Dissipative dynamics in quasi-fission

Abstract

Quasi-fission is the primary reaction mechanism that prevents the formation of superheavy elements in heavy-ion fusion experiments. Employing the time-dependent density functional theory approach we study quasi-fission in the systems 40,48Ca+238U. Results show that for 48Ca projectiles the quasi-fission is substantially reduced in comparison to the 40Ca case. This partly explains the success of superheavy element formation with 48Ca beams. For the first time, we also calculate the repartition of excitation energies of the two fragments in a dynamic microscopic theory. The system is found in quasi-thermal equilibrium only for reactions with 40Ca. The differences between both systems are interpreted in terms of initial neutron to proton asymmetry of the colliding partners.