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Adiabatic Index in Fluid Models of Collisionless Black Hole Accretion

Charles F. Gammie

2025The Astrophysical Journal13 citationsDOIOpen Access PDF

Abstract

Abstract Models of highly sub-Eddington accretion onto black holes commonly use a single-fluid model for the collisionless, near-horizon plasma. These models must specify an equation of state. It is common to use an ideal gas with p = ( γ − 1) u and γ = 4/3, 13/9, or 5/3, but these produce significantly different outcomes. We discuss the origins of this discrepancy and the assumptions underlying the single-fluid model. The main result of this investigation is that under conditions relevant to low-luminosity black hole accretion the best choice of single-fluid adiabatic index is close to but slightly less than 5/3. Along the way we provide a simple equilibrium model for the relation between the ion-to-electron dissipation ratio and the ion-to-electron temperature ratio, and explore the implications for electron temperature fluctuations in Event Horizon Telescope sources.

Topics & Concepts

PhysicsAdiabatic processAccretion (finance)AstrophysicsEvent horizonBlack hole (networking)DissipationPerfect fluidPlasmaEquation of stateHorizonEvent (particle physics)Classical mechanicsThermodynamicsQuantum mechanicsAstronomyRouting (electronic design automation)Routing protocolLink-state routing protocolComputer networkComputer scienceAstrophysical Phenomena and ObservationsPulsars and Gravitational Waves ResearchAstrophysics and Cosmic Phenomena
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