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First survey of spinning eccentric black hole mergers: Numerical relativity simulations, hybrid waveforms, and parameter estimation

Área de investigaciónAstronomía, Espacio y Ciencias de la Tierra
TítuloFirst survey of spinning eccentric black hole mergers: Numerical relativity simulations, hybrid waveforms, and parameter estimation
Tipo de publicaciónArtículo de revista
Año de publicación2020
AutoresRamos-Buades, A, Husa, S, Pratten, G, Estelles, H, Garcia-Quiros, C, Mateu-Lucena, M, Colleoni, M, Jaume, R
RevistaPHYSICAL REVIEW D
Volumen101
Número8
Type of ArticleArticle
Abstract

We analyze a new numerical relativity dataset of spinning but nonprecessing binary black holes on eccentric orbits, with eccentricities from approximately 0.1 to 0.5, with dimensionless spins up to 0.75 included at mass ratios q=m(1)/m(2) = (1,2), and further nonspinning binaries at mass ratios q = (1.5, 3,4). A comparison of the final mass and spin of these simulations with noneccentric data extends previous results in the literature on circularization of eccentric binaries to the spinning case. For the (l, m) = (2, 2) spin-weighted spherical harmonic mode, we construct eccentric hybrid waveforms that connect the numerical relativity data to a post-Newtonian description for the inspiral, and we discuss the limitations in the current knowledge about post-Newtonian theory which complicate the generation of eccentric hybrid waveforms. We also perform a Bayesian parameter estimation study, quantifying the parameter biases introduced when using three different quasicircular waveform models to estimate the parameters of highly eccentric binary systems. We find that the used aligned-spin quasicircular model including higher order modes produces lower bias in certain parameters than the nonprecessing quasicircular model without higher order modes and the quasicircular precessing model.

DOI10.1103/PhysRevD.101.083015