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Upgraded waveform model of eccentric binary black hole based on effective-one-body-numerical-relativity for spin-aligned binary black holes

Xiaolin Liu, Zhoujian Cao, Lijing Shao

2023International Journal of Modern Physics D27 citationsDOIOpen Access PDF

Abstract

Effective one body numerical relativity waveform models for spin-aligned binary black holes (SEOBNR) are based on the effective one body theoretical framework and numerical relativity simulation results. SEOBNR models have evolved through version 1 to version 4. We recently extended SEOBNRv1 model to SEOBNRE (Effective One Body Numerical Relativity waveform models for Spin-aligned binary black holes along Eccentric orbit) model which is also valid for spin-aligned binary black hole coalescence along eccentric orbit. In this paper, we update our previous SEOBNRE model to make it consistent to SEOBNRv4 which is the most widely used SEOBNR waveform model. This upgraded SEOBNRE model improves accuracy compared to previous SEOBNRE model, especially for highly spinning black holes. For spin-aligned binary black holes with mass ratio [Formula: see text], dimensionless spin [Formula: see text] and orbital eccentricity [Formula: see text] at reference frequency [Formula: see text] ([Formula: see text] is the total mass of the binary black hole, [Formula: see text]Hz), the upgraded SEOBNRE model can always fit numerical relativity waveform better than 98.2%. For most cases, the fitting factor can even be better than 99%.

Topics & Concepts

PhysicsBinary black holeNumerical relativityBlack hole (networking)Mass ratioEccentricity (behavior)General relativityTheory of relativityRotating black holeTheoretical physicsClassical mechanicsAstrophysicsGravitational waveAngular momentumComputer scienceRouting (electronic design automation)Political scienceLink-state routing protocolComputer networkRouting protocolLawPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsGeophysics and Sensor Technology
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