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Vortices in Black Holes

Gia Dvali, Florian Kühnel, Michael Zantedeschi

2022Physical Review Letters20 citationsDOIOpen Access PDF

Abstract

We argue that black holes admit vortex structure. This is based both on a graviton-condensate description of a black hole as well as on a correspondence between black holes and generic objects with maximal entropy compatible with unitarity, so-called saturons. We show that due to vorticity, a Q-ball-type saturon of a calculable renormalizable theory obeys the same extremality bound on the spin as the black hole. Correspondingly, a black hole with extremal spin emerges as a graviton condensate with vorticity. This offers a topological explanation for the stability of extremal black holes against Hawking evaporation. Next, we show that in the presence of mobile charges, the global vortex traps a magnetic flux of the gauge field. This can have macroscopically observable consequences. For instance, the most powerful jets observed in active galactic nuclei can potentially be accounted for. As a signature, such emissions can occur even without a magnetized accretion disk surrounding the black hole. The flux entrapment can provide an observational window to various hidden sectors, such as millicharged dark matter.

Topics & Concepts

PhysicsBlack hole (networking)GravitonRotating black holeVorticityBlack hole thermodynamicsHawking radiationVortexEntropy (arrow of time)GravitationClassical mechanicsQuantum mechanicsAngular momentumMechanicsRouting protocolRouting (electronic design automation)Computer scienceComputer networkLink-state routing protocolBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesAstrophysical Phenomena and Observations
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