On the eigenvalues and Fučík spectrum of $p$-Laplace local and nonlocal operator with mixed interpolated Hardy term

Abstract: In this article, we are concerned with the eigenvalue problem driven by the mixed local and nonlocal $p$-Laplacian operator having the interpolated Hardy term \begin{equation*} \mathcal{T}(u) :=- \Delta_p u + (- \Delta_p)^s u - \mu \frac{|u|^{p-2}u}{|x|^{p \theta}}, \end{equation*} where $0<s<1<p<N$, $\theta \in [s,1]$, and $\mu \in (0,\mu_0(\theta))$. First, we establish a mixed interpolated Hardy inequality and then show the existence of eigenvalues and their properties. We also investigate the Fu\v{c}\'{\i}k spectrum, the existence of the first nontrivial curve in the Fu\v{c}\'{\i}k spectrum, and prove some of its properties. Moreover, we study the shape optimization of the domain with respect to the first two eigenvalues, the regularity of the eigenfunctions, the Faber-Krahn inequality, and a variational characterization of the second eigenvalue.