Transport of nonlinear oscillations along rays that graze a convex obstacle to any order

Abstract

We provide a geometric optics description in spaces of low regularity, L2 and H1, of the transport of oscillations in solutions to linear and some semilinear second-order hyperbolic boundary problems along rays that graze the boundary of a convex obstacle to arbitrarily high finite or infinite order. The fundamental motivating example is the case where the spacetime manifold is M=(Rn O)× Rt, where O⊂ Rn is an open convex obstacle with C∞ boundary, and the governing hyperbolic operator is the wave operator :=-∂t2.