List of levels for 239PU

Authors: E. Browne, J. K. Tuli | Citation: Nucl. Data Sheets 122, 293 (2014) | Cutoff date: 30-Jun-2013

Other reactions:

Fission: 1997Vl02, 1997Vl01, 1997Ar09, 1996Vl01, 1993De17, 1992Ge01.

Spontaneous fission: 2012Ha06, 2011Yo12, 2008Ku21, 2006En04, 2005Re16, 2004Ro01, 2001Vl02.

²³⁹Pu(n,f): 2012PrZZ, 2011Ho11, 2011Hu06, 2011Ki09, 2011Mu07.

²³⁹Pu(n,n’): 1996Yu05, 1992Lo08.

²³⁹Pu(n,n’) E<10 MeV (2003Hi21).

²³⁹Pu(n.n’) E<20 MeV. Calculated σ, neutron spectrum (2011Ro24). Others: 2012Ba38, 2011Mu04.

²³⁹Pu(n,n’) E<300 MeV, calculated σ (2010Ha06).

²³⁹Pu(γ,γ’) E<5.5 MeV deduced prompt γ-ray transitions (2011Jo11).

²³⁹Pu(α,α’) E=55 MeV, measured Eγ,Iγ(θ), γγ coin (2011Bu11).

Cluster decay:

²³⁹Pu(α): calculated T_1/2, branching ratios (2012Sa31). Others: 2013Fe03, 2010Ni02, 2009Dr05, 2007Ro08.

²³⁹Pu(³³Si): calculated T_1/2 (2011Sh13).

²³⁹Pu(²⁸Mg): calculated Q(β^-)value, T_1/2 (2012Sa31).

²³⁹Pu(³⁴Mg): calculated T_1/2 (2012Ku29).

²³⁹Pu(³⁰Mg): calculated T_1/2 (2010Ni13).

Nuclear Structure

²³⁹Pu: calculated single-quasiparticle energies (2005Pa73).

²³⁹Pu: calculated Coriolis decoupling factors (2009Mi02).

²³⁹Pu: rotational bands (2009Ra27).

²³⁹Pu: K-forbidden log ft values (2009So02).

²³⁹Pu: evaluated data, Decay Data Evaluation Project (DDEP) (2008BeZV).

²³⁹Pu: compiled data on superdeformed bands and fission isomers (2002Si26).

²³⁹Pu: x-ray transition energies (2003De44).

Others: 2005Si30, 2004Sa55, 2003Ad31, 2003Ad34, 2003Ka23, 2003Ok01.

Levels: band(a) 1/2[631], α=-1/2

Levels: band(b) 1/2[631]×0-, α=-1/2 (octupole vibration on g.s.)

