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Equation of state of neutron star matter and its warm extension with an interacting hadron resonance gas

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arxiv 2109.06799 v2 pith:Z6VMSHQQ submitted 2021-09-14 nucl-th astro-ph.HEhep-ph

Equation of state of neutron star matter and its warm extension with an interacting hadron resonance gas

classification nucl-th astro-ph.HEhep-ph
keywords densitybaryonequationhighstatetemperaturehadronmatter
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We propose an interpolating equation of state that satisfies phenomenologically established boundary conditions in two extreme regimes at high temperature and low baryon density and at low temperature and high baryon density. We confirm that the hadron resonance gas model with the Carnahan-Starling excluded volume effect can reasonably fit the empirical equation of state at high density up to several times the normal nuclear density. We identify the onsets of strange particles and quantify the strangeness contents in dense matter. We finally discuss the finite temperature effects and estimate the thermal index $\Gamma_{\rm th}$ as a function of the baryon density, which should be a crucial input for the core-collapse supernova and the binary neutron star merger simulations.

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