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Evolution of Einstein-scalar-Gauss-Bonnet gravity using a modified harmonic formulation

William E. East, Justin L. Ripley

2021Physical review. D/Physical review. D.125 citationsDOIOpen Access PDF

Abstract

We present numerical solutions of several spacetimes of physical interest, including binary black hole mergers, in shift-symmetric Einstein-scalar-Gauss-Bonnet (ESGB) gravity, and describe our methods for solving the full equations of motion, without approximation, for general spacetimes. While we concentrate on the specific example of shift-symmetric ESGB, our methods, which make use of a recently proposed modification to the generalized harmonic formulation, should be generally applicable to all Horndeski theories of gravity (including general relativity). We demonstrate that these methods can stably follow the formation of scalar clouds about initially vacuum nonspinning and spinning black holes for values of the Gauss-Bonnet coupling approaching the maximum value above which the hyperbolicity of the theory breaks down in spherical symmetry. We study the collision of black holes with scalar hair, finding that the theory remains hyperbolic in the spacetime region exterior to the black hole horizons in a similar regime, which includes cases where the deviations from general relativity in the gravitational radiation is appreciable. Finally, we demonstrate that these methods can be used to follow the inspiral and merger of binary black holes in full ESGB gravity. This allows for making predictions for Horndeski theories of gravity in the strong-field and nonperturbative regime, which can confronted with gravitational wave observations, and compared to approximate treatments of modifications to general relativity.

Topics & Concepts

PhysicsGeneral relativityBlack hole (networking)Gauss–Bonnet gravityScalar (mathematics)GravitationClassical mechanicsSpacetimeNumerical relativityScalar fieldBinary black holeGravitational waveTheoretical physicsMathematical physicsQuantum mechanicsGeometryLink-state routing protocolComputer networkComputer scienceMathematicsRouting (electronic design automation)Routing protocolCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchAstrophysical Phenomena and Observations
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