Taylor's Theorem for Functionals on BMO with Application to BMO Local Minimizers

Abstract

In this note two results are established for energy functionals that are given by the integral of W( x,∇ u( x)) over ⊂Rn with ∇ u ∈ BMO(; RN× n), the space of functions of Bounded Mean Oscillation of John & Nirenberg. A version of Taylor's theorem is first shown to be valid provided the integrand W has polynomial growth. This result is then used to demonstrate that, for the Dirichlet, Neumann, and mixed problems, every Lipschitz-continuous solution of the corresponding Euler-Lagrange equations at which the second variation of the energy is uniformly positive is a strict local minimizer of the energy in W1,BMO(;RN), the subspace of the Sobolev space W1,1(;RN) for which the weak derivative ∇ u ∈ BMO(; RN× n).