Spectrum of a singularly perturbed periodic thin waveguide

Abstract

We consider a family \\>0 of periodic domains in R2 with waveguide geometry and analyse spectral properties of the Neumann Laplacian - on . The waveguide is a union of a thin straight strip of the width and a family of small protuberances with the so-called "room-and-passage" geometry. The protuberances are attached periodically, with a period , along the strip upper boundary. For 0 we prove a (kind of) resolvent convergence of - to a certain ordinary differential operator. Also we demonstrate Hausdorff convergence of the spectrum. In particular, we conclude that if the sizes of "passages" are appropriately scaled the first spectral gap of - is determined exclusively by geometric properties of the protuberances. The proofs are carried out using methods of homogenization theory.