Synthetic Images of Magnetospheric Reconnection-Powered Radiation around Supermassive Black Holes

Accreting supermassive black holes can now be observed at the event-horizon scale at millimeter wavelengths. Current predictions for the image rely on hypotheses (fluid modeling, thermal electrons) which might not always hold in the vicinity of the black hole, so that a full kinetic treatment is in...

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Published in:Physical review letters 2022-11, Vol.129 (20), p.205101-205101, Article 205101
Main Authors: Crinquand, Benjamin, Cerutti, Benoît, Dubus, Guillaume, Parfrey, Kyle, Philippov, Alexander
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Sciences of the Universe
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container_issue 20
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container_title Physical review letters
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description Accreting supermassive black holes can now be observed at the event-horizon scale at millimeter wavelengths. Current predictions for the image rely on hypotheses (fluid modeling, thermal electrons) which might not always hold in the vicinity of the black hole, so that a full kinetic treatment is in order. In this Letter, we describe the first 3D global general-relativistic particle-in-cell simulation of a black-hole magnetosphere. The system displays a persistent equatorial current sheet. Synthetic radio images are computed by ray-tracing synchrotron emission from nonthermal particles accelerated in this current sheet by magnetic reconnection. We identify several time-dependent features of the image at moderate viewing angles: a variable radius of the ring, and hot spots moving along it. In this regime, our model predicts that most of the flux of the image lies inside the critical curve. These results could help promote understanding of future observations of black-hole magnetospheres at improved temporal and spatial resolution.
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subjects Sciences of the Universe
title Synthetic Images of Magnetospheric Reconnection-Powered Radiation around Supermassive Black Holes
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