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Superradiant production of heavy dark matter from primordial black holes

Nicolás Bernal, Yuber F. Perez-Gonzalez, Yong Xu

2022Physical review. D/Physical review. D.40 citationsDOIOpen Access PDF

Abstract

Rotating black holes (BHs) can efficiently transfer energy to the surrounding environment via superradiance. In particular, when the Compton length of a particle is comparable to the gravitational radius of a BH, the particle's occupation number can be exponentially amplified. In this work, we investigate the effect of the primordial-black-hole (PBH) superradiant instabilities on the generation of heavy bosonic dark matter (DM) with mass above $\ensuremath{\sim}1\text{ }\text{ }\mathrm{TeV}$. Additionally, we analyze its interplay with other purely gravitational and therefore unavoidable DM production mechanisms such as Hawking emission and the ultraviolet freeze-in. We find that superradiance can significantly increase the DM density produced by PBHs with respect to the case that only considers Hawking emission, and hence lower initial PBH densities are required.

Topics & Concepts

Primordial black holePhysicsSuperradianceDark matterHawking radiationGravitational waveRADIUSAstrophysicsBlack hole (networking)Micro black holeHawkingQuantum electrodynamicsBinary black holeQuantum mechanicsUniverseComputer scienceLink-state routing protocolRouting protocolLaserComputer securityRouting (electronic design automation)Computer networkCosmology and Gravitation TheoriesDark Matter and Cosmic PhenomenaGalaxies: Formation, Evolution, Phenomena
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