From transient elastic linkages to friction: A complete study of a penalized fourth order equation with delay

IF 2.3 1区数学 Q1 MATHEMATICS

Journal de Mathematiques Pures et Appliquees Pub Date : 2025-02-01 DOI:10.1016/j.matpur.2025.103665

Vuk Milišić , Philippe Souplet

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Abstract

(English) In this paper we consider a fourth order nonlinear parabolic delayed problem modeling a quasi-instantaneous turn-over of linkages in the context of cell-motility. The model depends on a small parameter ε which represents a typical time scale of the memory effect. We first prove global existence and uniqueness of solutions for ε fixed. This is achieved by combining suitable fixed-point and energy arguments and by uncovering a nonlocal in time, conserved integral quantity. After giving a complete classification of steady states in terms of elliptic functions, we next show that every solution converges to a steady state as

t \to \infty

. When

ε \to 0

, we then establish convergence results on finite time intervals, showing that the solution tends in a suitable sense towards the solution of a parabolic problem without delay. Moreover, we establish the convergence of energies as

ε \to 0

, which enables us to show that, for ε small enough, the ε-dependent problem inherits part of the large time asymptotics of the limiting parabolic problem.

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从瞬态弹性连杆到摩擦：一个带时滞的惩罚四阶方程的完整研究

本文考虑了一个四阶非线性抛物型延迟问题，该问题模拟了细胞运动条件下连杆机构的准瞬时翻转。该模型依赖于一个代表记忆效应典型时间尺度的小参数ε。首先证明了ε固定解的整体存在唯一性。这是通过结合合适的不动点和能量参数，并通过揭示非局部的时间守恒积分量来实现的。在给出椭圆函数的稳定状态的完整分类之后，我们接下来证明了当t→∞时，每个解收敛于一个稳定状态。当ε→0时，我们建立了有限时间区间上的收敛结果，表明解在适当意义上趋向于无延迟抛物型问题的解。此外，我们建立了ε→0的能量收敛性，这使我们能够证明，当ε足够小时，ε相关问题继承了极限抛物型问题的部分大时间渐近性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal de Mathematiques Pures et Appliquees 数学-数学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Published from 1836 by the leading French mathematicians, the Journal des Mathématiques Pures et Appliquées is the second oldest international mathematical journal in the world. It was founded by Joseph Liouville and published continuously by leading French Mathematicians - among the latest: Jean Leray, Jacques-Louis Lions, Paul Malliavin and presently Pierre-Louis Lions.