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
7.861	3/2+	36 ps 3	7.860 3	M1+E2	0.055 3	5.7×10³	B(E2)(W.u.)=3.1×10³ 5, B(M1)(W.u.)=0.220 24, α=5.7E3 4, α(M)=4.2E3 3, α(N)=1.16E3 8, α(O)=280 18, α(P)=48 3, α(Q)=1.632 23, α(N+)=1.49E3 10
57.275	5/2+	101 ps 5	49.412 4	M1+E2	0.50 3	126	B(E2)(W.u.)=2.2×10² 5, B(M1)(W.u.)=0.0075 16, α=126 8, α(L)=92 6, α(M)=24.8 17, α(N)=6.8 5, α(O)=1.62 11, α(P)=0.269 17, α(Q)=0.00592 13, α(N+)=8.7 6
57.275	5/2+	101 ps 5	57.273 4	E2		222	B(E2)(W.u.)=291 47, α=222, α(L)=161.1 23, α(M)=45.0 7, α(N)=12.36 18, α(O)=2.91 4, α(P)=0.457 7, α(Q)=0.001109 16, α(N+)=15.73 22
75.705	7/2+		67.841 7	E2		98.5	α=98.5, α(L)=71.5 10, α(M)=20.0 3, α(N)=5.50 8, α(O)=1.293 19, α(P)=0.204 3, α(Q)=0.000543 8, α(N+)=6.99 10
163.76	9/2+	73 ps 4	88.06 3	M1+E2	0.50	12.26	B(E2)(W.u.)=27.7 17, B(M1)(W.u.)=0.00295 18, α=12.26, α(L)=9.07 13, α(M)=2.36 4, α(N)=0.645 9, α(O)=0.1563 22, α(P)=0.0274 4, α(Q)=0.001050 15, α(N+)=0.830 12
163.76	9/2+	73 ps 4	106.47 4	E2		11.80	B(E2)(W.u.)=4.5×10² 3, α=11.80, α(L)=8.56 12, α(M)=2.40 4, α(N)=0.659 10, α(O)=0.1553 22, α(P)=0.0248 4, α(Q)=9.29E-5 13, α(N+)=0.839 12
192.8	11/2+		117.3 3	E2		7.55	α=7.55 14, α(L)=5.48 10, α(M)=1.53 3, α(N)=0.421 8, α(O)=0.0994 19, α(P)=0.0159 3, α(Q)=6.58×10^-5 11, α(N+)=0.537 10
285.460	5/2+	1.12 ns 5	209.753 2	M1+E2	0.37 8	2.93	B(E2)(W.u.)=0.07 3, B(M1)(W.u.)=7.4E-5 7, α=2.93 13, α(K)=2.27 12, α(L)=0.499 9, α(M)=0.1231 18, α(N)=0.0335 5, α(O)=0.00830 13, α(P)=0.00156 3, α(Q)=9.3E-5 5, α(N+)=0.0435 7
	5/2+	1.12 ns 5	228.183 2	M1+E2	0.28 7	2.41	B(E2)(W.u.)=0.09 4, B(M1)(W.u.)=0.000194 15, α=2.41 9, α(K)=1.88 8, α(L)=0.395 7, α(M)=0.0967 15, α(N)=0.0263 4, α(O)=0.00653 11, α(P)=0.001233 23, α(Q)=7.7E-5 3, α(N+)=0.0342 6
	5/2+	1.12 ns 5	277.599 2	M1+E2	0.23 10	1.42	B(E2)(W.u.)=0.029 25, B(M1)(W.u.)=0.000145 13, α=1.42 7, α(K)=1.12 6, α(L)=0.228 6, α(M)=0.0555 13, α(N)=0.0151 4, α(O)=0.00375 9, α(P)=0.000711 19, α(Q)=4.53E-5 22, α(N+)=0.0196 5
	5/2+	1.12 ns 5	285.460 2	E2		0.247	B(E2)(W.u.)=0.0262 15, α=0.247, α(K)=0.0843 12, α(L)=0.1190 17, α(M)=0.0326 5, α(N)=0.00896 13, α(O)=0.00213 3, α(P)=0.000356 5, α(Q)=4.99E-6 7, α(N+)=0.01145 16
318.5	13/2+		154.3 4	E2		2.38	α=2.38 5, α(K)=0.195 3, α(L)=1.59 3, α(M)=0.443 8, α(N)=0.1217 23, α(O)=0.0288 6, α(P)=0.00465 9, α(Q)=2.67×10^-5 5, α(N+)=0.155 3
330.124	7/2+		44.663 5	M1+E2	0.20 3	86	α=86 8, α(L)=64 6, α(M)=16.2 17, α(N)=4.4 5, α(O)=1.08 11, α(P)=0.193 17, α(Q)=0.00902 15, α(N+)=5.7 6
	7/2+		166.319 6	M1		6.23	α=6.23, α(K)=4.91 7, α(L)=0.986 14, α(M)=0.240 4, α(N)=0.0652 10, α(O)=0.01623 23, α(P)=0.00309 5, α(Q)=0.000202 3, α(N+)=0.0847 12
	7/2+		254.40 3	M1+E2	-0.159 6	1.85	α=1.85, α(K)=1.457 21, α(L)=0.294 5, α(M)=0.0716 10, α(N)=0.0195 3, α(O)=0.00485 7, α(P)=0.000920 13, α(Q)=5.93×10^-5 9, α(N+)=0.0253 4
	7/2+		272.87 9	M1+E2	+0.165 9	1.518	α=1.518, α(K)=1.198 18, α(L)=0.241 4, α(M)=0.0588 9, α(N)=0.01599 23, α(O)=0.00397 6, α(P)=0.000754 11, α(Q)=4.86×10^-5 7, α(N+)=0.0208 3
	7/2+		322.3 2	[E2]		0.1699	α=0.1699, α(K)=0.0679 10, α(L)=0.0745 11, α(M)=0.0203 3, α(N)=0.00557 8, α(O)=0.001329 19, α(P)=0.000224 4, α(Q)=3.73×10^-6 6, α(N+)=0.00713 11
358.1	15/2+		165.3 3	E2		1.80	α=1.80, α(K)=0.187 3, α(L)=1.169 19, α(M)=0.326 6, α(N)=0.0896 15, α(O)=0.0212 4, α(P)=0.00343 6, α(Q)=2.16×10^-5 4, α(N+)=0.1143 19
387.42	9/2+		57.30 Calc.	M1(+E2)		28.6	α=28.6 4
	9/2+		101.96 2	E2		14.42	α=14.42, α(L)=10.46 15, α(M)=2.93 5, α(N)=0.805 12, α(O)=0.190 3, α(P)=0.0302 5, α(Q)=0.0001088 16, α(N+)=1.026 15
	9/2+		311.7 2	(M1+E2)	0.2 LE	1.06	α=1.06 2, α(K)=0.5 4, α(L)=0.13 5, α(M)=0.032 9, α(N)=0.0087 24, α(O)=0.0021 7, α(P)=0.00039 14, α(Q)=1.9×10^-5 16, α(N+)=0.011 4
391.584	7/2-	193 ns 4	61.460 2	E1		0.473	B(E1)(W.u.)=1.42E-7 22, α=0.473, α(L)=0.354 5, α(M)=0.0881 13, α(N)=0.0236 4, α(O)=0.00553 8, α(P)=0.000871 13, α(Q)=2.87E-5 4, α(N+)=0.0300 5
	7/2-	193 ns 4	106.125 2	E1(+M2)	-0.007 7	0.117	B(E1)(W.u.)=5.7E-7 8, B(M2)(W.u.)=0.011 +23-11, α=0.117 11, α(L)=0.088 8, α(M)=0.0216 21, α(N)=0.0058 6, α(O)=0.00139 15, α(P)=0.00023 3, α(Q)=9.4E-6 15, α(N+)=0.0074 8
