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Gravitational waves from binary black hole mergers surrounded by scalar field clouds: Numerical simulations and observational implications

S. Choudhary, N. Sanchis-Gual, A. Gupta, Juan Carlos Degollado, S. Bose, José A. Font

2021Physical review. D/Physical review. D.32 citationsDOIOpen Access PDF

Abstract

We show how gravitational-wave observations of binary black hole (BBH) mergers can constrain the physical characteristics of a scalar field cloud parametrized by mass $\stackrel{\texttildelow{}}{\ensuremath{\mu}}$ and strength ${\ensuremath{\phi}}_{0}$ that may surround them. We numerically study the inspiraling equal-mass, nonspinning BBH systems dressed in such clouds, focusing especially on the gravitational-wave signals emitted by their merger-ringdown phase. These waveforms clearly reveal that larger values of $\stackrel{\texttildelow{}}{\ensuremath{\mu}}$ or ${\ensuremath{\phi}}_{0}$ cause bigger changes in the amplitude and frequency of the scalar-field-BBH ringdown signals. We show that the numerical waveforms of scalar-field-BBHs can be modeled as chirping sine-Gaussians, with matches in excess of 95%. This observation enables one to employ computationally expensive Bayesian studies for estimating the parameters of such binaries. Using our chirping sine-Gaussian signal model, we establish that observations of BBH mergers at a distance of 450 Mpc will allow to distinguish BBHs without any scalar field from those with a field strength ${\ensuremath{\phi}}_{0}\ensuremath{\gtrsim}5.5\ifmmode\times\else\texttimes\fi{}{10}^{\ensuremath{-}3}$, at any fixed value of $\stackrel{\texttildelow{}}{\ensuremath{\mu}}\ensuremath{\in}[0.3,0.8]$, with 90% confidence or better, in single detectors with Advanced LIGO/Virgo type sensitivities. This provides hope for the possibility of determining or constraining the mass of ultralight bosons with gravitational-wave observations of BBH mergers.

Topics & Concepts

PhysicsBinary black holeLIGOGravitational waveScalar fieldScalar (mathematics)AmplitudeBinary numberBosonAstrophysicsParticle physicsClassical mechanicsQuantum mechanicsMathematicsArithmeticGeometryPulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesRadio Astronomy Observations and Technology
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