KATO CLASS POTENTIALS FOR HIGHER ORDER ELLIPTIC OPERATORS

E. B. DAVIES; A. M. HINZ

doi:10.1112/S0024610798006565

Abstract

Our goal in this paper is to determine conditions on a potential V which ensure that an operator such as

formula here

acting on L2(RN) defines a semigroup in Lp(RN) for various values of p including p=1. The operator is defined as a quadratic form sum. That is, we put

formula here

for f∈C∞c (all integrals are on RN and are with respect to Lebesgue measure), and note that the closure of the form is non-negative and has domain equal to the Sobolev space Wm,2. We then assume that the potential has quadratic form bound less than 1 with respect to Q0, and define

formula here

This form is closed and is associated with a semibounded self-adjoint operator H in L2 (see [17, p. 348; 5, Theorem 4.23]). One can then ask whether the semigroup e−Ht defined on L2 for t[ges ]0 is extendable to a strongly continuous one-parameter semigroup on Lp for other values of p, and if so whether one can describe the domain and spectrum of its generator.

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KATO CLASS POTENTIALS FOR HIGHER ORDER ELLIPTIC OPERATORS

Abstract

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KATO CLASS POTENTIALS FOR HIGHER ORDER ELLIPTIC OPERATORS

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