Abstract
We calculate the main asymptotic terms for eigenvalues, both simple and multiple, and eigenfunctions of the Neumann Laplacian in a three-dimensional domain $\Omega(h)$ perturbed by a small (with diameter $O(h)$) Lipschitz cavern $\overline{\omega\_h}$ in a smooth boundary $\partial\Omega=\partial\Omega(0)$. The case of the hole $\overline{\omega\_h}$ inside the domain but very close to the boundary $\partial\Omega$ is under consideration as well. It is proven that the main correction term in the asymptotics of eigenvalues does not depend on the curvature of $\partial\Omega$ while terms in the asymptotics of eigenfunctions do. The influence of the shape of the cavern to the eigenvalue asymptotics relies mainly upon a certain matrix integral characteristics like the tensor of virtual masses. Asymptotically exact estimates of the remainders are derived in weighted norms.
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