On the Fuc\'ik spectrum of the Logarithmic Laplacian

Abstract

In this paper, we investigate the Fuc\'ik spectrum L associated with the logarithmic Laplacian. This spectrum is defined as the set of all pairs (α,β) ∈ R2 for which the problem \[ L u = α u+-β u- ~in ~ and u=0 ~in ~RN \] admits a nontrivial solution u. Here, ⊂ RN is a bounded domain with C1,1 boundary, u = \ u,0\, and u = u+ - u-. We show that the lines λ1L × R and R × λ1L, where λ1L denotes the first eigenvalue of L, lies in the spectrum L and are isolated within the spectrum. Furthermore, we establish the existence of the first nontrivial curve in L and analyze its qualitative properties, including Lipschitz continuity, strict monotonicity, and asymptotic behavior. In addition, we obtain a variational characterization of the second eigenvalue of the logarithmic Laplacian and show that all eigenfunctions corresponding to eigenvalues λ > λ1L are sign-changing. Finally, we address a nonresonance problem with respect to the Fuc\'ik spectrum L, employing variational methods and carefully overcoming the difficulties arising from the contrasting features of the first eigenvalue λ1L.