Multiplication operators on the energy space

Abstract

This paper studies the "energy space" HE (the Hilbert space of functions of finite energy, aka the Dirichlet-finite functions) on an infinite network (weighted connected graph), from the point of view of the multiplication operators Mf associated to functions f on the network. We show that the multiplication operators Mf are not Hermitian unless f is constant, and compute the adjoint Mf in terms of a reproducing kernel for HE. A characterization of the bounded multiplication operators is given in terms of positive semidefinite functions, and we give some conditions on f which ensure Mf is bounded. Examples show that it is not sufficient that f be bounded or have finite energy. Conditions for the boundedness of Mf are also expressed in terms of the behavior of the simple random walk on the network. We also consider the bounded elements of HE and the (possibly unbounded) multiplication operators corresponding to them. In a previous paper, the authors used functional integration to construct a type of boundary for infinite networks. The boundary is described here in terms of a certain subalgebra of these multiplication operators, and is shown to embed into the Gel'fand space of that subalgebra. In the case when the only harmonic functions of finite energy are constant, we show that the Gel'fand space is the 1-point compactification of the underlying network.