Quantum Hairy Black Hole Formation and Horizon Quantum Mechanics

Cavalcanti, R. T.; Silva, J. M. Hoff da

doi:10.3390/universe9010023

Universe

2022

DOI: 10.3390/universe9010023

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Quantum Hairy Black Hole Formation and Horizon Quantum Mechanics

R. T. Cavalcanti

J. M. Hoff da Silva

Abstract: After introducing the gravitational decoupling method and the hairy black hole recently derived from it, we investigate the formation of quantum hairy black holes by applying the horizon quantum mechanics formalism. It enables us to determine how external fields, characterized by hairy parameters, affect the probability of spherically symmetric black hole formation and the generalized uncertainty principle.

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2024

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Cited by 1 publication

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Gravitational decoupling and aerodynamics: black holes and analog gravity in a jet propulsion lab

Casadio,

Souza,

Rocha

2024

Eur. Phys. J. C

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A connection is established between transonic sound waves propagating along a de Laval nozzle and quasinormal modes emitted from hairy black holes obtained with the gravitational decoupling method applied to the Reissner–Nordström geometry. Aerodynamical features provide an analogue setup to test experimentally perturbations of fluid flows in a de Laval nozzle producing quasinormal modes. In particular, nozzle shape, pressure, Mach number, temperature, density, and thrust coefficient profiles are determined as functions of the black hole parameters for several multipole numbers. The black hole quasinormal mode frequencies are also investigated for different overtones, evaluating the quality factor of the nozzle.

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Gravitational decoupling and aerodynamics: black holes and analog gravity in a jet propulsion lab

Casadio,

Souza,

Rocha

2024

Eur. Phys. J. C

View full text Add to dashboard Cite

show abstract

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Quantum Hairy Black Hole Formation and Horizon Quantum Mechanics

Cited by 1 publication

References 51 publications

Gravitational decoupling and aerodynamics: black holes and analog gravity in a jet propulsion lab

Gravitational decoupling and aerodynamics: black holes and analog gravity in a jet propulsion lab

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