The mass of a black hole can dynamically evolve due to various physical processes, such as for instance accretion, Hawking radiation, absorption of gravitational/electromagnetic waves, superradiance, etc. This evolution can have an impact on astrophysical observables, like the ringdown gravitational signal. An effective description of a spherically symmetric black hole with evolving mass is provided by the Vaidya metric. In our investigation, we explore the dynamics of linear perturbations on this background, assuming a constant rate of change for the mass. Despite the time-dependent background, a judicious change of coordinates allows us to treat the perturbations in the frequency domain and to compute explicitly the quasinormal modes and the tidal Love numbers.
Perturbations of the Vaidya metric in the frequency domain: Quasinormal modes and tidal response / Capuano, Lodovico; Santoni, Luca; Barausse, Enrico. - In: PHYSICAL REVIEW D. - ISSN 2470-0010. - 110:8(2024). [10.1103/physrevd.110.084081]
Perturbations of the Vaidya metric in the frequency domain: Quasinormal modes and tidal response
Capuano, Lodovico;Barausse, Enrico
2024-01-01
Abstract
The mass of a black hole can dynamically evolve due to various physical processes, such as for instance accretion, Hawking radiation, absorption of gravitational/electromagnetic waves, superradiance, etc. This evolution can have an impact on astrophysical observables, like the ringdown gravitational signal. An effective description of a spherically symmetric black hole with evolving mass is provided by the Vaidya metric. In our investigation, we explore the dynamics of linear perturbations on this background, assuming a constant rate of change for the mass. Despite the time-dependent background, a judicious change of coordinates allows us to treat the perturbations in the frequency domain and to compute explicitly the quasinormal modes and the tidal Love numbers.| File | Dimensione | Formato | |
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