Constraints on QCD-based equation of state of quark stars from neutron star maximum mass, radius, and tidal deformability observations

Abstract

(Abridged) Neutron stars (NSs), the densest known objects composed of matter, provide a unique laboratory to probe whether strange quark matter is the true ground state of matter. We investigate the parameter space of the equation of state of strange stars using a quantum chromodynamics (QCD)-informed model. The parameters - related to the energy density difference between quark matter and the QCD vacuum, the strength of strong interactions, and the gap parameter for color superconductivity - are sampled via quasi-random Latin hypercube sampling to ensure uniform coverage. To constrain them, we incorporate observational data on the maximum mass of NSs (from binary and merger systems), the radii of 1.4 M NSs (from gravitational wave and electromagnetic observations), and tidal deformabilities (from GW170817). Our results show that quark strong interactions play a key role, requiring at least a 20\% deviation from the free-quark limit. We also find that color superconductivity is relevant, with the gap parameter reaching up to 230 MeV for a strange quark mass of 100 MeV. The surface-to-vacuum energy density jump lies in the range (1.1-2.2) sat, where sat 2.7 × 1014 g cm-3. Observational constraints also imply that a 1.4 M quark star has a radius of (10.0-12.3) km and tidal deformability between 270 and 970. These are consistent with the low mass and radius inferred for the compact object XMMU J173203.3-344518. Our results provide useful inputs for future studies on quark and hybrid stars, including their tidal properties, thermal evolution, quasi-normal modes, and ellipticities.

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