88ZR 88NB EC DECAY (14.55 M) 1984OX01 14NDS 201401
88ZR H TYP=FUL$AUT=E.A. McCutchan and A.A. Sonzogni$CIT=NDS 115, 135 (2014)$
88ZR2 H CUT=1-Nov-2013$
88ZR c 1984Ox01: {+88}Nb activity produced in the Zr(p,3n) and Zr(d,4n)
88ZR2c reactions with E(p)=38 MeV and E(d)=47 MeV. Measured E|g, I|g, |g|g
88ZR3c using two n-type HPGe detectors (FWHM=2.0 and 2.1 keV at 1.3 MeV) and
88ZR4c |b|g coincidences using a E-|DE telescope consisting of a Ge detector
88ZR5c and a Si detector.
88ZR c A total energy release of 7380 keV {I210} is calculated for this
88ZR2c decay using the code RADLST, in agreement with the Q value of 7450
88ZR3c keV {I60}
88ZR c Others: 1974Ba55, 1972Ia01, 1971Do01, 1966Fl03, 1966Hy03.
88ZR cG M$From the Adopted Gammas, except where noted.
88ZR cG TI$Intensity deduced from |g-ray feeding (1984Ox01).
88ZR cG RI(A)$Weak.
88ZR cG RI(B)$Contamination intensity subtracted.
88ZR cG E(D)$From level energy difference.
88ZR cG RI(C)$From coincidence spectra.
88ZR cL E$From a least-squares fit to E|g by evaluators.
88ZR cL J$From the Adopted Levels.
88ZR cE TI$From an intensity balance at each level.
88ZR D CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
88NB P 0.0 (8+) 14.55 M 11 7450 60
88ZR N 1.00 4 1.00 1.0 1
88ZR cN NR$From |SI(|g+c.e)(to g.s.)=100 and assuming no direct feeding to
88ZR2cN g.s. (|DJ=8).
88ZR G 172.5 5 0.34 6
88ZR G 796.0 5 0.42 8
88ZR G 1276.3 3 0.33 4
88ZR G 1585.1 4 0.38 6
88ZR L 0 0+
88ZR L 1057.11 10 2+
88ZR G 1057.1 1 100 4 E2 5.91E-4
88ZRS G KC=0.000522 8$LC=5.79E-5 9$MC=1.003E-5 14$NC=1.422E-6 20$OC=9.95E-8 14
88ZR L 2139.71 14 4+
88ZR G 1082.6 1 103 4 E2 5.60E-4
88ZRS G KC=0.000495 7$LC=5.48E-5 8$MC=9.50E-6 14$NC=1.346E-6 19$OC=9.43E-8 14
88ZR L 2539.11 16 5-
88ZR G 399.4 1 31.8 12 E1 0.00227
88ZRS G KC=0.00201 3$LC=0.000221 4$MC=3.83E-5 6$NC=5.41E-6 8$OC=3.75E-7 6
88ZR L 2801.31 16 5-
88ZR G 262.2 1 0.03 1 M1(+E2) 0.025 10 0.3 1
88ZRX G K/T=0.021 8$L/T=0.0026 11$M/T=0.00045 19$N/T=6.E-5 3$O/T=3.9E-6 14
88ZRS G KC=0.022 9$LC=0.0027 12$MC=0.00046 20$NC=6.E-5 3$OC=4.0E-6 14
88ZR cG RI$deduced from I(|g+ce) and |a
88ZR G 661.6 1 0.06 3 [E1] 6.76E-4 0.06 3
88ZRX G K/T=0.000597 9$L/T=6.53E-5 10$M/T=1.131E-5 16$N/T=1.605E-6 23$
88ZRX G O/T=1.127E-7 16
88ZRS G KC=0.000598 9$LC=6.54E-5 10$MC=1.132E-5 16$NC=1.606E-6 23$
88ZRS G OC=1.128E-7 16
88ZR cG RI$deduced from I(|g+ce) and |a
88ZR L 2810.92 16 6+
88ZR G 271.8 1 30.1 9 E1 0.00637
88ZRX G EKC=0.0046 12
88ZRS G KC=0.00562 8$LC=0.000623 9$MC=0.0001077 16$NC=1.518E-5 22$
88ZRS G OC=1.034E-6 15
88ZR cG M,EKC$from Ice(K)(271)/Ice(K)(77)=0.0027 {i3} (1974Ba55) if the 77|g
88ZR2cG is pure E2.
88ZR G 671.2 1 64 2 E2 0.00181
88ZRS G KC=0.001595 23$LC=0.000182 3$MC=3.15E-5 5$NC=4.44E-6 7$OC=3.02E-7 5
88ZR E 6 3 0.3 1 6.90 22 6 3 ?
