On spectral properties of one boundary value problem with a surface energy dissipation

Authors

  • O.A. Andronova
    Academy of Construction and Architecture of the Federal State Autonomous Educational Institution of Higher Education «V.I.Vernadsky Сrimean Federal University»
  • V.I. Voytitskiy
    Crimea Federal University, Simferopol

DOI:

https://doi.org/10.13108/2017-9-2-3

Keywords:

spectral parameter, quadratic operator pencil, localization of eigenvalues, compact operator, Schatten-von-Neumann classes $S_p$, Abel-Lidskii basis property.

Abstract

We study a spectral problem in a bounded domain ${\Omega \subset \mathbb{R}^{m}}$, depending on a bounded operator coefficient $Q>0$ and a dissipation parameter $\alpha>0$. In the general case we establish sufficient conditions ensuring that the problem has a discrete spectrum consisting of countably many isolated eigenvalues of finite multiplicity accumulating at infinity. We also establish the conditions, under which the system of root elements contains an Abel-Lidskii basis in the space $ L_2(\Omega)$. In model one- and two-dimensional problems we establish the localization of the eigenvalues and find critical values of $\alpha$.

Downloads

Published

20.06.2017

Issue

Vol. 9 No. 2 (2017): Ufa Mathematical Journal 2017, volume 9 , issue 2

Section

Article