975 230.1286	(9/2-) 11/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 10 - K^π=5/2- band. Conf=5/2(523). α=14.13 keV (from 5/2- and
454.4744 10	5/2-
553.371 4	(7/2)-		301.682 9 435.365 5 466.824 10 493.374 17	6.4 18 100 9 16.1 14 8.3 14	E1	251.7056 117.9981 86.5464 60.0106	9/2- 7/2+ 5/2+ 5/2-
692.4 3	(9/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 11 - 1/2[521] band (+ K-2 γ vibr. built on the g.s.) α=13.81 keV,
559.368 4	1/2-
614.8556 19	3/2-	14 ps +7-3	293.460 8 327.871 9 528.36 3 554.843 3 614.854 3	0.86 12 0.86 16 0.70 16 100 9 93 9	M1 (M1,E2) M1(+E2) E2(+M1)	321.3793 287.0041 86.5464 60.0106 0.0	5/2- 3/2- 5/2+ 5/2- 3/2-
658.985 4	5/2-		337.59 4 371.78 9 512.918 7 540.94 3 598.974 6	1.6 8 1.5 12 61 5 3.3 8 100 10	M1 M1,E2	321.3793 287.0041 146.0696 117.9981 60.0106	5/2- 3/2- 7/2- 7/2+ 5/2-
786.896 6	7/2-		300.926 15 535.199 9 640.848 23 679.49 11	12 1 49 5 100 16 20.4 21		485.975 251.7056 146.0696 107.5804	(9/2-) 9/2- 7/2- 9/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 12 - K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75
121.10 19	11/2-	31.97 ms 27 % IT = 100
463.88 24	15/2-		181.1 2 342.9 2	100 16 26 3	M1+E2 E2	282.65 121.10	13/2- 11/2-
880.7 3	19/2-		217.1 2 416.8 2	100 10 56 3	M1+E2 E2	663.7 463.88	17/2- 15/2-
1360.0 3	23/2-		246.6 2 479.3 2	86 9 100 6	D Q	1113.2 880.7	21/2- 19/2-
1889.9 4	27/2-		270.5 2 530.0 2	57 3 100 5	M1+E2 [E2]	1619.3 1360.0	25/2- 23/2-
2460.1 4	31/2-		289.5 2 570.2 2	39 4 100 7	Q	2170.4 1889.9	29/2- 27/2-
3064.5 4	35/2-		306.3 2 604.5 2	33 5 100 12	D Q	2758.1 2460.1	33/2- 31/2-
3702.8 5	39/2-		638.3 2	100		3064.5	35/2-
4379.6 9	43/2-		676.8 8	100		3702.8	39/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 13 - K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band
282.65 24	13/2-
663.7 3	17/2-		199.6 2 ? 381.1 2	100 15 46 4	(M1+E2) E2	463.88 282.65	15/2- 13/2-
1113.2 3	21/2-		232.4 2 449.5 2	100 10 92 5	M1+E2 E2	880.7 663.7	19/2- 17/2-
1619.3 3	25/2-		259.2 2 506.1 2	57 3 100 6	M1+E2 [E2]	1360.0 1113.2	23/2- 21/2-
2170.4 4	29/2-		280.5 2 551.2 2	49 4 100 7	Q	1889.9 1619.3	27/2- 25/2-
2758.1 4	33/2-		297.8 2 587.8 2	38 4 100 9	D	2460.1 2170.4	31/2- 29/2-
3379.7 4	37/2-		316.0 8 621.5 2	24 5 100 8	Q	3064.5 2758.1	35/2- 33/2-
4038.8 5	41/2-		659.1 2	100		3379.7	37/2-
4735.3 10	45/2-		696.5 8	100		4038.8	41/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 14 - K^π=3/2- band. "β-vibration " built on the g.s. α=11.13 keV.