88ZRS E EAV=1649 29$CK=0.0391 20$CL=0.00465 23$CM+=0.00104 5
88ZR L 2887.94 18 8+
88ZR G 77.0 1 22.4 7 E2 2.87
88ZRS G KC=2.29 4$LC=0.486 8$MC=0.0855 13$NC=0.01103 17$OC=0.000355 6
88ZR cG $|a(K)/|a(L)=4.5 {I5}, |a(L)/|a(M)=6.0 {I7} (1974Ba55).
88ZR cG M$from |a(K)/|a(L) and |a(L)/|a(M)
88ZR E 25 5 1.2 2 6.23 9 26 5
88ZRS E EAV=1612 29$CK=0.0416 21$CL=0.00494 25$CM+=0.00111 6
88ZR L 3213.83 17 (6+)
88ZR G 402.9 0.6 2
88ZRF G FLAG=DC
88ZR G 1074.1 1 1.8 3
88ZR E 1.0 4 0.069 257.42 17 1.1 4 ?
88ZRS E EAV=1457 29$CK=0.055 3$CL=0.0065 4$CM+=0.00146 8
88ZR L 3390.85 20 8+
88ZR G 177.0 0.06 6
88ZRF G FLAG=D
88ZR G 502.9 1 60 4
88ZR E 54 4 4.3 4 5.59 5 58 4
88ZRS E EAV=1374 29$CK=0.064 4$CL=0.0076 5$CM+=0.00171 10
88ZR L 3484.1 5 (7-)
88ZR G 673.2
88ZRF G FLAG=DA
88ZR G 945.0 5 0.34 6
88ZR E 0.31 6 0.027 5 7.76 9 0.34 6
88ZRS E EAV=1330 29$CK=0.070 5$CL=0.0083 5$CM+=0.00186 11
88ZR L 3618.1 3 (7-)
88ZR G 807.0 3 0.31 6 C
88ZR G 817.0 4 0.36 5 C
88ZRF G FLAG=B
88ZR E 0.61 7 0.061 8 7.38 7 0.67 8
88ZRS E EAV=1267 29$CK=0.080 5$CL=0.0095 6$CM+=0.00212 13
88ZR L 4237.1 4 (7,8+)
88ZR G 1349.1 5 0.33 6
88ZR G 1426.3 6 0.28 9 ?
88ZR E 0.50 9 0.11 2 6.98 10 0.61 11
88ZRS E EAV=978 28$CK=0.154 12$CL=0.0183 14$CM+=0.0041 3
88ZR L 4348.5 4
88ZR G 957.6 4 0.36 6 C
88ZR G 1134.6 10 C
88ZRF G FLAG=A
88ZR E 0.29 5 0.072 137.12 9 0.36 6
88ZRS E EAV=927 28$CK=0.175 13$CL=0.0209 16$CM+=0.0047 4
88ZR L 4388.5 3 (7,8+)
88ZR G 997.6 3 0.41 6 C
88ZR G 1174.7 5 0.44 5 ?
88ZR E 0.54 7 0.14 2 6.81 8 0.68 9
88ZRS E EAV=908 28$CK=0.184 14$CL=0.0219 17$CM+=0.0049 4
88ZR L 4462.0 3 (7,8+)
88ZR G 1071.2 0.47 18 C
88ZRF G FLAG=D
88ZR G 1247.8 5 0.24 7 C
88ZR G 1573.9 3 0.54 7 C
88ZR G 1651.6 4 0.49 7 C
88ZR E 1.34 170.40 6 6.35 8 1.74 22
88ZRS E EAV=875 28$CK=0.201 16$CL=0.0239 19$CM+=0.0054 5
88ZR L 4612.8 6 9+
88ZR G 1221.9 6 0.47 11 C
88ZR E 0.34 8 0.13 3 6.79 12 0.47 11
88ZRS E EAV=805 28$CK=0.242 19$CL=0.0288 23$CM+=0.0065 5
88ZR L 4934.6 3 (7,8+)
88ZR G 546.1 5 0.17 4 C
88ZR G 586.1 5 ?
88ZRF G FLAG=A
88ZR G 1543.7 0.58 7 C
88ZRF G FLAG=D
88ZR G 1720.8 4 0.49 6 ?
88ZR E 0.72 7 0.52 6 6.09 7 1.24 10
88ZRS E EAV=659 27$CK=0.36 3$CL=0.043 4$CM+=0.0097 8
88ZR L 5088.0 3 (7,8+)
88ZR G 2277.1 3 0.42 4 C
88ZR E 0.21 3 0.21 3 6.42 7 0.42 4
88ZRS E EAV=590 27$CK=0.44 4$CL=0.052 4$CM+=0.0117 9
88ZR L 5787.4 5 (7,8,9)
88ZR G 2396.5 5 0.21 4
88ZR E 0.016 6 0.19 4 6.15 10 0.21 4
88ZRS E EAV=283 26$CK=0.806 22$CL=0.097 3$CM+=0.0218 6