Investigation of the quasifission process by theoretical analysis of experimental data of fissionlike reaction products

Details Investigation of the quasifission process by theoretical analysis of experimental data of fissionlike reaction products Investigation of the quasifission process by theoretical analysis of experimental data of fissionlike reaction products

2011-03-31

arxiv.org/abs/1103.6142v1

Journal of Physics: Conference Series 282 (2011) 012006

Physics

Nuclear Physics

Nuclear Theory

21 pages, 15 figures, 2 tables

Scientific paper

10.1088/1742-6596/282/1/012006

The fusion excitation function is the important quantity in planning experiments for the synthesis of superheavy elements. Its values seem to be determined by the experimental study of the hindrance to complete fusion by the observation of mass, angular and energy distributions of the fissionlike fragments. There is ambiguity in establishment of the reaction mechanism leading to the observed binary fissionlike fragments. The fissionlike fragments can be produced in the quasifission, fast fission, and fusion-fission processes which have overlapping in the mass (angular, kinetic energy) distributions of fragments. The branching ratio between quasifission and complete fusion strongly depends on the characteristics of the entrance channel. In this paper we consider a wide set of reactions (with different mass asymmetry and mass symmetry parameters) with the aim to explain the role played by many quantities on the reaction mechanisms. We also present the results of study of the $^{48}$Ca+$^{249}$Bk reaction used to synthesize superheavy nuclei with Z = 117 by the determination of the evaporation residue cross sections and the effective fission barriers $$ of excited nuclei formed along the de-excitation cascade of the compound nucleus.

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