592.1422 18	3/2-
647.7928 20	5/2-	14 ps +16-6	193.319 4 254.256 6 321.711 5 379.165 4 396.095 6 501.713 7 529.793 8 542.474 17 587.78 3 647.796 7	5.2 6 8.5 6 8.8 12 19.1 18 8.2 6 60 6 66 6 15 2 29 3 100 12	M1,E2 E1 M1+E2 E1 E0+E2,M1 E2+M1	454.4744 393.5322 326.0881 268.6238 251.7056 146.0696 117.9981 105.3106 60.0106 0.0	5/2- 7/2- 5/2+ 3/2+ 9/2- 7/2- 7/2+ 3/2+ 5/2- 3/2-
721.0 10	(7/2-)		721.0	100		0.0	3/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 15 - Possible K-2 γ vibration band built on the g.s.. Note,
1002.955 3	1/2-
1012.893 3	3/2-		197.163 4 292.265 4 365.112 11 453.541 18 524.197 18 562.27 12 725.82 4 744.290 22 907.62 3 926.30 20 953.00 5 1013.06 7	3.7 5 3.6 3 3.6 6 3.4 8 9.9 12 3.3 8 27 3 30 4 100 12 85 18 27 3 42 8	(M1) E1 E2 (E1) (E1)	815.733 720.6172 647.7928 559.368 488.7209 450.5630 287.0041 268.6238 105.3106 86.5464 60.0106 0.0	(3/2)+ 1/2+ 5/2- 1/2- 5/2+ 3/2- 3/2- 3/2+ 3/2+ 5/2+ 5/2- 3/2-
1060.599 3	(5/2-)		57.644 1 739.2 3 1000.56 7 1060.75 14	3.4 21 11 3 72 13 100 9	(E2)	1002.955 321.3793 60.0106 0.0	1/2- 5/2- 5/2- 3/2-
1104.792 6	(7/2-)		317.907 8 445.804 8 551.415 12 681.31 6 817.93 14 837.97 23 986.4 3 997.39 21 1105.1 3	14 4 22 2 13 1 16 2 61 6 9 2 100 14 34 4 68 9	E1	786.896 658.985 553.371 423.4123 287.0041 266.6474 117.9981 107.5804 0.0	7/2- 5/2- (7/2)- 7/2+ 3/2- 5/2+ 7/2+ 9/2+ 3/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 16 - β vibration built on the "3/2[651] " band ?
815.733 3	(3/2)+
872.810 3	(5/2)+		418.336 3 551.415 12 767.456 24 873.07 17	21.5 22 13 1 100 11 32 4	E1	454.4744 321.3793 105.3106 0.0	5/2- 5/2- 3/2+ 3/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 17 - Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=-1/2 branch.
1282.7 6	15/2-
1679.2 4	19/2-		218.4 2	100	M1	1460.6	17/2-
2161.0 4	23/2-		247.9 2 481.9 2	62 19 100 15	M1	1913.1 1679.2	21/2- 19/2-
2694.6 4	27/2-		273.0 8 533.5 2	100 31	M1	2421.6 2161.0	25/2- 23/2-
3274.0 8	31/2-		296 579		M1	2978.4 2694.6	29/2- 27/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 18 - Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=+1/2 branch
1460.6 3	17/2-
1913.1 4	21/2-		233.6 2 452.7 2	100 20 80 17	M1	1679.2 1460.6	19/2- 17/2-
2421.6 4	25/2-		260.7 2 508.4 2	44 16 100 12	M1 Q	2161.0 1913.1	23/2- 21/2-
2978.4 5	29/2-		283 556.8 2		M1	2694.6 2421.6	27/2- 25/2-
3579.1 5	33/2-		600.7 2	100		2978.4	29/2-
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 19 - Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-
754.8 8	J0
1107.3 7	J0+2		352.5 683.4		Q	754.8 423.82	J0 17/2+
1522.5 8	J0+4		415.2 785.8		Q	1107.3 736.76	J0+2 21/2+
1994.8 9	J0+6		472.3 850.4		Q	1522.5 1144.4	J0+4 25/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 20 - Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-
889.3 8	J1
1255.8 7	J1+2		366.7 831.9		Q	889.3 423.82	J1 17/2+
1686.8 7	J1+4		431.2 950.0		Q	1255.8 736.76	J1+2 21/2+
2188.5 8	J1+6		501.8 1044.1		Q	1686.8 1144.4	J1+4 25/2+
2758.3 9	J1+8		569.8 1122.8		Q	2188.5 1635.5	J1+6 29/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 21 - Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-
931.5 8	J2
1303.2 7	J2+2		371.7 879.5		Q	931.5 423.82	J2 17/2+
1740.8 8	J2+4		437.6 1004.1		Q	1303.2 736.76	J2+2 21/2+
2226.2 9	J2+6		485.6 1081.6		Q	1740.8 1144.4	J2+4 25/2+
2752.6 13	J2+8		526.4	100	Q	2226.2	J2+6

E(level)	J^π(level)	T_1/2(level)	Comments
