Future prospects for probing scalar–tensor theories with gravitational waves from mixed binaries
Zack Carson, Brian C Seymour, Kent Yagi
Abstract
Abstract The extreme-gravity collisions of binaries with one black hole and one neutron star provide for excellent tests of general relativity (GR). We here study how well one can constrain theories beyond GR with additional scalar fields that allow for spontaneous scalarization of neutron stars, and those motivated from string theory. We find that existing bounds can be improved with current gravitational-wave detectors if the black hole mass is sufficiently small. Bounds will further improve by many orders of magnitude with future detections, especially by combining multiple events.
Topics & Concepts
PhysicsNeutron starGravitational waveGeneral relativityBlack hole (networking)Scalar (mathematics)Theoretical physicsNumerical relativityTests of general relativityBinary black holeString theoryString (physics)Current (fluid)GravitationAstrophysicsBinary numberStar (game theory)LIGODetectorQuantum electrodynamicsTheory of relativityEffective field theoryPrimordial black holeScalar fieldStellar black holeNeutronClassical mechanicsPulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesAstrophysical Phenomena and Observations