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Thermodynamically Consistent Equation of State for an Accreted Neutron Star Crust

M. E. Gusakov, A. I. Chugunov

2020Physical Review Letters36 citationsDOIOpen Access PDF

Abstract

We study the equation of state (EOS) of an accreting neutron star crust. Usually, such an EOS is obtained by assuming (implicitly) that the free (unbound) neutrons and nuclei in the inner crust move together. We argue that this assumption violates the condition μ_{n}^{∞}=const, required for hydrostatic (and diffusion) equilibrium of unbound neutrons (μ_{n}^{∞} is the redshifted neutron chemical potential). We construct a new EOS respecting this condition, working in the compressible liquid-drop approximation. We demonstrate that it is close to the catalyzed EOS in most of the inner crust, being very different from EOSs of accreted crust discussed in the literature. In particular, the pressure at the outer-inner crust interface does not coincide with the neutron drip pressure, usually calculated in the literature, and is determined by hydrostatic (and diffusion) equilibrium conditions within the star. We also find an instability at the bottom of the fully accreted crust that transforms nuclei into homogeneous nuclear matter. It guarantees that the structure of the fully accreted crust remains self-similar during accretion.

Topics & Concepts

Neutron starCrustPhysicsHydrostatic equilibriumEquation of stateNeutronAccretion (finance)DiffusionAstrophysicsNuclear physicsThermodynamicsQuantum mechanicsGeophysicsHigh-pressure geophysics and materialsNuclear physics research studiesAstro and Planetary Science
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