0.0	3/2-	STABLE	Q=+1.27 3, μ=-0.2574 4 Some of the values (in units of fm²) reported for Δ<r²>(¹⁵⁵Gd-¹⁵⁴Gd) are as follows: 0.095 3 (1989GaZO) and 0.089 5 (1990Wa25), from high-resolution atomic-beam LASER spectroscopy of optical isotope shifts; 0.096 23, from muonic K- and L-x-ray measurements (1983La08); 0.112 24, from isotope shifts of electronic K-x-ray transitions (1969Bh02). For Δ<r²>(¹⁵⁶Gd-¹⁵⁵Gd), values of 0.101 fm² 4 and 0.092 fm² 13 are reported by 1989GaZO and 1969Bh02, respectively. In their evaluation of nuclear charge radii from electromagnetic interactions, 1995Fr22 report Δ<r²>(¹⁵⁶Gd-¹⁵⁵Gd)= 0.111 fm² 12, from a combined analysis of data from optical, muonic-atom and electromagnetic studies. 1987Au06 give a compilation of optical isotope-shift information (expressed, however, in terms of the nuclear parameter, \|l). Using a violet diode LASER, 2003Yi02 measure the isotope shifts and hyperfine structures of the odd-mass isotopes of Gd. In an evaluation of nuclear rms charge radii, 2013An02 report <r²>^1/2=5.1319 fm 41. E(level): Some of the values (in units of fm²) reported for Δ<r²>(¹⁵⁵Gd-¹⁵⁴Gd) are as follows: 0.095 3 (1989GaZO) and 0.089 5 (1990Wa25), from high-resolution atomic-beam LASER spectroscopy of optical isotope shifts; 0.096 23, from muonic K- and L-x-ray measurements (1983La08); 0.112 24, from isotope shifts of electronic K-x-ray transitions (1969Bh02). For Δ<r²>(¹⁵⁶Gd-¹⁵⁵Gd), values of 0.101 fm² 4 and 0.092 fm² 13 are reported by 1989GaZO and 1969Bh02, respectively. In their evaluation of nuclear charge radii from electromagnetic interactions, 1995Fr22 report Δ<r²>(¹⁵⁶Gd-¹⁵⁵Gd)= 0.111 fm² 12, from a combined analysis of data from optical, muonic-atom and electromagnetic studies. 1987Au06 give a compilation of optical isotope-shift information (expressed, however, in terms of the nuclear parameter, \|l). Using a violet diode LASER, 2003Yi02 measure the isotope shifts and hyperfine structures of the odd-mass isotopes of Gd. In an evaluation of nuclear rms charge radii, 2013An02 report <r²>^1/2=5.1319 fm 41. g.s. band, signature=-1/2. Dominant configuration is 3/2[521].
60.0106	5/2-	0.196 ns 15	Q=-0.44 2 E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521].
86.5464	5/2+	6.50 ns 4	Q=+0.110 8, μ=-0.525 2 E(level): Mixed positive-parity band, signature=-1/2. Significant.
105.3106	3/2+	1.16 ns 1	Q=+1.27 5, μ=+0.143 5 E(level): Mixed positive-parity band, signature=-1/2. Significant.
107.5804	9/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
117.9981	7/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
121.10	11/2-	31.97 ms 27 % IT = 100	E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
146.0696	7/2-	0.102 ns 11	μ=+0.4 4 (2014StZZ) E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521].
214.3515	13/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
230.1286	11/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
251.7056	9/2-	58 ps 6	μ=+1.2 3 (2014StZZ) E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
266.6474	5/2+		From the (d,p),(d,t) population in other nuclides of levels having the configurations assigned to this state and the 268.6 state, most all of the observed strength in the 268.62 peak is expected to be associated with the 268.6 level, although a small population of this 266.6 level cannot be ruled out. E(level): From the (d,p),(d,t) population in other nuclides of levels having the configurations assigned to this state and the 268.6 state, most all of the observed strength in the 268.62 peak is expected to be associated with the 268.6 level, although a small population of this 266.6 level cannot be ruled out. "5/2[642] " band. This is the dominant configuration. This band.
268.6238	3/2+		XREF: L(263). E(level): K^π=3/2⁺ band. Conf=3/2(402)+... . Band also contains a.
