We introduce a systematic and direct procedure to generate hairy rotating black holes by deforming a spherically symmetric seed solution. We develop our analysis in the context of the gravitational decoupling approach, without resorting to the Newman-Janis algorithm. As examples of possible applications, we investigate how the Kerr black hole solution is modified by a surrounding fluid with conserved energy- momentum tensor. We find nontrivial extensions of the Kerr and Kerr-Newman black holes with primary hair. We prove that a rotating and charged black hole can have the same horizon as Kerr’s, Schwarzschild’s, or Reissner-Nordström’s, thus showing possible observational effects of matter around black holes.
Gravitational decoupling for axially symmetric systems and rotating black holes / Contreras, E.; Ovalle, J.; Casadio, R.. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - STAMPA. - 103:4(2021), pp. 044020.1-044020.11. [10.1103/PhysRevD.103.044020]
Gravitational decoupling for axially symmetric systems and rotating black holes
Casadio, R.
2021
Abstract
We introduce a systematic and direct procedure to generate hairy rotating black holes by deforming a spherically symmetric seed solution. We develop our analysis in the context of the gravitational decoupling approach, without resorting to the Newman-Janis algorithm. As examples of possible applications, we investigate how the Kerr black hole solution is modified by a surrounding fluid with conserved energy- momentum tensor. We find nontrivial extensions of the Kerr and Kerr-Newman black holes with primary hair. We prove that a rotating and charged black hole can have the same horizon as Kerr’s, Schwarzschild’s, or Reissner-Nordström’s, thus showing possible observational effects of matter around black holes.| File | Dimensione | Formato | |
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