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Black Hole Flares: Ejection of Accreted Magnetic Flux through 3D Plasmoid-mediated Reconnection

Bart Ripperda, Matthew Liska, Koushik Chatterjee, Gibwa Musoke, Alexander Philippov, Sera Markoff, Alexander Tchekhovskoy, Ziri Younsi

2022The Astrophysical Journal Letters260 citationsDOIOpen Access PDF

Abstract

Abstract Magnetic reconnection can power bright, rapid flares originating from the inner magnetosphere of accreting black holes. We conduct extremely high-resolution (5376 × 2304 × 2304 cells) general-relativistic magnetohydrodynamics simulations, capturing plasmoid-mediated reconnection in a 3D magnetically arrested disk for the first time. We show that an equatorial, plasmoid-unstable current sheet forms in a transient, nonaxisymmetric, low-density magnetosphere within the inner few Schwarzschild radii. Magnetic flux bundles escape from the event horizon through reconnection at the universal plasmoid-mediated rate in this current sheet. The reconnection feeds on the highly magnetized plasma in the jets and heats the plasma that ends up trapped in flux bundles to temperatures proportional to the jet’s magnetization. The escaped flux bundles can complete a full orbit as low-density hot spots, consistent with Sgr A* observations by the GRAVITY interferometer. Reconnection near the horizon produces sufficiently energetic plasma to explain flares from accreting black holes, such as the TeV emission observed from M87. The drop in the mass accretion rate during the flare and the resulting low-density magnetosphere make it easier for very-high-energy photons produced by reconnection-accelerated particles to escape. The extreme-resolution results in a converged plasmoid-mediated reconnection rate that directly determines the timescales and properties of the flare.

Topics & Concepts

PhysicsPlasmoidMagnetic reconnectionAstrophysicsMagnetosphereCurrent sheetMagnetohydrodynamicsEvent horizonPlasmaEvent (particle physics)Quantum mechanicsAstrophysical Phenomena and ObservationsAstrophysics and Cosmic PhenomenaPulsars and Gravitational Waves Research
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