282.65	13/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
287.0041	3/2-		E(level): K^π=3/2- band. Conf=3/2(532). α=8.02 keV, A₃=-191 eV.
321.3793	5/2-		E(level): K^π=3/2- band. Conf=3/2(532). α=8.02 keV, A₃=-191 eV.
326.0881	5/2+		E(level): K^π=3/2⁺ band. Conf=3/2(402)+... . Band also contains a.
350.4355	7/2+		E(level): "5/2[642] " band. This is the dominant configuration. This band.
367.6342	1/2+		E(level): K^π=1/2⁺ band. Conf=1/2(400). α=16.08 keV, a=+0.235 (from.
392.317	11/2-	23 ps 2	μ=+1.5 3 (2014StZZ) E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
393.5322	7/2-		E(level): K^π=3/2- band. Conf=3/2(532). α=8.02 keV, A₃=-191 eV.
423.4123	7/2+		E(level): K^π=3/2⁺ band. Conf=3/2(402)+... . Band also contains a.
423.82	17/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
427.2375	3/2+		E(level): K^π=1/2⁺ band. Conf=1/2(400). α=16.08 keV, a=+0.235 (from.
450.5630	3/2-		E(level): K^π=1/2- band. Conf=1/2(530). α=12.96 keV, a=-1.02 (from.
E(level)	J^π(level)	T_1/2(level)	Comments
451.3716	1/2-		From the (d,p),(d,t) population of members of the 1/2[530] band in other nuclides, most all of the L=1 strength in this reaction populates the 3/2- level. Thus, most of the 450.56 peak is to be associated with the 450.56 state, although the presence of a small component to this (451.3) state cannot be ruled out. E(level): From the (d,p),(d,t) population of members of the 1/2[530] band in other nuclides, most all of the L=1 strength in this reaction populates the 3/2- level. Thus, most of the 450.56 peak is to be associated with the 450.56 state, although the presence of a small component to this (451.3) state cannot be ruled out. K^π=1/2- band. Conf=1/2(530). α=12.96 keV, a=-1.02 (from.
453.67	15/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
454.4744	5/2-		J E1 to 7/2⁺ state, M1 to 3/2- state. E(level): K^π=5/2- band. Conf=5/2(523). α=14.13 keV (from 5/2- and.
463.88	15/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
485.975	(9/2-)		XREF: γ(485.02)K(485.02). E(level): K^π=3/2- band. Conf=3/2(532). α=8.02 keV, A₃=-191 eV.
488.7209	5/2+		E(level): K^π=1/2⁺ band. Conf=1/2(400). α=16.08 keV, a=+0.235 (from.
534.30	13/2-	15 ps 2	μ=+1.9 3 (2014StZZ) E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
553.371	(7/2)-		E(level): K^π=5/2- band. Conf=5/2(523). α=14.13 keV (from 5/2- and.
559.368	1/2-		E(level): 1/2[521] band (+ K-2 γ vibr. built on the g.s.) α=13.81 keV,.
581.4556	5/2-		XREF: I(578). E(level): K^π=1/2- band. Conf=1/2(530). α=12.96 keV, a=-1.02 (from.
592.1422	3/2-		E(level): K^π=3/2- band. "β-vibration " built on the g.s. α=11.13 keV.
592.46	(5/2+)		Configuration=ν1/2[651] (2010Al15, (p,d),(p,dγ)).
610.8425	7/2+		E(level): K^π=1/2⁺ band. Conf=1/2(400). α=16.08 keV, a=+0.235 (from.
614.8556	3/2-	14 ps +7-3	XREF: M(618?). E(level): 1/2[521] band (+ K-2 γ vibr. built on the g.s.) α=13.81 keV,.
647.7928	5/2-	14 ps +16-6	E(level): K^π=3/2- band. "β-vibration " built on the g.s. α=11.13 keV.
658.985	5/2-		E(level): 1/2[521] band (+ K-2 γ vibr. built on the g.s.) α=13.81 keV,.
663.7	17/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
692.4	(9/2-)		XREF: I(689). E(level): K^π=5/2- band. Conf=5/2(523). α=14.13 keV (from 5/2- and.
721.0	(7/2-)		XREF: I(725)M(729). E(level): K^π=3/2- band. "β-vibration " built on the g.s. α=11.13 keV.