	7/2-	193 ns 4	315.880 3	E1(+M2)	+0.008 8	0.0372	B(E1)(W.u.)=1.26E-9 17, B(M2)(W.u.)=4.E-6 +8-4, α=0.0372 9, α(K)=0.0294 6, α(L)=0.00583 16, α(M)=0.00141 4, α(N)=0.000382 12, α(O)=9.3E-5 3, α(P)=1.69E-5 6, α(Q)=8.9E-7 3, α(N+)=0.000493 15
	7/2-	193 ns 4	334.310 3	E1(+M2)	+0.006 4	0.0329	B(E1)(W.u.)=1.41E-9 17, B(M2)(W.u.)=2.1E-6 +28-21, α=0.0329, α(K)=0.0261 4, α(L)=0.00511 8, α(M)=0.001238 20, α(N)=0.000334 6, α(O)=8.18E-5 14, α(P)=1.484E-5 25, α(Q)=7.91E-7 14, α(N+)=0.000432 7
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
469.8	(1/2-)		461.9 5	[E1]		0.01684	α=0.01684, α(K)=0.01350 20, α(L)=0.00252 4, α(M)=0.000608 9, α(N)=0.0001643 24, α(O)=4.04×10^-5 6, α(P)=7.42E-6 11, α(Q)=4.20E-7 6, α(N+)=0.000213 3
469.8	(1/2-)		469.8 5	[E1]		0.01628	α=0.01628, α(K)=0.01306 19, α(L)=0.00244 4, α(M)=0.000586 9, α(N)=0.0001586 23, α(O)=3.90×10^-5 6, α(P)=7.16E-6 11, α(Q)=4.07E-7 6, α(N+)=0.000205 3
492.1	3/2-		434.7 5	E1(+M2)	-0.002 2	0.0190	α=0.0190, α(K)=0.01522 22, α(L)=0.00287 4, α(M)=0.000692 10, α(N)=0.000187 3, α(O)=4.59×10^-5 7, α(P)=8.41E-6 12, α(Q)=4.72E-7 7, α(N+)=0.000242 4
	3/2-		484.3 5	[E1]		0.01533	α=0.01533, α(K)=0.01231 18, α(L)=0.00229 4, α(M)=0.000550 8, α(N)=0.0001488 21, α(O)=3.66×10^-5 6, α(P)=6.73E-6 10, α(Q)=3.85E-7 6, α(N+)=0.000192 3
	3/2-		492.3 5	[E1]		0.01485	α=0.01485, α(K)=0.01192 17, α(L)=0.00221 4, α(M)=0.000532 8, α(N)=0.0001438 21, α(O)=3.54×10^-5 5, α(P)=6.51E-6 10, α(Q)=3.73E-7 6, α(N+)=0.000186 3
511.838	7/2+		124.416 15	M1(+E2)	0.26 LT	13.8	α=13.8 4, α(K)=10.7 4, α(L)=2.32 7, α(M)=0.570 22, α(N)=0.155 6, α(O)=0.0385 14, α(P)=0.00725 19, α(Q)=0.000451 15, α(N+)=0.201 8
	7/2+		181.715 10	M1+E2	-0.150 7	4.77	α=4.77, α(K)=3.75 6, α(L)=0.766 11, α(M)=0.187 3, α(N)=0.0509 8, α(O)=0.01265 18, α(P)=0.00240 4, α(Q)=0.0001537 22, α(N+)=0.0661 10
	7/2+		226.383 12	M1+E2	+0.133 6	2.58	α=2.58, α(K)=2.03 3, α(L)=0.410 6, α(M)=0.0998 14, α(N)=0.0272 4, α(O)=0.00675 10, α(P)=0.001282 18, α(Q)=8.28×10^-5 12, α(N+)=0.0353 5
	7/2+		436.0 3	[M1]		0.428	α=0.428, α(K)=0.339 5, α(L)=0.0669 10, α(M)=0.01623 23, α(N)=0.00441 7, α(O)=0.001098 16, α(P)=0.000209 3, α(Q)=1.361×10^-5 20, α(N+)=0.00573 8
	7/2+		454.6 3	[M1]		0.382	α=0.382, α(K)=0.303 5, α(L)=0.0597 9, α(M)=0.01447 21, α(N)=0.00394 6, α(O)=0.000979 14, α(P)=0.000186 3, α(Q)=1.214×10^-5 18, α(N+)=0.00511 8
	7/2+		504.0 3	[E2]		0.0516	α=0.0516, α(K)=0.0304 5, α(L)=0.01561 22, α(M)=0.00413 6, α(N)=0.001130 16, α(O)=0.000272 4, α(P)=4.75×10^-5 7, α(Q)=1.387E-6 20, α(N+)=0.001451 21
519.3	17/2+		201.0 2	E2		0.839	α=0.839, α(K)=0.1493 21, α(L)=0.501 8, α(M)=0.1392 21, α(N)=0.0383 6, α(O)=0.00906 14, α(P)=0.001482 22, α(Q)=1.234×10^-5 18, α(N+)=0.0488 8
556.2	(7/2-)		392.4 5	[E1]		0.0234	α=0.0234, α(K)=0.0187 3, α(L)=0.00357 5, α(M)=0.000863 13, α(N)=0.000233 4, α(O)=5.72×10^-5 9, α(P)=1.044E-5 15, α(Q)=5.74E-7 9, α(N+)=0.000301 5
556.2	(7/2-)		≈498.7	[E1]		0.01448	α=0.01448, α(K)≈0.01163, α(L)≈0.00215, α(M)≈0.000518, α(N)≈0.0001400, α(O)≈3.44×10^-5, α(P)≈6.34E-6, α(Q)≈3.64E-7, α(N+)≈0.000181
570.6	19/2+		212.0 2	E2		0.688	α=0.688, α(K)=0.1382 20, α(L)=0.400 6, α(M)=0.1109 17, α(N)=0.0305 5, α(O)=0.00722 11, α(P)=0.001185 18, α(Q)=1.067×10^-5 16, α(N+)=0.0389 6
764.6	(21/2+)		245.3 2	(E2)		0.409	α=0.409, α(K)=0.1095 16, α(L)=0.218 4, α(M)=0.0603 9, α(N)=0.01655 24, α(O)=0.00393 6, α(P)=0.000650 10, α(Q)=7.28×10^-6 11, α(N+)=0.0211 3
806.7	(15/2-)		145.6	(E2)		3.03	α=3.03, α(K)=0.197 3, α(L)=2.05 3, α(M)=0.574 8, α(N)=0.1578 22, α(O)=0.0373 6, α(P)=0.00601 9, α(Q)=3.20×10^-5 5, α(N+)=0.201 3
828.0	(23/2+)		256.9 2	(E2)		0.350	α=0.350, α(K)=0.1012 15, α(L)=0.181 3, α(M)=0.0499 8, α(N)=0.01370 20, α(O)=0.00325 5, α(P)=0.000540 8, α(Q)=6.47×10^-6 10, α(N+)=0.0175 3
992.4	(19/2-)		185.8	(E2)		1.132	α=1.132, α(K)=0.1657 24, α(L)=0.702 10, α(M)=0.195 3, α(N)=0.0537 8, α(O)=0.01271 18, α(P)=0.00207 3, α(Q)=1.539×10^-5 22, α(N+)=0.0685 10
1052.9	(25/2+)		288.2 1	(E2)		0.240	α=0.240, α(K)=0.0829 12, α(L)=0.1146 17, α(M)=0.0314 5, α(N)=0.00863 13, α(O)=0.00205 3, α(P)=0.000343 5, α(Q)=4.87×10^-6 7, α(N+)=0.01103 16
