Bounds for eigenvalues of the Dirichlet problem for the logarithmic Laplacian
Abstract: We provide bounds for the sequence of eigenvalues ${\lambda_i(\Omega)}i$ of the Dirichlet problem $$ L\Delta u=\lambda u\ \ {\rm in}\ \, \Omega,\quad\quad u=0\ \ {\rm in}\ \ \mathbb{R}N\setminus \Omega,$$ where $L_\Delta$ is the logarithmic Laplacian operator with Fourier transform symbol $2\ln |\zeta|$. The logarithmic Laplacian operator is not positively definitive if the volume of the domain is large enough. In this article, we obtain the upper and lower bounds for the sum of the first $k$ eigenvalues by extending the Li-Yau method and Kr\"oger's method respectively. Moreover, we show the limit of the sum of the first $k$ eigenvalues, which is independent of the volume of the domain. Finally, we discuss the lower and upper bounds of the $k$-th principle eigenvalue, the asymptotic behavior of the limit of eigenvalues.
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