Plasma-photon interaction in curved spacetime: Formalism and quasibound states around nonspinning black holes

We investigate the linear dynamics of an electromagnetic field propagating in curved spacetime in the presence of plasma. The dynamical equations are generically more involved and richer than the effective Proca equation adopted as a model in previous work. We discuss the general equations and focus...

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Bibliographic Details
Published in:Physical review. D 2021-06, Vol.103 (12), p.1, Article 124018
Main Authors: Cannizzaro, Enrico, Caputo, Andrea, Sberna, Laura, Pani, Paolo
Format: Article
Language:English
Subjects:
Black holes
Cold plasmas
Electromagnetic fields
Photons
Plasma
Scalars
Spacetime
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Summary:We investigate the linear dynamics of an electromagnetic field propagating in curved spacetime in the presence of plasma. The dynamical equations are generically more involved and richer than the effective Proca equation adopted as a model in previous work. We discuss the general equations and focus on the case of a cold plasma in the background of a spherically symmetric black hole, showing that the system admits plasma-driven, quasibound electromagnetic states that are prone to become superradiantly unstable when the black hole rotates. The quasibound states are different from those of the Proca equation and have some similarities with the case of a massive scalar field, suggesting that the linear instability can be strongly suppressed compared to previous estimates. Our framework provides the first step toward a full understanding of the plasma-photon interactions around astrophysical black holes.
ISSN:2470-0010
2470-0029
DOI:10.1103/PhysRevD.103.124018