96ZR 96Y B- DECAY (9.6 S) 1987STZX 08NDS 200810
96ZR H TYP=FUL$AUT=D. Abriola(a), A.A. Sonzogni$CIT=NDS 109, 2501 (2008)$
96ZR2 H CUT=1-Apr-2008$
96ZR c 1995HaZT,1997RaZZ: SF of {+252}Cf; measured E|g, I|g, |g|g|g coin
96ZRac data at the |g-sphere; experimental details not available
96ZR c 1991OhZZ,1990OhZZ,1990Oh02: measured T{-1/2} by |b|g|g coin
96ZR c 1987StZX,1987St12,1988StZS: measured E|g, I|g, |g|g coin, |g|g(|q)
96ZR c 1975Sa15: studied both g.s. and isomeric decay of {+96}y; measured
96ZRac E|g, I|g, |g|g coin, E|b, T{-1/2}.
96ZR c 1975Kl11: identification of {+96}y decay with T{-1/2}=9.6 s {i3}
96ZRac from chemical separation of fission products; measured E|g, I|g, |g|g
96ZRxc coin.
96ZR c Decay scheme is from 1987StZX. This decay scheme and that of
96ZRac 1995HaZT, 1997RaZZ are very similar, except for the differences
96ZRac pointed out in comments.
96ZR cL E$From 1987StZX, unless indicated otherwise
96ZR cL E(B)$From 1995HaZT, 1997RaZZ; not reported by 1987StZX
96ZR cL J$From Adopted Levels; supporting arguments mainly from |g|g(|q) in
96ZRacL 1988StZS are given in comments
96ZR cG E$From energy difference of initial and final levels of 1987StZX,
96ZRacG unless indicated otherwise. Some E|g from 1987StZX are not consistent
96ZRacG with their level energies
96ZR cG RI$From 1987StZX, unless indicated otherwise. Uncertainty not given by
96ZRacG authors
96ZR cG M,MR$From adopted gammas
96ZR cG E(A)$Measured with a curved-crystal diffraction spectrometer
96ZRacG (1979Bo26).
96ZR cB IB$From 1987StZX. These are not the same as the I|b obtained from I|g
96ZRacB normalization=0.0880 and the I|g balance. However, if I(|g+ce)(1582)
96ZRacB is neglected, one obtains an I|g normalization=0.0893 and if the I|b
96ZRacB thus obtained to the eleven levels from 4235 to 5900 keV are
96ZRacB arbitrarily renormalized to add up to 100, one obtains the I|b from
96ZRacB 1987StZX which are higher by about 13.8%.
96Y P 1140 30(8+) 9.6 S 2 7096 23
96ZR N 0.0880 1.0 1.0 1.0
96ZR cN NR$|SI|g(to g.s.)=100, assuming that the g.s. |b{+-} feeding is zero,
96ZRacN and includes a 1.5% contribution from the 1582 keV E0 transition.
