Left-Definite Variations of the Classical Fourier Expansion Theorem, Part II

Abstract

In 2002, Littlejohn and Wellman developed a general left-definite theory for arbitrary self-adjoint operators in a Hilbert space that are bounded below by a positive constant. Zettl and Littlejohn, in 2005, applied this general theory to the classical second-order Fourier operator with periodic boundary boundary conditions. In this paper, we construct sequences of left-definite Hilbert spaces \Hn\n ∈ N and left-definite self-adjoint operators \An\n ∈ N associated with the Fourier operator with semi-periodic boundary conditions. We obtain explicit formulas for the domain of the square root of the self-adjoint operator A obtained from this boundary value problem as well as explicit representations of the domains D(An/2) for all positive integers n. Furthermore, a Fourier expansion theorem is given in each left-definite space Hn.