729.6	15/2-	5.8 ps 11	μ=+2.6 5 (2014StZZ) E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
736.76	21/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
754.8	J0		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
786.74	19/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant. J^π(level): Assignment based on multipolarities of cascade and crossover transitions and on γγ-coincidence measurements in (α,3nγ) (1970Lo04).
786.896	7/2-		XREF: I(783). E(level): 1/2[521] band (+ K-2 γ vibr. built on the g.s.) α=13.81 keV,.
804.382	(9/2-)		E(level): K^π=1/2- band. Conf=1/2(530). α=12.96 keV, a=-1.02 (from.
E(level)	J^π(level)	T_1/2(level)	Comments
815.733	(3/2)+		E(level): β vibration built on the "3/2[651] " band ?.
860.17	(13/2)+		E(level): "5/2[642] " band. This is the dominant configuration. This band.
872.810	(5/2)+		E(level): β vibration built on the "3/2[651] " band ?.
880.7	19/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
889.3	J1		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
896.9	17/2-	4.9 ps 3	μ=+2.2 8 (2014StZZ) XREF: I(892?). E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
931.5	J2		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
987.1			XREF: I(983).
1002.955	1/2-		E(level): Possible K-2 γ vibration band built on the g.s.. Note,.
1012.893	3/2-		XREF: I(1008). E(level): Possible K-2 γ vibration band built on the g.s.. Note,.
1028.029	1/2-,3/2,5/2-		XREF: γ(1027.3)K(1027.3).
1060.599	(5/2-)		E(level): Possible K-2 γ vibration band built on the g.s.. Note,.
1104.792	(7/2-)		E(level): Possible K-2 γ vibration band built on the g.s.. Note,.
1107.3	J0+2		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
1113.2	21/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
1142.3	19/2-	2.4 ps 2	μ=+2.9 10 (2014StZZ) E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
1144.4	25/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for. J^π(level): Assignment based on multipolarities of cascade and crossover transitions and on γγ-coincidence measurements in (α,3nγ) (1970Lo04).
1147.1			1986Sc25 assign Jπ=1/2⁺,3/2⁺ or 5/2⁺ to this state. E(level): Energy is an average of the values from the (d,p)+(d,t) and the (n,γ) reactions.
1197.611	3/2-,5/2,7/2		XREF: I(1203).
1220.32	23/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant. J^π(level): Assignment based on multipolarities of cascade and crossover transitions and on γγ-coincidence measurements in (α,3nγ) (1970Lo04).
1225.008	3/2-,5/2,7/2		XREF: I(1221).
1247.0	(1/2-,3/2-)		XREF: I(1250). E(level): Energy is an average of the values from the (d,p)+(d,t) and the (n,γ) reactions.
1255.8	J1+2		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
1282.7	15/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=-1/2 branch.
1292.55	3/2+		XREF: I(1290).
E(level)	J^π(level)	T_1/2(level)	Comments
1296.14	(5/2)+		Configuration=ν5/2[402] (2010Al15, (p,d),(p,dγ) dataset).
1303.2	J2+2		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
1306.97			XREF: I(1303).
1312.8			XREF: I(1316).
1326.5	21/2-	2.4 ps 4	E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521]. T_1/2(level): From Doppler-shift recoil-distance measurements (1992Ku15) and/or Doppler-broadened line-shape analysis (1998St28), both in Coul. ex.
1335.16			XREF: I(1338).
1359.88	3/2,5/2,7/2+		XREF: I(1361).
1360.0	23/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
1381.0			E(level): Energy is an average of the values from the (d,p)+(d,t) and the (n,γ) reactions.
1387.7	1/2+,3/2+		XREF: I(1391).
1398.7			E(level): Energy is an average of the values from the (d,p)+(d,t) and the (n,γ) reactions.
1425.1			E(level): Energy is an average of the values from the (d,p)+(d,t) and the (n,γ) reactions.
1460.6	17/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=+1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
1522.5	J0+4		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
1551.04	(3/2+)		Configuration=ν1/2[411] (2010Al15).
1551.3	(1/2+,3/2+)		can be the same as preceding level (1551.03 12).
1581	11/2-		XREF: I(1576).
1615.3	23/2-		E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521].
1619.3	25/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
1635.5	29/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for. J^π(level): Assignment based on multipolarities of cascade and crossover transitions and on γγ-coincidence measurements in (α,3nγ) (1970Lo04).
