Litcius/Paper detail

Spectral method for metric perturbations of black holes: Kerr background case in general relativity

Adrian Ka-Wai Chung, Pratik Wagle, Nicolás Yunes

2024Physical review. D/Physical review. D.35 citationsDOI

Abstract

We present a novel approach, metric perturbations with spectral methods (METRICS), to calculate the gravitational metric perturbations and the quasinormal-mode frequencies of rotating black holes of any spin without decoupling the linearized field equations. We demonstrate the method by applying it to perturbations of Kerr black holes of any spin, simultaneously solving all ten linearized Einstein equations in the Regge-Wheeler gauge through purely algebraic methods and computing the fundamental (corotating) quadrupole mode frequency at various spins. We moreover show that the METRICS approach is accurate and precise, yielding (i) quasinormal mode frequencies that agree with Leaver's, continuous-fraction solution with a relative fractional error smaller than ${10}^{\ensuremath{-}5}$ for all dimensionless spins below up to 0.95, and (ii) metric perturbations that lead to Teukolsky functions that also agree with Leaver's solution with mismatches below 1% for all spins below 0.9. By not requiring the decoupling or the angular separation of the linearized field equations, the METRICS approach has the potential to be straightforwardly adapted for the computation of the quasinormal-mode frequencies of rotating black holes of any spin beyond general relativity or in the presence of matter.

Topics & Concepts

PhysicsKerr metricRotating black holeGeneral relativityQuasinormal modeSpinsBlack hole (networking)QuadrupoleMetric (unit)GravitationGravitational fieldClassical mechanicsQuantum mechanicsSchwarzschild metricAngular momentumRouting protocolLink-state routing protocolRouting (electronic design automation)EconomicsCondensed matter physicsComputer networkComputer scienceOperations managementPulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsBlack Holes and Theoretical Physics