Radiative Reconnection-powered TeV Flares from the Black Hole Magnetosphere in M87

Hakobyan, H. and Ripperda, B. and Philippov, A. A. (2023) Radiative Reconnection-powered TeV Flares from the Black Hole Magnetosphere in M87. The Astrophysical Journal Letters, 943 (2). L29. ISSN 2041-8205

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Abstract

Active galactic nuclei in general, and the supermassive black hole in M87 in particular, show bright and rapid gamma-ray flares up to energies of 100 GeV and above. For M87, the flares show multiwavelength components, and the variability timescale is comparable to the dynamical time of the event horizon, suggesting that the emission may come from a compact region near the nucleus. However, the emission mechanism for these flares is not well understood. Recent high-resolution general-relativistic magnetohydrodynamic simulations show the occurrence of episodic magnetic reconnection events that can power flares near the black hole event horizon. In this work, we analyze the radiative properties of the reconnecting current layer under the extreme plasma conditions applicable to the black hole in M87 from first principles. We show that abundant pair production is expected in the vicinity of the reconnection layer, to the extent that the produced secondary pair plasma dominates the reconnection dynamics. Using analytic estimates backed by two-dimensional particle-in-cell simulations, we demonstrate that in the presence of strong synchrotron cooling, reconnection can produce a hard power-law distribution of pair plasma imprinted in the outgoing synchrotron (up to a few tens of MeV) and the inverse-Compton signal (up to TeV). We produce synthetic radiation spectra from our simulations, which can be directly compared with the results of future multiwavelength observations of M87* flares.

Item Type: Article
Subjects: Journal Eprints > Physics and Astronomy
Depositing User: Managing Editor
Date Deposited: 20 Apr 2023 05:32
Last Modified: 14 Mar 2024 04:31
URI: http://repository.journal4submission.com/id/eprint/1797

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