Quark confinement in an equiparticle quark model: application to stellar matter

Abstract

We perform an improvement in a thermodynamical consistent model with density dependent quark masses (m'u,d,s) by introducing effects of quark confinement/deconfinement phase transition, at high density regime and zero temperature, by means of the traced Polyakov loop (). We use realistic values for the current quark masses, provided by the Particle Data Group, and replace the constants of the interacting part of m'u,d,s by functions of , leading to a first order phase transition structure, for symmetric and stellar quark matter, with being the order parameter. We show that the improved model points out the direction of the chiral symmetry restoration due to the emergence of a deconfined phase. In another application, we construct quark stars mass-radius profiles, obtained from this new model, and show to be possible to satisfy recent astrophysical observational data coming from the LIGO and Virgo Collaboration, and the NICER mission concerning the millisecond pulsars PSR J0030+0451, and PSR J0740+6620.

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