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Relativistic Bondi accretion for stiff equations of state

Chloe Richards, Thomas W. Baumgarte, Stuart L. Shapiro

2021Monthly Notices of the Royal Astronomical Society25 citationsDOIOpen Access PDF

Abstract

ABSTRACT We revisit Bondi accretion – steady-state, adiabatic, spherical gas flow on to a Schwarzschild black hole at rest in an asymptotically homogeneous medium – for stiff polytropic equations of state (EOSs) with adiabatic indices Γ > 5/3. A general relativistic treatment is required to determine their accretion rates, for which we provide exact expressions. We discuss several qualitative differences between results for soft and stiff EOSs – including the appearance of a minimum steady-state accretion rate for EOSs with Γ ≥ 5/3 – and explore limiting cases in order to examine these differences. As an example, we highlight results for Γ = 2, which is often used in numerical simulations to model the EOS of neutron stars. We also discuss a special case with this index, the ultrarelativistic ‘causal’ EOS, P = ρ. The latter serves as a useful limit for the still undetermined neutron star EOS above nuclear density. The results are useful, for example, to estimate the accretion rate on to a mini-black hole residing at the centre of a neutron star.

Topics & Concepts

PhysicsPolytropic processNeutron starAccretion (finance)Adiabatic processAstrophysicsPolytropeEquation of stateSchwarzschild radiusSchwarzschild metricClassical mechanicsGeneral relativityQuantum mechanicsPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsHigh-Energy Particle Collisions Research
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