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First M87 Event Horizon Telescope Results. IX. Detection of Near-horizon Circular Polarization

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arxiv 2311.10976 v1 pith:TD44I3NL submitted 2023-11-18 astro-ph.HE astro-ph.GA

First M87 Event Horizon Telescope Results. IX. Detection of Near-horizon Circular Polarization

classification astro-ph.HE astro-ph.GA
keywords polarizationcircularblackemissionholemethodspolarizedtelescope
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Event Horizon Telescope (EHT) observations have revealed a bright ring of emission around the supermassive black hole at the center of the M87 galaxy. EHT images in linear polarization have further identified a coherent spiral pattern around the black hole, produced from ordered magnetic fields threading the emitting plasma. Here, we present the first analysis of circular polarization using EHT data, acquired in 2017, which can potentially provide additional insights into the magnetic fields and plasma composition near the black hole. Interferometric closure quantities provide convincing evidence for the presence of circularly polarized emission on event-horizon scales. We produce images of the circular polarization using both traditional and newly developed methods. All methods find a moderate level of resolved circular polarization across the image ($\langle|v|\rangle < 3.7\%$), consistent with the low image-integrated circular polarization fraction measured by the ALMA array ($|v_{\rm int}| < 1\%$). Despite this broad agreement, the methods show substantial variation in the morphology of the circularly polarized emission, indicating that our conclusions are strongly dependent upon the imaging assumptions because of the limited baseline coverage, uncertain telescope gain calibration, and weakly polarized signal. We include this upper limit in an updated comparison to general relativistic magnetohydrodynamic (GRMHD) simulation models. This analysis reinforces the previously reported preference for magnetically arrested accretion flow models. We find that most simulations naturally produce a low level of circular polarization consistent with our upper limit, and that Faraday conversion is likely the dominant production mechanism for circular polarization at 230 GHz in M87*.

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Cited by 5 Pith papers

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  4. Photon Propagation and Black Hole Imaging in Kruglov Nonlinear Electrodynamics

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