Universality of Shell Effects in Fusion-Fission Mass Distributions
Abstract
We present the results of a broad, systematic study of heavy-ion induced fission mass distributions for every even-Z compound nucleus (ZCN) from 144Gd to 212Th. We find systematic evidence of shell-driven structure in every fission mass distribution. The change in shape of the mass distributions with ZCN is consistent with the results of quantitative simultaneous fitting in mass and total kinetic energy, demonstrating that fragment proton shell gaps at ZFF = 34, 36 and ZFF = 44, 46 are both major drivers of fission mass distributions below the actinide region. The mass distributions show enhanced yields at mass symmetry for values of ZCN equal to two times these favoured ZFF values. Thus, the same shell gaps that are drivers of mass-asymmetric fission also affect mass distributions at and near mass-symmetry. For all systems a second, more mass-asymmetric, fission mode is required to fit the fission mass distributions. If driven by a single shell gap, it appears to be in the light fragment around ZFF = 28, 30.
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