1127.6	(27/2+)		299.5 2	(E2)		0.213	α=0.213, α(K)=0.0775 11, α(L)=0.0987 14, α(M)=0.0270 4, α(N)=0.00741 11, α(O)=0.00176 3, α(P)=0.000296 5, α(Q)=4.44×10^-6 7, α(N+)=0.00948 14
1219.7	(23/2-)		227.3	(E2)		0.534	α=0.534, α(K)=0.1240 18, α(L)=0.299 5, α(M)=0.0827 12, α(N)=0.0227 4, α(O)=0.00539 8, α(P)=0.000887 13, α(Q)=8.86×10^-6 13, α(N+)=0.0290 4
1300.9	(25/2-)		243	(E2)		0.423	α=0.423, α(K)=0.1112 16, α(L)=0.227 4, α(M)=0.0627 9, α(N)=0.01721 24, α(O)=0.00408 6, α(P)=0.000675 10, α(Q)=7.45×10^-6 11, α(N+)=0.0220 3
1381.1	(29/2+)		328.5 2	[E2]		0.1605	α=0.1605, α(K)=0.0657 10, α(L)=0.0693 10, α(M)=0.0189 3, α(N)=0.00518 8, α(O)=0.001236 18, α(P)=0.000209 3, α(Q)=3.57×10^-6 5, α(N+)=0.00663 10
1467.3	(31/2+)		340.0 2	(E2)		0.1451	α=0.1451, α(K)=0.0617 9, α(L)=0.0610 9, α(M)=0.01657 24, α(N)=0.00455 7, α(O)=0.001085 16, α(P)=0.000184 3, α(Q)=3.29×10^-6 5, α(N+)=0.00582 9
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ) (keV)	Multipolarity	Mixing Ratio	Conversion Coefficient	Additional Data
1487.7	(27/2-)		268.0	(E2)		0.304	α=0.304, α(K)=0.0941 14, α(L)=0.1527 22, α(M)=0.0420 6, α(N)=0.01154 17, α(O)=0.00274 4, α(P)=0.000456 7, α(Q)=5.82×10^-6 9, α(N+)=0.01474 21
1584.9	(29/2-)		283.5	(E2)		0.253	α=0.253, α(K)=0.0853 12, α(L)=0.1222 18, α(M)=0.0335 5, α(N)=0.00921 13, α(O)=0.00219 3, α(P)=0.000366 6, α(Q)=5.07×10^-6 7, α(N+)=0.01177 17
1748.2	(33/2+)		367.1 2	(E2)		0.1166	α=0.1166, α(K)=0.0538 8, α(L)=0.0460 7, α(M)=0.01245 18, α(N)=0.00341 5, α(O)=0.000816 12, α(P)=0.0001389 20, α(Q)=2.76×10^-6 4, α(N+)=0.00437 7
1795.5	(31/2-)		308	(E2)		0.195	α=0.195, α(K)=0.0737 11, α(L)=0.0886 13, α(M)=0.0242 4, α(N)=0.00664 10, α(O)=0.001583 23, α(P)=0.000266 4, α(Q)=4.15×10^-6 6, α(N+)=0.00850 12
1846.3	35/2+		379.0 2	(E2)		0.1067	α=0.1067, α(K)=0.0508 8, α(L)=0.0410 6, α(M)=0.01107 16, α(N)=0.00304 5, α(O)=0.000726 11, α(P)=0.0001239 18, α(Q)=2.57×10^-6 4, α(N+)=0.00389 6
1908.9	(33/2-)		323.9	(E2)		0.1674	α=0.1674, α(K)=0.0673 10, α(L)=0.0731 11, α(M)=0.0199 3, α(N)=0.00547 8, α(O)=0.001304 19, α(P)=0.000220 3, α(Q)=3.69×10^-6 6, α(N+)=0.00700 10
2144	(35/2-)		348	(E2)		0.1356	α=0.1356, α(K)=0.0592 9, α(L)=0.0559 8, α(M)=0.01518 22, α(N)=0.00416 6, α(O)=0.000995 14, α(P)=0.0001686 24, α(Q)=3.12×10^-6 5, α(N+)=0.00533 8
2151.8	(37/2+)		403.5 2	(E2)		0.0901	α=0.0901, α(K)=0.0453 7, α(L)=0.0328 5, α(M)=0.00883 13, α(N)=0.00242 4, α(O)=0.000580 9, α(P)=9.95×10^-5 14, α(Q)=2.24E-6 4, α(N+)=0.00310 5
2262.0	(39/2+)		415.4 2	(E2)		0.0835	α=0.0835, α(K)=0.0430 6, α(L)=0.0297 5, α(M)=0.00797 12, α(N)=0.00218 3, α(O)=0.000524 8, α(P)=9.00×10^-5 13, α(Q)=2.10E-6 3, α(N+)=0.00280 4
2272.0	(37/2-)		362.8	(E2)		0.1205	α=0.1205, α(K)=0.0549 8, α(L)=0.0480 7, α(M)=0.01300 19, α(N)=0.00356 5, α(O)=0.000852 12, α(P)=0.0001449 21, α(Q)=2.84×10^-6 4, α(N+)=0.00456 7
2589.4	(41/2+)		437.7 2	(E2)		0.0730	α=0.0730, α(K)=0.0392 6, α(L)=0.0248 4, α(M)=0.00664 10, α(N)=0.00182 3, α(O)=0.000437 7, α(P)=7.54×10^-5 11, α(Q)=1.87E-6 3, α(N+)=0.00233 4
2712.8	(43/2+)		450.8 2	(E2)		0.0677	α=0.0677, α(K)=0.0371 6, α(L)=0.0225 4, α(M)=0.00600 9, α(N)=0.001642 24, α(O)=0.000395 6, α(P)=6.83×10^-5 10, α(Q)=1.758E-6 25, α(N+)=0.00211 3
3059.7	(45/2+)		470.3 2	(E2)		0.0610	α=0.0610, α(K)=0.0344 5, α(L)=0.0195 3, α(M)=0.00519 8, α(N)=0.001422 20, α(O)=0.000342 5, α(P)=5.94×10^-5 9, α(Q)=1.606E-6 23, α(N+)=0.00183 3
3156.2	(9/2+)		31.9	M1+E2	0.85 GT	2.7×10³	α=2.7×10³ 11
3156.2	(9/2+)		56.2	E2		243	α=243
3196.1	(47/2+)		483.3 4	(E2)		0.0571	α=0.0571, α(K)=0.0328 5, α(L)=0.0179 3, α(M)=0.00474 7, α(N)=0.001298 19, α(O)=0.000312 5, α(P)=5.44×10^-5 8, α(Q)=1.515E-6 22, α(N+)=0.001666 24
3303	(9/2-)	2.6 ns +40-12 % SF ≤ 100	146.6	(E1)		0.211	B(E1)(W.u.)≈1.2E-5, α=0.211
	(9/2-)	2.6 ns +40-12 % SF ≤ 100	178.5	(E1)		0.1335	B(E1)(W.u.)≈3.2E-6, α=0.1335
	(9/2-)	2.6 ns +40-12 % SF ≤ 100	202.8	[M2]		14.58	B(M2)(W.u.)≈1.7, α=14.58
3558.2	(49/2+)		498.5 4	(E2)		0.0530	α=0.0530, α(K)=0.0310 5, α(L)=0.01616 23, α(M)=0.00428 6, α(N)=0.001171 17, α(O)=0.000282 4, α(P)=4.92×10^-5 7, α(Q)=1.420E-6 20, α(N+)=0.001504 22

