Isospin equilibration in multinucleon transfer reaction at near-barrier energies

Abstract

The isospin equilibration process in multinucleon transfer reaction is investigated by using the improved quantum molecular dynamics model. The collision processes of 124Xe+208Pb at near-barrier energy are studied with different symmetry energy coefficients. We find that neutrons transfer happens earlier than protons. The large symmetry energy promote the transfer of neutrons. The neutron flow from the target to projectile is along the low-density path of neck. The isospin equilibration process in 58Ni+208Pb reaction is also investigated and compared with available experimental data. It shows that N/Z values of the projectile-like products increase rapidly with increasing mass transfer. The complete isospin equilibration events are located in the region of 120<A<150 which are produced in symmetric fission-type reactions.