Dynamical conditions and causal transport of dissipative spherical collapse in f(R,T) gravity

Abstract

In this paper, we have investigated the non-adiabatic spherical gravitational collapse in the framework of the f(R,T) theory of gravity with a locally anisotropic fluid that undergoes dissipation in the form of heat flux, free-streaming radiation, and shearing viscosity. The dynamical equations are analyzed in detail, both in the Newtonian and post-Newtonian regimes. Finally we couple the dynamical equations to the full causal transport equation in the context of Israel-Stewart theory of dissipative systems. This yields us a better understanding of the collapse dynamics and may be connected to various astrophysical consequences.