Litcius/Paper detail

Spin wave optics for gravitational waves lensed by a Kerr black hole

Kei-ichiro Kubota, Shun Arai, Hayato Motohashi, Shinji Mukohyama

2024Physical review. D/Physical review. D.13 citationsDOI

Abstract

Gravitational waves exhibit the unique signature of their spin-2 nature in processes of wave scattering, due to the interaction between spin and a background spacetime. Since the spin effect is more pronounced for longer wavelengths and gravitational waves sourced by binaries have a long wavelength, it may become an important effect in addition to the wave effect. We study the propagation of gravitational waves lensed by a Kerr black hole by numerically solving the Teukolsky equation with a source term of the equal-mass circular binary, taking into account both spin effect and wave effect. We find helicity-dependent small-period oscillation in the power spectrum of the amplification factor in the forward direction and the oscillation is enhanced as spin of a prograde Kerr black hole increases.

Topics & Concepts

Gravitational wavePhysicsBlack hole (networking)Spin waveSpin (aerodynamics)Quantum electrodynamicsAstrophysicsCondensed matter physicsComputer scienceFerromagnetismRouting protocolThermodynamicsRouting (electronic design automation)Link-state routing protocolComputer networkPulsars and Gravitational Waves ResearchGeophysics and Sensor TechnologyAstrophysical Phenomena and Observations