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Magnetically charged black holes from non-linear electrodynamics and the Event Horizon Telescope

Alireza Allahyari, Mohsen Khodadi, Sunny Vagnozzi, David F. Mota

2020Journal of Cosmology and Astroparticle Physics298 citationsDOIOpen Access PDF

Abstract

Non-linear electrodynamics (NLED) theories are well-motivated extensions of QED in the strong field regime, and have long been studied in the search for regular black hole (BH) solutions. We consider two well-studied and well-motivated NLED models coupled to General Relativity: the Euler-Heisenberg model and the Bronnikov model. After carefully accounting for the effective geometry induced by the NLED corrections, we determine the shadows of BHs within these two models. We then compare these to the shadow of the supermassive BH M87* recently imaged by the Event Horizon Telescope collaboration. In doing so, we are able to extract upper limits on the black hole magnetic charge, thus providing novel constraints on fundamental physics from this new extraordinary probe.

Topics & Concepts

PhysicsEvent horizonSupermassive black holeBlack hole (networking)FuzzballHorizonQuantum electrodynamicsEvent (particle physics)TelescopeShadow (psychology)AstrophysicsField (mathematics)Binary black holeMicro black holeTheoretical physicsHawking radiationRotating black holeMagnetic fieldStellar black holePenrose processClassical mechanicsCharged particleCharged black holeAxionParticle physicsIntermediate-mass black holePhysics beyond the Standard ModelAstronomyBlack hole thermodynamicsGravitationGeneral relativityApparent horizonAstrophysical Phenomena and ObservationsBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research
Magnetically charged black holes from non-linear electrodynamics and the Event Horizon Telescope | Litcius