96ZR PN 3
96ZR L 0.0 0+
96ZR L 1582.5 1 0+
96ZR G 1582.5 E0 1.5
96ZR cG TI$from I|g(644) feeding the 1582.5 level
96ZR L 1750.6 2 2+
96ZR cL $J=2 from |DJ=2 transition to 0+
96ZR G 1750.6 1000 E2 3.98E-4
96ZRS G KC=0.000184 3$LC=2.01E-5 3$MC=3.48E-6 5$NC=4.94E-7 7$OC=3.52E-8 5$
96ZRS G NC+=0.000190 3
96ZR cG M$|DJ=2 transition to 0+
96ZR L 1897.6 2 3- 46 PS 15
96ZR cL $J=3 from |DJ=1 transition to 2+
96ZR cL T$from 1990Oh02, 1990OhZZ. Other: 84 ps {i44} (1988Mo27)
96ZR G 146.653 10387 (E1) 0.0371
96ZRX G FLAG=A
96ZRS G KC=0.0327 5$LC=0.00366 6$MC=0.000632 9$NC=8.84E-5 13$OC=5.80E-6 9$
96ZRS G NC+=9.42E-5 14
96ZR cG M$|DJ=1 transition to 2+
96ZR G 1897.6 57 [E3] 4.40E-4
96ZRS G KC=0.000268 4$LC=2.96E-5 5$MC=5.14E-6 8$NC=7.30E-7 11$OC=5.17E-8 8$
96ZRS G NC+=0.0001368 20
96ZR L 2226.2 2 2+
96ZR cL $J=2 from |DJ=2 transition to 0+
96ZR G 328.6 6 (E1(+M2)) -0.02 5 0.0038116
96ZRS G KC=0.00336 14$LC=0.000372 17$MC=6.4E-5 3$NC=9.1E-6 5$OC=6.2E-7 3$
96ZRS G NC+=9.7E-6 5
96ZR G 475.6 35 M1+E2 -0.09 +1-2 0.00360
96ZRS G KC=0.00318 5$LC=0.000354 5$MC=6.16E-5 9$NC=8.75E-6 13$OC=6.19E-7 9$
96ZRS G NC+=9.36E-6 14
96ZR cG MR$+0.1 {i2} from |g|g(|q) (1987St12)
96ZR G 643.7 17 E2 0.00203
96ZRS G KC=0.00179 3$LC=0.000204 3$MC=3.54E-5 5$NC=4.99E-6 7$OC=3.37E-7 5$
96ZRS G NC+=5.33E-6 8
96ZR G 2226.2 63 E2 5.51E-4
96ZRS G KC=0.0001184 17$LC=1.282E-5 18$MC=2.22E-6 4$NC=3.16E-7 5$OC=2.26E-8 4$
96ZRS G NC+=0.000417 6
96ZR cG M$|DJ=2 transition to 0+
96ZR L 2781.6 3 ?
96ZR G 884.0 8 ?
96ZR L 2857.8 2 4+
96ZR cL $J=4 from |DJ=2 transitions to 2+, and |DJ=1 transition to 3-
96ZR G 631.45 4 85 E2(+M3) -0.02 8 0.0021512
96ZRX G FLAG=A
96ZRS G KC=0.00189 11$LC=0.000216 13$MC=3.75E-5 22$NC=5.3E-6 4$OC=3.56E-7 21$
96ZRS G NC+=5.6E-6 4
96ZR cG M$|DJ=2 transition to 2+
96ZR G 960.2 45 (E1) 3.12E-4
96ZRS G KC=0.000276 4$LC=3.00E-5 5$MC=5.19E-6 8$NC=7.37E-7 11$OC=5.22E-8 8$
96ZRS G NC+=7.89E-7 11
96ZR cG M$|DJ=1 transition to 3-
96ZR G 1107.2 547 E2(+M3) -0.03 3 5.36E-410
96ZRS G KC=0.000472 8$LC=5.22E-5 9$MC=9.06E-6 16$NC=1.284E-6 23$OC=9.01E-8 16$
96ZRS G NC+=2.18E-6 4
96ZR cG M$|DJ=2 transition to 2+
96ZR L 3082.6 5 4+
96ZR G 224.8 4
96ZR G 857.4 [E2] 9.67E-4