Q(β-)=-802.1 keV 17	S(n)= 5646.2 keV 3	S(p)= 6155.4 keV 4	Q(α)= 5244.50 keV 21
Reference: 2012WA38

References:
A	²³⁹Np β^- decay	B	muonic atom
C	²³⁸U(α,3nγ)	D	²³⁹Am ε decay
E	²⁴³Cm α decay	F	²³⁸Pu(n,γ) E=TH
G	²³⁸Pu(d,p)	H	²³⁹Pu(n,n’)
I	²³⁹Pu(d,d’)	J	Coulomb Excitation
K	²³⁹Pu(γ,γ’)

E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
0	A B C D E F G H I J K	1/2+	24110 y 30 % α = 100 % SF = 3.1×10^-10 6
7.861 2	A B C D E F G H J K	3/2+	36 ps 3	7.860 3	100	M1+E2	0	1/2+
57.275 2	A B C D E F H I J	5/2+	101 ps 5	49.412 4 57.273 4	100 ≈30	M1+E2 E2	7.861 0	3/2+ 1/2+
75.705 3	A B C D E F G H I J	7/2+		18.4 Calc. S 67.841 7		[M1+E2] E2	57.275 7.861	5/2+ 3/2+
163.76 3	A B C D E F G H I J	9/2+	73 ps 4	88.06 3 106.47 4	12 100	M1+E2 E2	75.705 57.275	7/2+ 5/2+
192.8 10	C E G H I J	11/2+		117.3 3	100	E2	75.705	7/2+
285.460 2	A D E G H	5/2+	1.12 ns 5	209.753 2 228.183 2 277.599 2 285.460 2	23.6 7 75.7 21 100 3 5.2 1	M1+E2 M1+E2 M1+E2 E2	75.705 57.275 7.861 0	7/2+ 5/2+ 3/2+ 1/2+
318.5 7	C I J	13/2+		125 154.3 4	100	E2	192.8 163.76	11/2+ 9/2+
330.124 4	A D E G	7/2+		44.663 5 166.319 6 254.40 3 272.87 9 322.3 2	100 15 9 2 85 8 62 8 5.4 8	M1+E2 M1 M1+E2 M1+E2 [E2]	285.460 163.76 75.705 57.275 7.861	5/2+ 9/2+ 7/2+ 5/2+ 3/2+
358.1 1	C I J	15/2+		165.3 3		E2	192.8	11/2+
387.42 2	A D E G	9/2+		57.30 Calc. 101.96 2 311.7 2	≈100 ≈8.9 19 2	M1(+E2) E2 (M1+E2)	330.124 285.460 75.705	7/2+ 5/2+ 7/2+
391.584 3	A D E	7/2-	193 ns 4	4.2S 61.460 2 106.125 2 315.880 3 334.310 3	4.8 6 100 10 5.8 6 7.7 6	[E1] E1 E1(+M2) E1(+M2) E1(+M2)	387.42 330.124 285.460 75.705 57.275	9/2+ 7/2+ 5/2+ 7/2+ 5/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
434 3	E	(9/2-)
462 3	E G	(11/2+)
469.8 4	A E F G I J	(1/2-)		461.9 5 469.8 5	100 69	[E1] [E1]	7.861 0	3/2+ 1/2+
487 3	E G	(11/2-)
492.1 3	A E F G I J	3/2-		434.7 5 484.3 5 492.3 5	100 8 46	E1(+M2) [E1] [E1]	57.275 7.861 0	5/2+ 3/2+ 1/2+
505.6 2	A D E F G I J	(5/2-)		430.0 3 448.3 5 497.8 3	100 18 ≈7 88 18		75.705 57.275 7.861	7/2+ 5/2+ 3/2+
511.838 13	A D	7/2+		124.416 15 181.715 10 226.383 12 436.0 3 454.6 3 504.0 3	3.0 3 33 2 100 6 0.24 3 0.36 4 0.42 4	M1(+E2) M1+E2 M1+E2 [M1] [M1] [E2]	387.42 330.124 285.460 75.705 57.275 7.861	9/2+ 7/2+ 5/2+ 7/2+ 5/2+ 3/2+
519.3 6	C J	17/2+		160 201.0 2	100	E2	358.1 318.5	15/2+ 13/2+
538 3	E G
556.2 5	A E F I J	(7/2-)		392.4 5 ≈498.7	100 ≈62	[E1] [E1]	163.76 57.275	9/2+ 5/2+
565	G	(9/2+)
570.6 7	C J	19/2+		212.0 2	100	E2	358.1	15/2+
583 3	I J	(9/2-)
620	G	(15/2-)
634	G	11/2+
661.1 11	G I J	(11/2-)		343 497			318.5 163.76	13/2+ 9/2+
698.7 10	J	(13/2-)		340 505			358.1 192.8	15/2+ 11/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
716	G
752.5 5	E F G I	1/2+,3/2		695.6 744.6 752.5	40 80 100		57.275 7.861 0	5/2+ 3/2+ 1/2+
756 3	E
763 3	E
764.6 6	C J	(21/2+)		194 245.3 2		(E2)	570.6 519.3	19/2+ 17/2+
779 3	G I
798.2 5	F I	1/2,3/2		790.4 798.2	100 71		7.861 0	3/2+ 1/2+
805.1 5	F	1/2,3/2		797.3 805.1	100 30		7.861 0	3/2+ 1/2+
806.7 15	J	(15/2-)		145.6 287 488?		(E2)	661.1 519.3 318.5	(11/2-) 17/2+ 13/2+
813 3	E
825.5 10	F I	1/2,3/2		817.5 825.5	45.5 100.0		7.861 0	3/2+ 1/2+
828.0 7	C J	(23/2+)		256.9 2		(E2)	570.6	19/2+
854 2	E I
857.5 10	J	(17/2-)		159 287 498			698.7 570.6 358.1	(13/2-) 19/2+ 15/2+
888.0 5	F G	1/2,3/2		888.4	100		0	1/2+
900 2	G I
915 3	I
933.3 10	F	1/2,3/2		925.7 933.6	25 100		7.861 0	3/2+ 1/2+
948 3	I
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
990	G I	(3/2-)
992.4 18	J	(19/2-)		185.8 228		(E2)	806.7 764.6	(15/2-) (21/2+)
1017	G	(1/2-)
1027 2	I
1038	G	(7/2-)
1052.9 3	C J	(25/2+)		288.2 1	100	(E2)	764.6	(21/2+)
1058.1 11	J	(21/2-)		201 230 487			857.5 828.0 570.6	(17/2-) (23/2+) 19/2+
1062 2	I
1099.9 5	F	1/2,3/2
1100	G	(5/2-)
1127.6 7	C J	(27/2+)		299.5 2	100	(E2)	828.0	(23/2+)
1137	G	(11/2-)
1174	G
1214	G	(1/2+)
1219.7 21	J	(23/2-)		166 227.3 455		(E2)	1052.9 992.4 764.6	(25/2+) (19/2-) (21/2+)
1233	G	(3/2+)
1233	G	(9/2-)
1261	G	(5/2+)
1261	G	(3/2+)
1289	G	(5/2+)
1300.9 12	J	(25/2-)		173 243 473		(E2)	1127.6 1058.1 828.0	(27/2+) (21/2-) (23/2+)
1311	G	(7/2+)
1342	G	(7/2+)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
1359	G	(9/2+)
1381.1 7	C J	(29/2+)		254 328.5 2	100	[E2]	1127.6 1052.9	(27/2+) (25/2+)
1390	G
1409	G	(9/2+)
1437	G
1465	G
1467.3 8	C J	(31/2+)		340.0 2	100	(E2)	1127.6	(27/2+)
1487.7 23	J	(27/2-)		268.0	100	(E2)	1219.7	(23/2-)
1488	G
1584.9 14	J	(29/2-)		283.5 457	100	(E2)	1300.9 1127.6	(25/2-) (27/2+)
1748.2 7	C J	(33/2+)		281 367.1 2	100	(E2)	1467.3 1381.1	(31/2+) (29/2+)
1795.5 25	J	(31/2-)		308		(E2)	1487.7	(27/2-)
1846.3 8	J	35/2+		379.0 2	100	(E2)	1467.3	(31/2+)
1908.9 15	J	(33/2-)		323.9 441		(E2)	1584.9 1467.3	(29/2-) (31/2+)
2040.25 21	K	(1/2,3/2)		2040.25 21	100		0	1/2+
2046.9 3	K	(1/2,3/2)		2046.9 3	100		0	1/2+
2135.0 4	K	(1/2,3/2)		2135.0 4	100		0	1/2+
2143.56 13	K	(1/2,3/2)		2135.0 4 ? 2143.56 13	31 100		7.861 0	3/2+ 1/2+
2144 3	J	(35/2-)		348		(E2)	1795.5	(31/2-)
2151.0 3	K	(1/2,3/2)		2143.56 13 2151.0 3	100 39		7.861 0	3/2+ 1/2+
2151.8 7	J	(37/2+)		305 403.5 2	100	(E2)	1846.3 1748.2	35/2+ (33/2+)
2262.0 8	J	(39/2+)		415.4 2	100	(E2)	1846.3	35/2+
2272.0 16	J	(37/2-)		362.8 425		(E2)	1908.9 1846.3	(33/2-) 35/2+
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
2289.0 3	K	(1/2,3/2)		2289.02 25	100		0	1/2+
2431.7 3	K	(1/2,3/2)		2423.48 22 2431.66 25	100 90		7.861 0	3/2+ 1/2+
2454.4 3	K	(1/2,3/2)		2454.4 3	100		0	1/2+
2460.5 4	K	(1/2,3/2)		2460.5 4	100		0	1/2+
2464.6 3	K	(1/2,3/2)		2464.6 3	100		0	1/2+
2471.1 3	K	(1/2,3/2)		2471.1 3	100		0	1/2+
2529.4 23	J	(39/2-)		386			2144	(35/2-)
2589.4 8	J	(41/2+)		327 437.7 2	100	(E2)	2262.0 2151.8	(39/2+) (37/2+)
2672.0 17	J	(41/2-)		400 409			2272.0 2262.0	(37/2-) (39/2+)
2712.8 8	J	(43/2+)		450.8 2	100	(E2)	2262.0	(39/2+)
2951.4 25	J	(43/2-)		422			2529.4	(39/2-)
3059.7 8	J	(45/2+)		470.3 2	100	(E2)	2589.4	(41/2+)
31E+2 2	K	(5/2+)	7.5 µs 10 % SF ≤ 100
3108.0 20	J	(45/2-)		436			2672.0	(41/2-)
3124.3	K	(7/2+)		24.3			31E+2	(5/2+)
3156.2		(9/2+)		31.9 56.2		M1+E2 E2	3124.3 31E+2	(7/2+) (5/2+)
3196.1 9	J	(47/2+)		483.3 4	100	(E2)	2712.8	(43/2+)
3303	K	(9/2-)	2.6 ns +40-12 % SF ≤ 100	146.6 178.5 202.8?		(E1) (E1) [M2]	3156.2 3124.3 31E+2	(9/2+) (7/2+) (5/2+)
3407 3	J	(47/2-)		456			2951.4	(43/2-)
3558.2 9	J	(49/2+)		498.5 4	100	(E2)	3059.7	(45/2+)
3578.0 22	J	(49/2-)		470	100		3108.0	(45/2-)
3713.0 24	J	(51/2+)		515	100		3196.1	(47/2+)
3895 3	J	51/2-		488	100		3407	(47/2-)
E(level) (keV)	XREF	J^π(level)	T_1/2(level)	E(γ) (keV)	I(γ)	M(γ)	Final Levels
4080.0 24	J	(53/2-)		502	100		3578.0	(49/2-)
4087.1 24	J	(53/2+)		528	100		3558.2	(49/2+)
4256 3	J	(55/2+)		543	100		3713.0	(51/2+)
4413 3	J	55/2-		518	100		3895	51/2-

