Global and fine approximation of convex functions

Abstract

Let U⊂eqRd be open and convex. We prove that every (not necessarily Lipschitz or strongly) convex function f:U can be approximated by real analytic convex functions, uniformly on all of U. We also show that C0-fine approximation of convex functions by smooth (or real analytic) convex functions on Rd is possible in general if and only if d=1. Nevertheless, for d≥ 2 we give a characterization of the class of convex functions on Rd which can be approximated by real analytic (or just smoother) convex functions in the C0-fine topology. It turns out that the possibility of performing this kind of approximation is not determined by the degree of local convexity or smoothness of the given function, but by its global geometrical behaviour. We also show that every C1 convex and proper function on U can be approximated by C∞ convex functions in the C1-fine topology, and we provide some applications of these results, concerning prescription of (sub-)differential boundary data to convex real analytic functions, and smooth surgery of convex bodies.