Optimal convergence rates in multiscale elliptic homogenization

Abstract

This paper is devoted to the quantitative homogenization of multiscale elliptic operator -∇· A ∇, where A(x) = A(x/1, x/2,·s, x/n), = (1, 2,·s, n) ∈ (0,1]n and i > i+1. We assume that A(y1,y2,·s, yn) is 1-periodic in each yi ∈ Rd and real analytic. Classically, the method of reiterated homogenization has been applied to study this multiscale elliptic operator, which leads to a convergence rate limited by the ratios \ i+1/i: 1 i n-1\. In the present paper, under the assumption of real analytic coefficients, we introduce the so-called multiscale correctors and more accurate effective operators, and improve the ratio part of the convergence rate to \ e-ci/i+1: 1 i n-1 \. This convergence rate is optimal in the sense that c>0 cannot be replaced by a larger constant. As a byproduct, the uniform Lipschitz estimate is established under a mild double-log scale-separation condition.