Litcius/Paper detail

On pointwise decay of waves

W. Schlag

2021Journal of Mathematical Physics22 citationsDOIOpen Access PDF

Abstract

This paper introduces some of the basic mechanisms relating the behavior of the spectral measure of Schrödinger operators near zero energy to the long-term decay and dispersion of the associated Schrödinger and wave evolutions. These principles are illustrated by means of the author’s work on decay of Schrödinger and wave equations under various types of perturbations, including those of the underlying metric. In particular, we consider local decay of solutions to the linear Schrödinger and wave equations on curved backgrounds that exhibit trapping. A particular application is waves on a Schwarzschild black hole spacetime. We elaborate on Price’s law of local decay that accelerates with the angular momentum, which has recently been settled by Hintz, also in the much more difficult Kerr black hole setting. While the author’s work on the same topic was conducted ten years ago, the global semiclassical representation techniques developed there have recently been applied by Krieger, Miao, and the author [“A stability theory beyond the co-rotational setting for critical wave maps blow up,” arXiv:2009.08843 (2020)] to the nonlinear problem of stability of blowup solutions to critical wave maps under non-equivariant perturbations.

Topics & Concepts

PointwiseSemiclassical physicsPhysicsWave equationMeasure (data warehouse)Schwarzschild radiusNonlinear systemWork (physics)Stability (learning theory)Classical mechanicsKorteweg–de Vries equationRepresentation (politics)WKB approximationDispersion (optics)Mathematical analysisBlack hole (networking)Energy (signal processing)Gravitational waveExponential decayDispersion relationWave packetMathematicsHermite polynomialsKerr metricWave propagationAdvanced Mathematical Physics ProblemsBlack Holes and Theoretical PhysicsPulsars and Gravitational Waves Research