On classical solutions to elliptic boundary value problems. The full regularity spaces C0,\,()

Abstract

Let L be a second order, uniformly elliptic operator, and consider the equation L u=f under the homogeneous boundary condition u=0. It is well known that f in C(Om) (Om= Omega) does not guarantee second order derivatives D2 u in C(Om). This gap led to look for functional spaces C*(Om), contained in C(Om), as large as possible, for which f in C*(Om) merely guarantees the continuity of D2 u (but nothing more, say). H\"older continuity is too restrictive to fulfill this minimal requirement since in this case D2 u inherits the whole regularity enjoyed by f (we say that "full regularity" occurs). This two opposite situations led us to look for significant cases in which intermediate regularity (i.e., between "mere continuity" and "full regularity") occurs. This holds for data in Log spaces D0,a(Om) (a= alpha) where 0< a < infty, simply obtained by replacing in the modulus of continuity of H\"older spaces the quantity 1/|x-y| by log(1/|x-y|). If f in D0,a for some fixed a > 1, then D2 u in D0,a-1. This regularity is optimal. The above picture opened the way to further investigation. Below we study the more general problem of data f in subspaces of continuous functions Dom, characterized by a given modulus of continuity om(r). H\"older and Log spaces are particular cases. A significant new, lets say curious, case is shown by the family of functional spaces C0,la (l= lambda), where 0 <= l < 1, and a in R. In particular, C0,l0= C0,l, is a H\"older space, and C0,0a = D0,a, is a Log space. Main point is that full regularity occurs for l > 0, and arbitrary a in R. If f in C0,la then D2 u in C0,la.