Study of the Fusion-Fission Process in the $^{35}Cl+^{24}Mg$ Reaction

Details Study of the Fusion-Fission Process in the $^{35}Cl+^{24}Mg$ Reaction Study of the Fusion-Fission Process in the $^{35}Cl+^{24}Mg$ Reaction

1998-04-30

arxiv.org/abs/nucl-ex/9804004v1

Physics

Nuclear Physics

Nuclear Experiment

30 pages standard REVTeX file, 10 eps Figures; to be published at the European Physical Journal A - Hadrons and Nuclei

Scientific paper

10.1007/s100500050121

Fusion-fission and fully energy-damped binary processes of the $^{35}$Cl+$^{24}$Mg reaction were investigated using particle-particle coincidence techniques at a $^{35}$Cl bombarding energy of E$_{lab}$ $\approx$ 8 MeV/nucleon. Inclusive data were also taken in order to determine the partial wave distribution of the fusion process. The fragment-fragment correlation data show that the majority of events arises from a binary-decay process with a relatively large multiplicity of secondary light-charged particles emitted by the two primary excited fragments in the exit channel. No evidence is observed for ternary-breakup processes, as expected from the systematics recently established for incident energies below 15 MeV/nucleon and for a large number of reactions. The binary-process results are compared with predictions of statistical-model calculations. The calculations were performed using the Extended Hauser-Feshbach method, based on the available phase space at the scission point of the compound nucleus. This new method uses temperature-dependent level densities and its predictions are in good agreement with the presented experimental data, thus consistent with the fusion-fission origin of the binary fully-damped yields.

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