Hybrid stars with large quark cores within the parity doublet model and modified NJL model
Abstract
Using the parity doublet model (PDM) for hadronic matter and a modified Nambu-Jona-Lasinio (NJL) model for quark matter, we investigate the potential existence of two- and three-flavor quark matter in neutron star cores. Both models respect chiral symmetry, and a sharp first-order phase transition is implemented via Maxwell construction. We find stable neutron stars with quark cores within a specific parameter space that satisfies current astronomical observations. Typical neutron stars with masses around 1.4 \ M may possess deconfined quark matter in their centers. The hybrid star scenario with a two-flavor quark core offers enough parameter space to allow the neutron stars with large quark cores exceeding 1\ M, and allow the early deconfinement position before 2\ 0, where 0 is the nuclear saturation density. The observations of gravitational wave event GW170817 suggest a relatively large chiral invariant mass m0=600\ MeV in the PDM for scenarios involving three-flavor quark matter cores. The maximum mass of the hybrid star with a quark core is found to be approximately 2.2\ M for both two- or three-flavor quark matter in their centers.
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