1675.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
1679.2	19/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=-1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
1686.8	J1+4		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
1740.8	J2+4		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
1743.3	27/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
E(level)	J^π(level)	T_1/2(level)	Comments
1809.4	25/2-		E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521].
1889.9	27/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
1913.1	21/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=+1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
1982.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
1994.8	J0+6		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
2017.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2136.0	27/2-		XREF: n(2134). E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521].
2161.0	23/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=-1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
2170.4	29/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
2188.5	J1+6		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
2199.2	33/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
2226.2	J2+6		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
2283.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2329.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2331.9	29/2-		XREF: n(2330). E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521].
2345.4	31/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
2421.6	25/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=+1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
2460.1	31/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
2558.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2596.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2645.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2689.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2694.6	27/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=-1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
2702.2	31/2-		XREF: n(2699). E(level): g.s. band, signature=-1/2. Dominant configuration is 3/2[521].
2728.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
E(level)	J^π(level)	T_1/2(level)	Comments
2743.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2752.6	J2+8		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
2758.1	33/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
2758.3	J1+8		E(level): Proposed band. 2000Hu04, 2000HuZY (α,3nγ) suggest that π=-.
2768.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2814.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2819.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2825.5	37/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
2826.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2872.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
2883.7	33/2-		E(level): g.s. band, signature=+1/2. Dominant configuration is 3/2[521].
2978.4	29/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=+1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
3011.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
3015.4	35/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
3064.5	35/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
3199.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
3274.0	31/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=-1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
3276.1	(33/2-)		J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
3305.0	1/2,3/2,5/2		J^π(level): Excited via a dipole transition in (γ,γ’) from the Jπ=3/2- g.s.
3379.7	37/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
3505.8	41/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
3579.1	33/2-		E(level): Kπ=15/2-, ν11/2[505]~#2⁺ (γ-vib), signature=+1/2 branch. J^π(level): 2011Sh08, in (α,3nγ), propose the spin sequence listed here for the members of this proposed band.
3702.8	39/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
3730.5	39/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
4038.8	41/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
E(level)	J^π(level)	T_1/2(level)	Comments
4234.7	45/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
4379.6	43/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=-1/2. α=12.75.
4504.0	43/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
4735.3	45/2-		E(level): K^π=11/2- band. Conf=11/2(505), signature=+1/2. For band.
5009.5	49/2+		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
5343.4	47/2+		E(level): Mixed positive-parity band, signature=-1/2. Significant.
5829	(53/2+)		E(level): Mixed positive-parity band, signature=+1/2. See comment for.
6240.6	(51/2+)		E(level): Mixed positive-parity band, signature=-1/2. Significant.

E(level)	E(gamma)	Comments
107.5804	21.035	M(γ): from 1976Me10, ¹⁵⁵Tb ε decay.
214.3515	106.771	M(γ): from (α,3nγ) dataset
230.1286	112.131	M(γ): from (α,3nγ) dataset
230.1286	122.548	M(γ): from (α,3nγ) dataset
251.7056	105.636	M(γ): from Coulomb excitation dataset
251.7056	191.691	M(γ): from (α,3nγ) dataset
266.6474	120.579	M(γ): from (n,γ) dataset
	161.334	I(γ): unc from ε decay dataset
	180.103	I(γ): unc from ε decay dataset
268.6238	182.078	I(γ): from ε decay dataset
282.65	161.4	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
367.6342	281.087	M(γ): from ε decay dataset
392.317	140.610	M(γ): from Coulomb excitation dataset
	246.253	M(γ): from Coulomb excitation dataset
	284.8	M(γ): from Coulomb excitation dataset
423.4123	315.845	M(γ): from (n,γ) dataset
	336.864	M(γ): from (n,γ) dataset
	363.391	M(γ): from (n,γ) dataset
423.82	209.4	M(γ): from 2002Le15 (α,3nγ).
427.2375	158.612	M(γ): from (n,γ) dataset
	340.690	M(γ): from ε decay dataset
	427.18	M(γ): from ε decay dataset
450.5630	124.476	M(γ): from (n,γ) dataset
450.5630	129.182	M(γ): from (n,γ) dataset
451.3716	451.370	M(γ): from ε decay dataset
E(level)	E(gamma)	Comments
453.67	223.6	M(γ): from (α,3nγ) dataset
463.88	342.9	M(γ): from (α,3nγ) dataset
485.975	234.270	M(γ): (E1) mult from (n,γ) is not consistent with the proposed Jπ.