E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 1 - 1/2[631], α=+1/2
0	1/2+	24110 y 30 % α = 100 % SF = 3.1×10^-10 6
57.275 2	5/2+	101 ps 5	49.412 4 57.273 4	100 ≈30	M1+E2 E2	7.861 0	3/2+ 1/2+
163.76 3	9/2+	73 ps 4	88.06 3 106.47 4	12 100	M1+E2 E2	75.705 57.275	7/2+ 5/2+
318.5 7	13/2+		125 154.3 4	100	E2	192.8 163.76	11/2+ 9/2+
519.3 6	17/2+		160 201.0 2	100	E2	358.1 318.5	15/2+ 13/2+
764.6 6	(21/2+)		194 245.3 2		(E2)	570.6 519.3	19/2+ 17/2+
1052.9 3	(25/2+)		288.2 1	100	(E2)	764.6	(21/2+)
1381.1 7	(29/2+)		254 328.5 2	100	[E2]	1127.6 1052.9	(27/2+) (25/2+)
1748.2 7	(33/2+)		281 367.1 2	100	(E2)	1467.3 1381.1	(31/2+) (29/2+)
2151.8 7	(37/2+)		305 403.5 2	100	(E2)	1846.3 1748.2	35/2+ (33/2+)
2589.4 8	(41/2+)		327 437.7 2	100	(E2)	2262.0 2151.8	(39/2+) (37/2+)
3059.7 8	(45/2+)		470.3 2	100	(E2)	2589.4	(41/2+)
3558.2 9	(49/2+)
4087.1 24	(53/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 2 - 1/2[631]×0-, α=+1/2
469.8 4	(1/2-)
505.6 2	(5/2-)		430.0 3 448.3 5 497.8 3	100 18 ≈7 88 18		75.705 57.275 7.861	7/2+ 5/2+ 3/2+
583 3	(9/2-)
698.7 10	(13/2-)		340 505			358.1 192.8	15/2+ 11/2+
857.5 10	(17/2-)		159 287 498			698.7 570.6 358.1	(13/2-) 19/2+ 15/2+
1058.1 11	(21/2-)		201 230 487			857.5 828.0 570.6	(17/2-) (23/2+) 19/2+
1300.9 12	(25/2-)		173 243 473		(E2)	1127.6 1058.1 828.0	(27/2+) (21/2-) (23/2+)
1584.9 14	(29/2-)		283.5 457	100	(E2)	1300.9 1127.6	(25/2-) (27/2+)
1908.9 15	(33/2-)		323.9 441		(E2)	1584.9 1467.3	(29/2-) (31/2+)
2272.0 16	(37/2-)		362.8 425		(E2)	1908.9 1846.3	(33/2-) 35/2+
2672.0 17	(41/2-)		400 409			2272.0 2262.0	(37/2-) (39/2+)
3108.0 20	(45/2-)		436			2672.0	(41/2-)
3578.0 22	(49/2-)
4080.0 24	(53/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 3 - 5/2[622]
285.460 2	5/2+	1.12 ns 5
330.124 4	7/2+		44.663 5 166.319 6 254.40 3 272.87 9 322.3 2	100 15 9 2 85 8 62 8 5.4 8	M1+E2 M1 M1+E2 M1+E2 [E2]	285.460 163.76 75.705 57.275 7.861	5/2+ 9/2+ 7/2+ 5/2+ 3/2+
387.42 2	9/2+		57.30 Calc. 101.96 2 311.7 2	≈100 ≈8.9 19 2	M1(+E2) E2 (M1+E2)	330.124 285.460 75.705	7/2+ 5/2+ 7/2+
462 3	(11/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 4 - 7/2[743]
391.584 3	7/2-	193 ns 4
434 3	(9/2-)
487 3	(11/2-)
620	(15/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 5 - 7/2[624]
511.838 13	7/2+
565	(9/2+)
634	11/2+
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 6 - 1/2[761]
990	(3/2-)
1017	(1/2-)
1038	(7/2-)
1100	(5/2-)
1137	(11/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 7 - 1/2[620]
1214	(1/2+)
1233	(3/2+)
1261	(5/2+)
1311	(7/2+)
1359	(9/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 8 - 7/2[613]?
1233	(9/2-)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 9 - 3/2[622]?
1261	(3/2+)
1289	(5/2+)
1342	(7/2+)
1409	(9/2+)
E(level) (keV)	J^π(level)	T_1/2(level)	E(γ)	I(γ)	M(γ)	Final Levels
Band 10 - 5/2[633]
31E+2 2	(5/2+)	7.5 µs 10 % SF ≤ 100
3124.3	(7/2+)		24.3			31E+2	(5/2+)
3156.2	(9/2+)		31.9 56.2		M1+E2 E2	3124.3 31E+2	(7/2+) (5/2+)

