ADOPTED LEVELS for 116Mo
Author: Balraj Singh | Citation: ENSDF | Cutoff date: 20-JUL-2015
Author: Balraj Singh | Citation: ENSDF | Cutoff date: 15-AUG-2010
Full ENSDF file | Adopted Levels (PDF version)
Q(β-)=9960 keV SY | S(n)= 4820 keV SY | S(p)= 17440 keV SY | Q(α)= -10110 keV SY | ||
Reference: 2012WA38 |
E(level) (keV) | Jπ(level) | T1/2(level) |
0 | 0+ | 32 ms 4 % β- = ? % β-n = ? % β-2n = ? |
Additional Level Data and Comments:
E(level) | Jπ(level) | T1/2(level) | Comments |
0 | 0+ | 32 ms 4 % β- = ? % β-n = ? % β-2n = ? | Probability of misidentification of 116Mo isotope<0.001% (2010Oh02). |
2010Oh02: 116Mo nuclide identified in Be(238U,F) and Pb(238U,F) reactions with a 238U86+ beam energy of 345 MeV/nucleon produced by the cascade operation of the RBIF accelerator complex of the linear accelerator RILAC and four cyclotrons RRC, fRC, IRC and SRC. Identification of 116Mo nuclei was made on the basis of magnetic rigidity, time-of-flight and energy loss of the fragments using BigRIPS fragment separator. Experiments performed at RIKEN facility. Based on α/Q spectrum and Z versus α/Q plot, 78 counts were assigned to 116Mo isotope. (Q=charge state)
2015Lo04: 116Mo nuclide produced at RIBF-RIKEN facility in 9Be(238U,F) reaction at E=345 MeV/nucleon with an average intensity of 6×1010 ions/s. Identification of 116Mo was made by determining atomic Z and mass-to-charge ratio α/Q, where Q=charge state of the ions. The selectivity of ions was based on magnetic rigidity, time-of-flight and energy loss. The separated nuclei were implanted at a rate of 50 ions/s in a stack of eight double-sided silicon-strip detector (WAS3ABi), surrounded by EURICA array of 84 HPGe detectors. Correlations were recorded between the implanted ions and β rays. The half-life of 116Mo isotope was measured from the correlated ion-β decay curves and maximum likelihood analysis technique as described in 2014Xu07. Comparison of measured half-lives with FRDM+QRPA, KTUY+GT2 and DF3+CQRPA theoretical calculations
1997Sk01: calculated ground state, excited minimum, quadrupole moment
Q-value: Estimated uncertainties (2012Wa38): 580 for Q(β-), 640 for S(n), 710 for S(p), 860 for Q(α)
Q-value: Q(β-n)=6340 540, S(2n)=7840 580 (syst,2012Wa38). S(2p)=32700 (1997Mo25,theory)