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Ultralight boson cloud depletion in binary systems

Emanuele BertiDepartment of Physics and Astronomy, Johns Hopkins University, 3400 North Charles Street, Baltimore, Maryland 21218, USARichard BritoDipartimento di Fisica, “Sapienza” Università di Roma & Sezione INFN Roma1, Piazzale Aldo Moro 5, 00185, Roma, ItalyCaio F. B. MacedoCampus Salinópolis, Universidade Federal do Pará, Salinópolis, Pará, 68721-000 BrazilGuilherme RaposoDipartimento di Fisica, “Sapienza” Università di Roma & Sezione INFN Roma1, Piazzale Aldo Moro 5, 00185, Roma, ItalyJoão Luís RosaCentro de Astrofísica e Gravitaćão—CENTRA, Departamento de Física, Instituto Superior Técnico - IST, Universidade de Lisboa - UL, Avenida Rovisco Pais 1, 1049-001, Portugal
2019en
ABI

Annotatsiya

Ultralight scalars can extract rotational energy from astrophysical black holes through superradiant instabilities, forming macroscopic boson clouds. This process is most efficient when the Compton wavelength of the boson is comparable to the size of the black hole horizon, i.e., when the ``gravitational fine structure constant'' $\ensuremath{\alpha}\ensuremath{\equiv}G\ensuremath{\mu}M/\ensuremath{\hbar}c\ensuremath{\sim}1$. If the black hole/cloud system is in a binary, tidal perturbations from the companion can produce resonant transitions between the energy levels of the cloud, depleting it by an amount that depends on the nature of the transition and on the parameters of the binary. Previous cloud depletion estimates considered binaries in circular orbit and made the approximation $\ensuremath{\alpha}\ensuremath{\ll}1$. Here we use black hole perturbation theory to compute instability rates and decay widths for generic values of $\ensuremath{\alpha}$, and we show that this leads to much larger cloud depletion estimates when $\ensuremath{\alpha}\ensuremath{\gtrsim}0.1$. We also study eccentric binary orbits. We show that in this case resonances can occur at all harmonics of the orbital frequency, significantly extending the range of frequencies where cloud depletion may be observable with gravitational wave interferometers.

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