488.7209	383.414	M(γ): from ε decay dataset
647.7928	501.713	M(γ): from ε decay dataset
647.7928	647.796	M(γ): from ε decay dataset
663.7	381.1	M(γ): from (¹²C,α3nγ), mult=Q.
729.6	195.4	E(γ): from Coul. ex. From (α,3nγ), Eγ=196.7
736.76	313.0	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from 2002Le15 (α,3nγ).
754.8	540.5	E(γ): from (α,3nγ) dataset
786.74	333.1	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from (α,3nγ) dataset. from 2002Le15 (α,3nγ).
786.74	362.8	M(γ): from (α,3nγ) dataset. from (α,3nγ).
786.896	679.49	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
872.810	551.415	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
889.3	675.1	E(γ): from (α,3nγ) dataset
931.5	717.2	E(γ): from (α,3nγ) dataset
1012.893	953.00	M(γ): E1 from (n,γ) is not allowed by Jπ
1028.029	368.98	M(γ): (E1) from (n,γ) not allowed by Jπ
1028.1	882.0	E(γ): from Coulomb excitation dataset
	968.0	E(γ): from Coulomb excitation dataset
	1028.2	E(γ): from Coulomb excitation dataset
1060.599	1000.56	M(γ): (E1,E2) in (n,γ); placement indicates that mult=E1 is unlikely.
1086.846	981.6	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1104.792	551.415	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1104.792	837.97	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
E(level)	E(gamma)	Comments
1107.3	683.4	E(γ): from (α,3nγ) dataset
1113.2	449.5	M(γ): from 1970Lo04, (α,3nγ).
1129.842	679.49	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1144.4	407.6	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from 2002Le15 (α,3nγ).
1197.611	410.73	M(γ): (E1) from (n,γ) not compatible with final level π=-
1220.32	433.5	M(γ): from 2002Le15 (α,3nγ).
1220.32	483.6	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from (α,3nγ).
1255.8	831.9	E(γ): from (α,3nγ) dataset
1282.7	999	E(γ): from (α,3nγ) dataset
1292.55	476.80	M(γ): (E1) from (n,γ) not compatible with final level π=+
	837.97	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
	869.37	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1297.177	104.327	M(γ): (E1) from (n,γ) not compatible with final level parity π=+ as questionable.
1297.177	1150.4	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1303.2	879.5	E(γ): from (α,3nγ) dataset
1326.5	184.3	E(γ): from Coulomb excitation dataset
1326.5	539.4	E(γ): from Coulomb excitation dataset
1332.06	1245.51	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1363.631	1245.51	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1437.681	1150.4	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1460.6	347	M(γ): from (α,3nγ) dataset
	580	M(γ): from (α,3nγ) dataset
	796	M(γ): from (α,3nγ) dataset
1470.02	981.6	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
1517.10	869.37	E(γ): Multiply placed with undivided intensity I(γ): Multiply placed with undivided intensity
E(level)	E(gamma)	Comments
1522.5	785.8	E(γ): from (α,3nγ) dataset
1551.04	1096.56	E(γ): from (p,d),(pdγ) dataset
1615.3	473.0	E(γ): from (α,3nγ) dataset. from (α,3nγ).
1619.3	259.2	I(γ): 1970Lo04, (α,3nγ), report Iγ=34
1619.3	506.1	M(γ): mult=Q, from (¹²C,α3nγ).
1635.5	491.1	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from 2002Le15 (α,3nγ).
1675.0	1675	E(γ): from (γ,γ’) dataset
1679.2	218.4	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from (α,3nγ) dataset
1686.8	950.0	E(γ): from (α,3nγ) dataset
1709.7	1046	E(γ): from (α,3nγ) dataset
1740.8	1004.1	E(γ): from (α,3nγ) dataset
1743.3	599.0	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
1806.7	1143	E(γ): from (α,3nγ) dataset
1809.4	482.9	E(γ): from (α,3nγ). From Coul. ex., Eγ=483 2
1889.9	530.0	M(γ): mult=Q, from (¹²C,α3nγ).