E(level)	J^π(level)	T_1/2(level)	Comments
0	1/2+	24110 y 30 % α = 100 % SF = 3.1×10^-10 6	μ=+0.203 4 (2011StZZ) From optical isotope shifts 1985Ge08 deduce Q=11.3 10. E(level): 1/2[631], α=+1/2.
7.861	3/2+	36 ps 3	Q=-2.319 7 (2011StZZ) E(level): From ²⁴³Cm α decay.
57.275	5/2+	101 ps 5	Q=-3.345 13 (2011StZZ) E(level): 1/2[631], α=+1/2. From ²⁴³Cm α decay.
75.705	7/2+		Q=-3.83 3 (2011StZZ) E(level): From ²⁴³Cm α decay.
163.76	9/2+	73 ps 4	E(level): 1/2[631], α=+1/2. From ²⁴³Cm α decay.
192.8	11/2+		E(level): From ²⁴³Cm α decay.
285.460	5/2+	1.12 ns 5	μ=-1.3 3 (2011StZZ) E(level): 5/2[622]. From ²⁴³Cm α decay.
318.5	13/2+		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
330.124	7/2+		E(level): 5/2[622]. From ²⁴³Cm α decay.
358.1	15/2+		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
387.42	9/2+		E(level): 5/2[622]. From ²⁴³Cm α decay.
391.584	7/2-	193 ns 4	E(level): 7/2[743]. From ²⁴³Cm α decay.
434	(9/2-)		E(level): 7/2[743]. From ²⁴³Cm α decay.
462	(11/2+)		E(level): 5/2[622]. From ²⁴³Cm α decay.
469.8	(1/2-)		E(level): 1/2[631]×0-, α=+1/2. From ²⁴³Cm α decay. J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
487	(11/2-)		E(level): 7/2[743]. From ²⁴³Cm α decay.
492.1	3/2-		E(level): From ²⁴³Cm α decay.
505.6	(5/2-)		E(level): 1/2[631]×0-, α=+1/2. From ²⁴³Cm α decay.
511.838	7/2+		E(level): 7/2[624].
519.3	17/2+		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
538			E(level): From ²⁴³Cm α decay.
556.2	(7/2-)		E(level): From ²⁴³Cm α decay.
565	(9/2+)		E(level): 7/2[624].
570.6	19/2+		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
583	(9/2-)		E(level): 1/2[631]×0-, α=+1/2.
E(level)	J^π(level)	T_1/2(level)	Comments
620	(15/2-)		E(level): 7/2[743].
634	11/2+		E(level): 7/2[624].
661.1	(11/2-)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
698.7	(13/2-)		E(level): 1/2[631]×0-, α=+1/2.
752.5	1/2+,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
756			E(level): From ²⁴³Cm α decay.
763			E(level): From ²⁴³Cm α decay.
764.6	(21/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
798.2	1/2,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
805.1	1/2,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
806.7	(15/2-)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
813			E(level): From ²⁴³Cm α decay.
825.5	1/2,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
828.0	(23/2+)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
857.5	(17/2-)		E(level): 1/2[631]×0-, α=+1/2.
888.0	1/2,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
933.3	1/2,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
990	(3/2-)		E(level): 1/2[761].
992.4	(19/2-)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1017	(1/2-)		E(level): 1/2[761].
1038	(7/2-)		E(level): 1/2[761].
1052.9	(25/2+)		E(level): 1/2[631], α=+1/2.
1058.1	(21/2-)		E(level): 1/2[631]×0-, α=+1/2.
1099.9	1/2,3/2		J^π(level): Fed in ²³⁸Pu(n,γ), E=thermal from 1/2⁺, γ-ray deexcitation to 1/2⁺ and 3/2⁺.
1100	(5/2-)		E(level): 1/2[761].
E(level)	J^π(level)	T_1/2(level)	Comments
1127.6	(27/2+)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1137	(11/2-)		E(level): 1/2[761].
1214	(1/2+)		E(level): 1/2[620].
1219.7	(23/2-)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1233	(3/2+)		E(level): 1/2[620].
1233	(9/2-)		E(level): 7/2[613]?.
1261	(5/2+)		E(level): 1/2[620].
1261	(3/2+)		E(level): 3/2[622]?.
1289	(5/2+)		E(level): 3/2[622]?.
1300.9	(25/2-)		E(level): 1/2[631]×0-, α=+1/2.
1311	(7/2+)		E(level): 1/2[620].
1342	(7/2+)		E(level): 3/2[622]?.
1359	(9/2+)		E(level): 1/2[620].
1381.1	(29/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1409	(9/2+)		E(level): 3/2[622]?.
1467.3	(31/2+)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1487.7	(27/2-)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1584.9	(29/2-)		E(level): 1/2[631]×0-, α=+1/2.
1748.2	(33/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1846.3	35/2+		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
1908.9	(33/2-)		E(level): 1/2[631]×0-, α=+1/2.
2040.25	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2046.9	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2135.0	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2143.56	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
E(level)	J^π(level)	T_1/2(level)	Comments
2144	(35/2-)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
2151.0	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2151.8	(37/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
2262.0	(39/2+)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
2272.0	(37/2-)		E(level): 1/2[631]×0-, α=+1/2.
2289.0	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2431.7	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2454.4	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2460.5	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2464.6	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2471.1	(1/2,3/2)		J^π(level): From expected dominance of dipole excitation in ²³⁹Pu(γ,γ’).
2589.4	(41/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
2672.0	(41/2-)		E(level): 1/2[631]×0-, α=+1/2.
2712.8	(43/2+)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
3059.7	(45/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
31E+2	(5/2+)	7.5 µs 10 % SF ≤ 100	Q of rotational band built on g.s. of second potential minimum studied by 1977Ha01. Q=36.5 25 assuming moment of inertia for the band 5% lower than the ²⁴⁰Pu case. K\|>5/2 from decay time of high-charge states. Other: 1977GoZH. E(level): 5/2[633].
3108.0	(45/2-)		E(level): 1/2[631]×0-, α=+1/2.
3124.3	(7/2+)		E(level): 5/2[633].
3156.2	(9/2+)		E(level): 5/2[633].
3196.1	(47/2+)		E(level): From Coulomb Excitation. J^π(level): From Coulomb Excitation.
3303	(9/2-)	2.6 ns +40-12 % SF ≤ 100	Assignment: ²³⁸U(α,3n), ce-fission coin (1979Ba02).
3558.2	(49/2+)		E(level): 1/2[631], α=+1/2. From Coulomb Excitation. J^π(level): From Coulomb Excitation.
3578.0	(49/2-)		E(level): 1/2[631]×0-, α=+1/2.
4080.0	(53/2-)		E(level): 1/2[631]×0-, α=+1/2.
4087.1	(53/2+)		E(level): 1/2[631], α=+1/2.

