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Mode Stability for the Teukolsky Equation on Extremal and Subextremal Kerr Spacetimes

Rita Teixeira da Costa

2020Communications in Mathematical Physics33 citationsDOIOpen Access PDF

Abstract

Abstract We prove that there are no exponentially growing modes nor modes on the real axis for the Teukolsky equation on Kerr black hole spacetimes, both in the extremal and subextremal case. We also give a quantitative refinement of mode stability. As an immediate application, we show that the transmission and reflection coefficients of the scattering problem are bounded, independently of the specific angular momentum of the black hole, in any compact set of real frequencies excluding zero frequency and the superradiant threshold. While in the subextremal setting these results were known previously, the extremal case is more involved and has remained an open problem. Ours are the first results outside axisymmetry and could serve as a preliminary step towards understanding boundedness, scattering and decay properties of general solutions to the Teukolsky equation on extremal Kerr black holes.

Topics & Concepts

PhysicsAngular momentumScatteringBlack hole (networking)Quasinormal modeReflection (computer programming)Stability (learning theory)Rotating black holeMode (computer interface)Mathematical physicsWave equationQuantum mechanicsClassical mechanicsMomentum (technical analysis)Normal modeScattering theorySet (abstract data type)Quantum electrodynamicsTransmission (telecommunications)Zero modeMathematical analysisIdeal (ethics)Exact solutions in general relativityZero (linguistics)Action (physics)Advanced Mathematical Physics ProblemsBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research