Critical sets of solutions of elliptic equations in periodic homogenization

IF 3.1 1区数学 Q1 MATHEMATICS Communications on Pure and Applied Mathematics Pub Date : 2023-11-20 DOI:10.1002/cpa.22186

Fanghua Lin, Zhongwei Shen

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Abstract

In this paper we study critical sets of solutions $u_{ε}$ of second-order elliptic equations in divergence form with rapidly oscillating and periodic coefficients. Under some condition on the first-order correctors, we show that the $(d - 2)$ -dimensional Hausdorff measures of the critical sets are bounded uniformly with respect to the period $ε$ , provided that doubling indices for solutions are bounded. The key step is an estimate of “turning” of an approximate tangent map, the projection of a non-constant solution $u_{ε}$ onto the subspace of spherical harmonics of order $ℓ$ , when the doubling index for $u_{ε}$ on a sphere $\partial B (0, r)$ is trapped between $ℓ - δ$ and $ℓ + δ$ , for $r$ between 1 and a minimal radius $r^{*} \geq C_{0} ε$ . This estimate is proved by using harmonic approximation successively. With a suitable $L^{2}$ renormalization as well as rescaling we are able to control the accumulated errors introduced by homogenization and projection. Our proof also gives uniform bounds for Minkowski contents of the critical sets.

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周期均匀化椭圆方程的临界解集

本文研究了具有快速振荡和周期系数的散度型二阶椭圆方程的临界解集ε $u_\varepsilon$。在一阶校正器的某些条件下，我们证明了临界集的(d−2)$(d-2)$维Hausdorff测度在周期ε上是一致有界的，假设解的加倍指标是有界的。关键步骤是估计一个近似切线映射的“转弯”，即一个非常数解uε $u_\varepsilon$在阶为r的球谐波子空间上的投影，当一个球∂B(0,r) $\partial B(0, r)$上的uε $u_\varepsilon$的加倍指数被捕获在r−δ $\ell -\delta$和r +δ $\ell +\delta$之间时，r介于1和最小半径r∗≥C0ε $r^*\ge C_0\varepsilon$之间。用调和逼近相继证明了这一估计。通过适当的L2重整化和重新缩放，我们可以控制均匀化和投影引入的累积误差。我们的证明也给出了临界集的闵可夫斯基内容的一致界。

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来源期刊

Communications on Pure and Applied Mathematics 数学-数学

CiteScore

6.70

自引率

3.30%

发文量

审稿时长

>12 weeks

期刊介绍： Communications on Pure and Applied Mathematics (ISSN 0010-3640) is published monthly, one volume per year, by John Wiley & Sons, Inc. © 2019. The journal primarily publishes papers originating at or solicited by the Courant Institute of Mathematical Sciences. It features recent developments in applied mathematics, mathematical physics, and mathematical analysis. The topics include partial differential equations, computer science, and applied mathematics. CPAM is devoted to mathematical contributions to the sciences; both theoretical and applied papers, of original or expository type, are included.