Wick Ordering and Kinetic Energy Renormalization for L\'evy White Noise Fields

Abstract

Let S=Td be a torus and μ the probability distribution of a L\'evy white noise field x:S→R. Using projective limit measures we address the problem of making sense of e-T(x), where T(x) = ∫S ∇ x(s)2 ds is the kinetic energy, as a function in L1(μ). We start by making sense of T(x) itself as a sort of distribution, which is achieved by a generalization of Wick ordering. Then we specify to the case of a field, finding that Wick ordering does not eliminate all divergences. Higher order renormalization would be required, but the model seems to be non-renormalizable.