Shell effects on the drift and fluctuation in multinucleon transfer reactions
Zehong Liao, Zepeng Gao, Yang Yu, Long Zhu, Jun Su
Abstract
This study employs the dinuclear system model (DNS-sysu) to investigate drift and fluctuation mechanisms in $^{136}\mathrm{Xe}+^{209}\mathrm{Bi}$ collisions above the Coulomb barrier. The DNS-sysu model demonstrated its effectiveness in providing reasonable descriptions of drift and fluctuation dynamics for the multinucleon transfer reaction at low energies. We investigate temperature-induced changes in the shell effect, which impacts nucleon transfer. At higher energies, the weakening constraint of the potential energy surface leads to a reversal in evolution direction. Additionally, the consideration of shell corrections notably affects fragment distribution at low energies but diminishes for high-energy conditions. This research provides valuable insights into understanding the macroscopic manifestation of nucleon transfer in the multinucleon transfer reaction.