E(level)	E(gamma)	Comments
7.861	7.860	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
57.275	49.412	E(γ): From ²⁴³Cm α decay I(γ): from ²³⁹Np β^-. From B(E2) ratios in muonic atom and δ=0.50 Iγ(49.4γ)=66, if Iγ were exactly 85 then δ=0.59 rather than 0.50 3. From ²⁴³Cm α decay
57.275	57.273	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
163.76	88.06	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
163.76	106.47	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
192.8	117.3	E(γ): From Coulomb Excitation
285.460	209.753	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay M(γ): From conversion electron data in ²⁴³Cm α decay
	228.183	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay M(γ): From conversion electron data in ²⁴³Cm α decay
	277.599	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay M(γ): From conversion electron data in ²⁴³Cm α decay
	285.460	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
318.5	125	E(γ): From Coulomb Excitation
318.5	154.3	E(γ): From (α,3nγ)
330.124	44.663	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	166.319	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	254.40	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	272.87	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	322.3	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
358.1	165.3	E(γ): From Coulomb Excitation
387.42	57.30	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	101.96	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	311.7	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
391.584	4.2	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	61.460	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	106.125	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay M(γ): conversion is anomalous.
	315.880	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
	334.310	E(γ): From ²⁴³Cm α decay I(γ): From ²⁴³Cm α decay
E(level)	E(gamma)	Comments
469.8	461.9	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
469.8	469.8	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
492.1	434.7	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
	484.3	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
	492.3	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
505.6	430.0	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	448.3	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	497.8	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
511.838	124.416	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	181.715	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	226.383	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	436.0	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	454.6	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
	504.0	E(γ): From ²³⁹Am ε Decay I(γ): From ²³⁹Am ε Decay
519.3	160	E(γ): From Coulomb Excitation
519.3	201.0	E(γ): From Coulomb Excitation
556.2	392.4	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
556.2	498.7	E(γ): From ²³⁹Np β^- Decay I(γ): From ²³⁹Np β^- Decay
570.6	212.0	E(γ): From Coulomb Excitation
661.1	343	E(γ): From Coulomb Excitation
661.1	497	E(γ): From Coulomb Excitation
752.5	695.6	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
	744.6	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
	752.5	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
764.6	194	E(γ): From Coulomb Excitation
764.6	245.3	E(γ): From Coulomb Excitation
E(level)	E(gamma)	Comments
798.2	790.4	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
798.2	798.2	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
805.1	797.3	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
805.1	805.1	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
806.7	145.6	E(γ): From Coulomb Excitation
	287	E(γ): From Coulomb Excitation
	488	E(γ): From Coulomb Excitation
825.5	817.5	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
825.5	825.5	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
828.0	256.9	E(γ): From Coulomb Excitation
857.5	159	E(γ): From Coulomb Excitation
	287	E(γ): From Coulomb Excitation
	498	E(γ): From Coulomb Excitation
888.0	888.4	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
933.3	925.7	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
933.3	933.6	E(γ): From ²³⁸Pu(n,γ) E=th I(γ): From ²³⁸Pu(n,γ) E=th
992.4	185.8	E(γ): From Coulomb Excitation
992.4	228	E(γ): From Coulomb Excitation
1127.6	299.5	E(γ): From Coulomb Excitation
1219.7	166	E(γ): From Coulomb Excitation
	227.3	E(γ): From Coulomb Excitation
	455	E(γ): From Coulomb Excitation
1300.9	243	E(γ): From Coulomb Excitation
1381.1	254	E(γ): From Coulomb Excitation
1381.1	328.5	E(γ): From Coulomb Excitation
E(level)	E(gamma)	Comments
1467.3	340.0	E(γ): From Coulomb Excitation
1487.7	268.0	E(γ): From Coulomb Excitation
1584.9	283.5	E(γ): From Coulomb Excitation
1748.2	281	E(γ): From Coulomb Excitation
1748.2	367.1	E(γ): From Coulomb Excitation
1795.5	308	E(γ): From Coulomb Excitation
1846.3	379.0	E(γ): From Coulomb Excitation
1908.9	323.9	E(γ): From Coulomb Excitation
2143.56	2143.56	E(γ): Multiply placed
2144	348	E(γ): From Coulomb Excitation
2151.0	2143.56	E(γ): Multiply placed
2151.8	305	E(γ): From Coulomb Excitation
2151.8	403.5	E(γ): From Coulomb Excitation
2262.0	415.4	E(γ): From Coulomb Excitation
2272.0	362.8	E(γ): From Coulomb Excitation
2589.4	327	E(γ): From Coulomb Excitation
2589.4	437.7	E(γ): From Coulomb Excitation
2712.8	450.8	E(γ): From Coulomb Excitation
3059.7	470.3	E(γ): From Coulomb Excitation
3124.3	24.3	M(γ): From ce data of 1979Ba02, L12/L3 ratios.
3156.2	31.9	M(γ): From ce data of 1979Ba02, L12/L3 ratios.
3156.2	56.2	M(γ): From ce data of 1979Ba02, L12/L3 ratios.
3196.1	483.3	E(γ): From Coulomb Excitation
3303	146.6	M(γ): From ce data of 1979Ba02, L12/L3 ratios.
	178.5	M(γ): From ce data of 1979Ba02, L12/L3 ratios.
	202.8	M(γ): From ce data of 1979Ba02, L12/L3 ratios.
E(level)	E(gamma)	Comments
3558.2	498.5	E(γ): From Coulomb Excitation