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Multiphase AGN Winds from X-Ray-irradiated Disk Atmospheres

Tim Waters, Daniel Proga, Randall Dannen

2021The Astrophysical Journal41 citationsDOIOpen Access PDF

Abstract

Abstract The mechanism of thermal driving for launching mass outflows is interconnected with classical thermal instability (TI). In a recent paper, we demonstrated that as a result of this interconnectedness, radial wind solutions of X-ray-heated flows are prone to becoming clumpy. In this paper, we first show that the Bernoulli function determines whether or not the entropy mode can grow due to TI in dynamical flows. Based on this finding, we identify a critical “unbound” radius beyond which TI should accompany thermal driving. Our numerical disk wind simulations support this result and reveal that clumpiness is a consequence of buoyancy disrupting the stratified structure of steady-state solutions. Namely, instead of a smooth transition layer separating the highly ionized disk wind from the cold phase atmosphere below, hot bubbles formed from TI rise up and fragment the atmosphere. These bubbles first appear within large-scale vortices that form below the transition layer, and they result in the episodic production of distinctive cold phase structures referred to as irradiated atmospheric fragments (IAFs). Upon interacting with the wind, IAFs advect outward and develop extended crests. The subsequent disintegration of the IAFs takes place within a turbulent wake that reaches high elevations above the disk. We show that this dynamics has the following observational implications: dips in the absorption measure distribution are no longer expected within TI zones, and there can be a less sudden desaturation of X-ray absorption lines such as O viii Ly α as well as multiple absorption troughs in Fe xxv K α .

Topics & Concepts

PhysicsAstrophysicsThermalWakeInstabilityRADIUSAbsorption (acoustics)MechanicsAtmosphere (unit)TurbulenceVortexBuoyancyJet (fluid)IonizationThermal windConvectionPhase (matter)Stratification (seeds)ExoplanetAtmospheric instabilityCoalescence (physics)Astrophysical Phenomena and ObservationsAstrophysics and Cosmic PhenomenaLaser-Plasma Interactions and Diagnostics
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