Bounds for higher Steklov and mixed Steklov Neumann eigenvalues on domains with holes

Abstract

In this article, we study Steklov eigenvalues and mixed Steklov Neumann eigenvalues on a smooth bounded domain in Rn, n ≥ 2, having a spherical hole. We focus on two main results related to Steklov eigenvalues. First, we obtain explicit expression for the second nonzero Steklov eigenvalue on concentric annular domain. Secondly, we derive a sharp upper bound of the first n nonzero Steklov eigenvalues on a domain ⊂ Rn having symmetry of order 4 and a ball removed from its center. This bound is given in terms of the corresponding Steklov eigenvalues on a concentric annular domain of the same volume as . Next, we consider the mixed Steklov Neumann eigenvalue problem on 4th order symmetric domains in Rn having a spherical hole and obtain upper bound of the first n nonzero eigenvalues. We also provide some examples to illustrate that symmetry assumption in our results is crucial. Finally, We make some numerical observations about these eigenvalues using FreeFEM++ and state them as conjectures.

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