96ZRS G KC=0.000852 12$LC=9.55E-5 14$MC=1.656E-5 24$NC=2.34E-6 4$
96ZRS G OC=1.620E-7 23$NC+=2.51E-6 4
96ZR cG E$from 1995HaZT, 1997RaZZ; not observed by 1987StZX
96ZR G 1185.0 39 E1(+M2) +0.02 3 2.44E-4
96ZRS G KC=0.000186 3$LC=2.02E-5 4$MC=3.49E-6 6$NC=4.97E-7 9$OC=3.53E-8 6$
96ZRS G NC+=3.43E-5 5
96ZR L 3120.5 3 5-
96ZR cL $J=5 from |DJ=2 transition to 3-
96ZR G 1222.9 304 E2+M3 -0.05 3 4.44E-49
96ZRS G KC=0.000382 8$LC=4.21E-5 9$MC=7.30E-6 15$NC=1.037E-6 21$OC=7.30E-8 15$
96ZRS G NC+=1.248E-5 18
96ZR cG M$|DJ=2 transition to 3-
96ZR L 3177.0 3 4+
96ZR G 1279.4 14 E1(+M2) -0.03 3 2.77E-45
96ZRS G KC=0.000163 3$LC=1.76E-5 3$MC=3.05E-6 6$NC=4.34E-7 8$OC=3.09E-8 6$
96ZRS G NC+=9.38E-5 14
96ZR L 3309.9 2 (4+,5+,6+)
96ZR G 132.9 10
96ZR G 189.4 4
96ZR G 227.3 16 E2 0.0569
96ZRS G KC=0.0492 7$LC=0.00641 9$MC=0.001116 16$NC=0.0001530 22$OC=8.73E-6 13$
96ZRS G NC+=0.0001617 23
96ZR L 3483.6 5 6+ 25 PS 9
96ZR cL $J=6 from |DJ=1 transition to 5-
96ZR cL T$from 1991OhZZ
96ZR G 173.7 24 (M1) 0.0452
96ZRS G KC=0.0397 6$LC=0.00456 7$MC=0.000794 12$NC=0.0001124 16$OC=7.81E-6 11$
96ZRS G NC+=0.0001202 17
96ZR G 363.1 256 E1 0.00291
96ZRS G KC=0.00257 4$LC=0.000284 4$MC=4.91E-5 7$NC=6.94E-6 10$OC=4.78E-7 7$
96ZRS G NC+=7.42E-6 11
96ZR cG M$|DJ=1 transition to 5-
96ZR G 401.0 3
96ZR G 626 8
96ZR cG E,RI$from 1987St12
96ZR L 3749.1 3 4+
96ZR G 1851.5 6
96ZR L 3772.6 1 6+
96ZR cL $J=6 from |DJ=2 transition to 4+ and |DJ=1 transition to 5-
96ZR G 289.0 10 (M1(+E2)) -0.4 5 0.014 4
96ZRS G KC=0.012 4$LC=0.0014 5$MC=0.00024 8$NC=3.5E-5 11$OC=2.3E-6 6$
96ZRS G NC+=3.7E-5 12
96ZR cG MR$from |g|g(|q) (1987St12)
96ZR G 462.7 5
96ZR G 652.1 17 (E1) 6.98E-4
96ZRS G KC=0.000617 9$LC=6.75E-5 10$MC=1.169E-5 17$NC=1.658E-6 24$
96ZRS G OC=1.165E-7 17$NC+=1.775E-6 25
96ZR cG M$|DJ=1 transition to 5-
96ZR G 690.0 13
96ZR G 914.8 670 (E2) 8.27E-4
96ZRS G KC=0.000729 11$LC=8.14E-5 12$MC=1.412E-5 20$NC=2.00E-6 3$
96ZRS G OC=1.388E-7 20$NC+=2.14E-6 3
96ZR cG M$|DJ=2 transition to 4+
96ZR L 3924.3
96ZRX L FLAG=B
96ZR G 804.7 18
96ZR cG E,RI$from 1995HaZT, 1997RaZZ; 1987StZX show this |g with I|g=14
96ZRacG depopulating the 5067 level
96ZR L 4126.9 3 (4+)
96ZR G 1006.4 13
96ZR L 4235.1 3 7-
96ZR G 751.5 8
