Two-body correlation transport theory for heavy ion collision

Abstract

Abstract A two-body correlation transport theory (TBCTT) for describing the dynamical process in heavy ion collisions has been proposed by means of coupling the equation of motion for coherent single particle (representation basis) states with two-body correlation dynamics. This model contains time-dependent mean field effects, two-body correlations to all orders of interactions as well as fermionic (antisymmetric) effects. It is capable of describing the time-evolution of nonuniform nuclear matter including dynamical fluctuations and dynamical formation of fragments in heavy ion collisions. The preliminary numerical results show that this model is promising for the description of heavy ion collision dynamics.