Spectral and Essential Spectral Analysis of Finite-Rank Perturbations of Unbounded Diagonal Operators on Non-Archimedean Hilbert Spaces

Abstract

We study the spectral properties of a class of unbounded linear operators on a non-Archimedean Hilbert space Eω. More precisely, we consider operators of the form \[ T=D+F, F=Σj=1m uj vj, \] where D is an unbounded diagonal operator and F is a finite-rank perturbation. This work extends the spectral analysis of Diagana and McNeal for rank-one perturbations of diagonal operators to the case of arbitrary finite-rank perturbations. The main objective is to describe the spectrum, point spectrum, and essential spectrum of such operators in terms of the diagonal sequence associated with D and the Fredholm properties of λI-T. The theory of Fredholm operators plays a central role, particularly in the computation of the essential spectrum and in the study of stability under finite-rank perturbations.