Abstract
The reaction dynamics of various even-mass Zr isotopes is studied using the collective clusterization approach of the dynamical cluster decay model (DCM). The role of iso-spin (N/Z ratio) and deformation is explored by analysing the decay pattern of various Zr-nuclei formed in 16O induced reactions. Also, the entrance channel effect is investigated by studying the decay of the 92Zr* nuclear system formed in two different reactions at comparable excitation energy. In order to obtain a clear picture of the dynamics involved in the reactions under consideration, the behavior of the fragmentation potential and the preformation factor is analyzed. The DCM calculated cross-sections find nice agreement with available experimental data.
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