Real-variable Characterizations of Orlicz-Hardy Spaces on Strongly Lipschitz Domains of Rn

Abstract

Let be a strongly Lipschitz domain of Rn, whose complement in Rn is unbounded. Let L be a second order divergence form elliptic operator on L2 () with the Dirichlet boundary condition, and the heat semigroup generated by L have the Gaussian property (Gdiam()) with the regularity of their kernels measured by μ∈(0,1], where diam() denotes the diameter of . Let be a continuous, strictly increasing, subadditive and positive function on (0,∞) of upper type 1 and of strictly critical lower type p∈(n/(n+μ),1]. In this paper, the authors introduce the Orlicz-Hardy space H,\,r() by restricting arbitrary elements of the Orlicz-Hardy space H(Rn) to and establish its atomic decomposition by means of the Lusin area function associated with \e-tL\t0. Applying this, the authors obtain two equivalent characterizations of H,\,r() in terms of the nontangential maximal function and the Lusin area function associated with the heat semigroup generated by L.