Hydrostatic equilibrium configurations of neutron stars in a non-minimal geometry-matter coupling theory of gravity

Abstract

In this work we analyze hydrostatic equilibrium configurations of neutron stars in a non-minimal geometry-matter coupling (GMC) theory of gravity. We begin with the derivation of the hydrostatic equilibrium equations for the f(R,L) gravity theory, where R and L are the Ricci scalar and Lagrangian of matter, respectively. We assume f(R,L)=R/2+[1+σ R]L, with σ constant. To describe matter inside neutron stars we assume the polytropic equation of state p=K γ, with K and γ = 5/3 being constants. We show that in this theory it is possible to reach the mass of massive pulsars such as PSR J2215+5135. As a feature of the GMC theory, very compact neutron stars with radius 8km and M 2.6M are stable, thus surpassing the Buchdal and Schwarzschild radius limits. Moreover, the referred stellar diameter is obtained within the range of observational data.