Equidistribution of Phase Shifts in Obstacle Scattering

Abstract

For scattering off a smooth, strictly convex obstacle ⊂ Rd with positive curvature, we show that the eigenvalues of the scattering matrix -- the phase shifts -- equidistribute on the unit circle as the frequency k ∞ at a rate proportional to kd - 1, under a standard condition on the set of closed orbits of the billiard map in the interior. Indeed, in any sector S ⊂ S1 not containing 1, there are cd |S| Vol(∂ )\ kd - 1 + o(kd-1) eigenvalues for k large, where cd is a constant depending only on the dimension. Using this result, the two term asymptotic expansion for the counting function of Dirichlet eigenvalues, and a spectral-duality result of Eckmann-Pillet, we then give an alternative proof of the two term asymptotic of the total scattering phase due to Majda-Ralston.