96ZR G 1114.6 20
96ZR B 1.6 7 6.51 20
96ZRX B EAV=1742 18
96ZR L 4261.6 6 (5+,6+)
96ZR G 489.0 11
96ZR G 778.0 13
96ZR G 1179.0 3
96ZR L 4389.8 2 8+ 127 PS 10
96ZR cL $J=8 from |DJ=2 transitions to 6+
96ZR cL T$from 1990OhZZ, 1991OhZZ
96ZR G 154.7 5 [E1] 0.0317
96ZRS G KC=0.0280 4$LC=0.00313 5$MC=0.000540 8$NC=7.57E-5 11$OC=4.99E-6 7$
96ZRS G NC+=8.07E-5 12
96ZR G 617.2 625 E2 0.00228
96ZRS G KC=0.00201 3$LC=0.000230 4$MC=3.99E-5 6$NC=5.61E-6 8$OC=3.78E-7 6$
96ZRS G NC+=5.99E-6 9
96ZR cG M$|DJ=2 transition to 6+
96ZR G 906.2 230 E2 8.46E-4
96ZRS G KC=0.000746 11$LC=8.33E-5 12$MC=1.445E-5 21$NC=2.04E-6 3$
96ZRS G OC=1.419E-7 20$NC+=2.19E-6 3
96ZR cG M$|DJ=2 transition to 6+
96ZR B 80.9 96 4.73 6
96ZRX B EAV=1668 18
96ZR L 4570.5 4 (5-,6+)
96ZR G 335.4 3
96ZR G 1712.7 5 ?
96ZR B 0.9 3 6.59 15
96ZRX B EAV=1581 18
96ZR L 4690.1 5
96ZR G 455.0 4
96ZR B 0.5 1 6.78 9
96ZRX B EAV=1524 18
96ZR L 4751.8 2 (7,8+)
96ZR G 979.2 41
96ZR B 2.5 9 6.05 16
96ZRX B EAV=1495 18
96ZR L 4757.1
96ZRX L FLAG=B
96ZR G 522.6 35
96ZR cG E$from difference in energy of initial and final levels; 517.2 keV
96ZRacG (1995HaZT, 1997RaZZ). 1987StZX report a 517.4 keV |g with I|g=12
96ZRacG depopulating the 4907 level which is not seen by 1995HaZT, 1997RaZZ.
96ZR L 4846.0 4
96ZR G 719.1 9
96ZR B 0.9 2 6.44 10
96ZRX B EAV=1450 18
96ZR L 4907.2 3
96ZR G 517.4 12
96ZR L 5066.5 2 (7+,8+)
96ZR G 314.7 7
96ZR G 676.7 4
96ZR G 804.9 14
96ZR cG E$1995HaZT, 1997RaZZ show a 804.7 keV |g, I|g=18 depopulating a
96ZRacG 3924.3 level not observed by 1987StZX
96ZR G 1582.9 18
96ZR B 4.1 7 5.66 8
96ZRX B EAV=1345 18
96ZR L 5118.1 3
96ZR G 728.3 10
96ZR L 5235.6 10(7,8+)
96ZR G 845.8 7
96ZR G 1463.0 5
96ZR B 1.2 3 6.09 12
96ZRX B EAV=1265 18
96ZR L 5507.9 3 (7+,8+)
96ZR cL J$(10+) according to 1995HaZT, 1997RaZZ; supporting arguments not
96ZRacL available
96ZR G 441.4 4
96ZR G 600.7 5
96ZR G 750.5 5
96ZR cG E$from 1995HaZT, 1997RaZZ; not observed by 1987StZX
96ZR G 756.1 11
96ZR G 1118.1 15
96ZR G 1246.3 9
96ZR G 1735.3 12
96ZR B 5.8 8 5.23 7
96ZRX B EAV=1136 18
96ZR L 5629.2 3
96ZR G 1239.4 9
96ZR B 0.9 3 5.96 15
96ZRX B EAV=1079 18
96ZR L 5900.1 3
96ZR G 1510.3 7
96ZR B 0.7 1 5.87 7
96ZRX B EAV=953 18