Strange non-local operators homogenizing the Poisson equation with dynamical unilateral boundary conditions: asymmetric particles of critical size

IF 0.8 4区数学 Q2 MATHEMATICS

Electronic Journal of Differential Equations Pub Date : 2024-01-04 DOI:10.58997/ejde.2024.03

Jesus Ildefonso Diaz, T. Shaposhnikova, Alexander V. Podolskiy

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引用次数: 0

Abstract

We study the homogenization of a nonlinear problem given by the Poisson equation, in a domain with arbitrarily shaped perforations (or particles) and with a dynamic unilateral boundary condition (of Signorini type), with a large coefficient, on the boundary of these perforations (or particles). This problem arises in the study of chemical reactions of zero order. The consideration of a possible asymmetry in the perforations (or particles) is fundamental for considering some applications in nanotechnology, where symmetry conditions are too restrictive. It is important also to consider perforations (or particles) constituted by small different parts and then with several connected components. We are specially concerned with the so-called critical case in which the relation between the coefficient in the boundary condition, the period of the basic structure, and the size of the holes (or particles) leads to the appearance of an unexpected new term in the effective homogenized equation. Because of the dynamic nature of the boundary condition this ``strange term'' becomes now a non-local in time and non-linear operator. We prove a convergence theorem and find several properties of the ``strange operator'' showing that there is a kind of regularization through the homogenization process. For more information see https://ejde.math.txstate.edu/Volumes/2024/03/abstr.html

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具有动态单边边界条件的同质化泊松方程的奇异非局部算子：临界大小的非对称粒子

我们研究的是泊松方程给出的一个非线性问题的均质化问题，该问题发生在一个具有任意形状的穿孔（或颗粒）的域中，并且在这些穿孔（或颗粒）的边界上存在一个具有较大系数的动态单边边界条件（Signorini 类型）。这个问题出现在零阶化学反应的研究中。考虑穿孔（或粒子）中可能存在的不对称是考虑纳米技术中某些应用的基础，因为在这些应用中，对称条件限制太多。同样重要的是，要考虑由小的不同部分构成的穿孔（或粒子），以及由几个相连的部分构成的穿孔（或粒子）。我们特别关注所谓的临界情况，在这种情况下，边界条件中的系数、基本结构的周期和孔（或颗粒）的大小之间的关系会导致有效均质化方程中出现意想不到的新项。由于边界条件的动态性质，这个 "奇怪项 "现在变成了一个非局部时间和非线性算子。我们证明了一个收敛定理，并发现了 "奇异算子 "的几个特性，表明在均质化过程中存在一种正则化。更多信息，请参见 https://ejde.math.txstate.edu/Volumes/2024/03/abstr.html

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来源期刊

Electronic Journal of Differential Equations MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

1.50

自引率

14.30%

发文量

审稿时长

3 months

期刊介绍： All topics on differential equations and their applications (ODEs, PDEs, integral equations, delay equations, functional differential equations, etc.) will be considered for publication in Electronic Journal of Differential Equations.