1913.1	233.6	E(γ): from (α,3nγ) dataset
1920.8	1040	E(γ): from (α,3nγ) dataset
1933.7	1270	E(γ): from (α,3nγ) dataset
1966.7	1303	E(γ): from (α,3nγ) dataset
1982.0	1982	E(γ): from (γ,γ’) dataset
1994.8	850.4	E(γ): from (α,3nγ) dataset
2016.8	1136	E(γ): from (α,3nγ) dataset
2017.0	2017	E(γ): from (γ,γ’) dataset
2120.2	1007	E(γ): from (α,3nγ) dataset
2134.2	1021	E(γ): from (α,3nγ) dataset
E(level)	E(gamma)	Comments
2136.0	520.7	E(γ): from (α,3nγ). From Coul. ex., Eγ=519
2137.7	204	E(γ): from (α,3nγ) dataset
2137.7	1257	E(γ): from (α,3nγ) dataset
2145.2	466	E(γ): from (α,3nγ) dataset
2161.0	247.9	E(γ): from (α,3nγ) dataset
2188.5	1044.1	E(γ): from (α,3nγ) dataset
2199.2	563.7	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from 2002Le15 (α,3nγ).
2226.2	1081.6	E(γ): from (α,3nγ) dataset
2241.2	1128	E(γ): from (α,3nγ) dataset
2283.0	2283	E(γ): from (γ,γ’) dataset
2329.0	2329	E(γ): from (γ,γ’) dataset
2331.9	522.5	E(γ): from (α,3nγ). From Coul. ex., Eγ=521
2344.0	984	E(γ): from (α,3nγ) dataset
2345.4	602.0	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
2351.2	1238	E(γ): from (α,3nγ) dataset
2421.6	260.7	M(γ): from (α,3nγ) dataset
2429.2	1316	E(γ): from (α,3nγ) dataset
2456.0	2396	E(γ): from (γ,γ’) dataset
2456.0	2456	E(γ): from (γ,γ’) dataset
2460.1	289.5	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
2496.3	877	E(γ): from (n,γ) dataset
2558.0	2558	E(γ): from (γ,γ’) dataset
2578.6	233	E(γ): from (α,3nγ) dataset
2578.6	959	E(γ): from (α,3nγ) dataset
2596.0	2596	E(γ): from (γ,γ’) dataset
E(level)	E(gamma)	Comments
2645.0	2645	E(γ): from (γ,γ’) dataset
2655.0	2537	E(γ): from (γ,γ’) dataset
2655.0	2655	E(γ): from (γ,γ’) dataset
2689.0	2689	E(γ): from (γ,γ’) dataset
2694.6	273.0	M(γ): from (α,3nγ) dataset
2702.2	566.2	E(γ): from (α,3nγ). From Coul. ex., Eγ=565
2728.0	2728	E(γ): from (γ,γ’) dataset
2743.0	2743	E(γ): from (γ,γ’) dataset
2756.5	2698	E(γ): from (γ,γ’) dataset
2756.5	2755	E(γ): from (γ,γ’) dataset
2758.1	587.8	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
2758.3	1122.8	E(γ): from (α,3nγ) dataset
2768.0	2768	E(γ): from (γ,γ’) dataset
2814.0	2814	E(γ): from (γ,γ’) dataset
2819.0	2819	E(γ): from (γ,γ’) dataset
2824.3	245	E(γ): from (α,3nγ) dataset
2824.3	935	E(γ): from (α,3nγ) dataset
2825.5	626.3	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset M(γ): from 2002Le15 (α,3nγ).
2826.0	2826	E(γ): from (γ,γ’) dataset
2872.0	2872	E(γ): from (γ,γ’) dataset
2883.7	551.8	E(γ): from (α,3nγ) dataset
2978.4	556.8	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
3011.0	3011	E(γ): from (γ,γ’) dataset
3082.5	257	E(γ): from (α,3nγ) dataset
3082.5	912	E(γ): from (α,3nγ) dataset
E(level)	E(gamma)	Comments
3199.0	3199	E(γ): from (γ,γ’) dataset
3274.0	579	E(γ): from (α,3nγ) dataset
3276.1	581.5	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
3305.0	3305	E(γ): from (γ,γ’) dataset
3379.7	316.0	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
3579.1	600.7	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
3702.8	638.3	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
4038.8	659.1	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
4379.6	676.8	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
4504.0	773.5	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
4735.3	696.5	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
5009.5	774.8	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
5343.4	839.4	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
5829	820	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset
6240.6	897.6	E(γ): from (¹²C,α3nγ),(⁹Be,4nγ) dataset