Many-body collective motion theory for non-equilibrium processes of a macroscopic quantum system

Abstract

Many-body collective variable theory is used to derive the self-consistent Wigner distribution function describing the non-equilibrium properties of a macroscopic quantum system. The approximate equation of motion for this semi-classical function is the generalized quantum Boltzmann equation in the presence of self-consistent time dependent mean field and the collision term arising from the residual interaction.