Time-Dependent Description of Incomplete Fusion of Nuclei and Cluster and Nucleon-Transfer Reactions

Abstract

A numerical solution of the time-dependent Schrodinger equation is applied in studying the dynamics of incomplete fusion of nuclei and cluster- and nucleon-transfer reactions at energies near the Coulomb barrier. The evolution of wave functions for all nucleons is used to describe multineutron- and multiproton-transfer reactions in 40Ca+124Sn collisions. The results of the calculations are in satisfactory agreement with experimental data. The evolution of the alpha-cluster wave function in the 12C nucleus is used to calculate the incomplete-fusion cross section for the 12C+51V reaction. Agreement with experimental data for the (12C, α) and (12C, 2α) channels is attained.