On Cooling of Neutron Stars With Stiff Equation of State Including Hyperons

Abstract

The existence of high mass ( 2M) pulsars PSR J1614-2230 and PSR J0348-0432 requires the compact star matter to be described by a stiff equation of state (EoS). Presence of hyperons in neutron stars leads to a softening of the EoS that results in a decrease of the maximum neutron-star mass below the measured values of masses for PSR J1614-2230 and PSR J0348-0432 pulsars if one exploits ordinary relativistic mean-field (RMF) models (hyperon puzzle). However, within an RMF EoS with a sigma-scaled hadron effective masses and coupling constants, the maximum neutron-star mass remains above 2M even when hyperons are included. Also, other important constraints on the equation of state, e.g. the flow constraint from heavy-ion collisions are to be fulfilled. We demonstrate how a satisfactory explanation of all existing observational data for the temperature-age relation is reached within the "nuclear medium cooling" scenario with a relativistic-mean-field EoS with a sigma-scaled hadron effective masses and coupling constants including hyperons.