双曲动力学的数值证据和具有周期系数的达芬方程解的编码

IF 0.8 4区 数学 Q3 MATHEMATICS, APPLIED
Mikhail E. Lebedev, Georgy L. Alfimov
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引用次数: 0

摘要

在本文中,我们考虑方程 \(u_{xx}+Q(x)u+P(x)u^{3}=0\) 其中 \(Q(x)\) 和 \(P(x)\) 是周期函数。众所周知,如果 \(P(x)\)改变符号,这个方程的解的 "大部分 "都是奇异的,即它们在实轴的有限点上趋于无穷大。我们的目的是尽可能完整地描述解,这些解在 \(\mathbb{R}\) 上是规则的(即不是奇异的)。为此,我们考虑了这个方程的 Poincaré 映射 \(\mathcal{P}\)(即过周期映射),并分析了定义了 \(\mathcal{P}\)和 \(\mathcal{P}^{-1}\)的平面 \((u,u_{x})\)的面积。我们给出了这些区域内由\(\mathcal{P}\)产生的双曲动力学的充分条件,并证明正则解对应于位于这些区域内的康托集。我们还提出了一种在 "数字证据 "层面验证这些充分条件的数字算法。这样,我们就可以通过符号动力学来描述这个方程的全部或某类正则解。我们证明,正则解可以用某种字母表的双无限符号序列来编码,完全或在某个类内。我们还给出了这一技术的应用实例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Numerical Evidence of Hyperbolic Dynamics and Coding of Solutions for Duffing-Type Equations with Periodic Coefficients

Numerical Evidence of Hyperbolic Dynamics and Coding of Solutions for Duffing-Type Equations with Periodic Coefficients

In this paper, we consider the equation \(u_{xx}+Q(x)u+P(x)u^{3}=0\) where \(Q(x)\) and \(P(x)\) are periodic functions. It is known that, if \(P(x)\) changes sign, a “great part” of the solutions for this equation are singular, i. e., they tend to infinity at a finite point of the real axis. Our aim is to describe as completely as possible solutions, which are regular (i. e., not singular) on \(\mathbb{R}\). For this purpose we consider the Poincaré map \(\mathcal{P}\) (i. e., the map-over-period) for this equation and analyse the areas of the plane \((u,u_{x})\) where \(\mathcal{P}\) and \(\mathcal{P}^{-1}\) are defined. We give sufficient conditions for hyperbolic dynamics generated by \(\mathcal{P}\) in these areas and show that the regular solutions correspond to a Cantor set situated in these areas. We also present a numerical algorithm for verifying these sufficient conditions at the level of “numerical evidence”. This allows us to describe regular solutions of this equation, completely or within some class, by means of symbolic dynamics. We show that regular solutions can be coded by bi-infinite sequences of symbols of some alphabet, completely or within some class. Examples of the application of this technique are given.

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来源期刊
CiteScore
2.50
自引率
7.10%
发文量
35
审稿时长
>12 weeks
期刊介绍: Regular and Chaotic Dynamics (RCD) is an international journal publishing original research papers in dynamical systems theory and its applications. Rooted in the Moscow school of mathematics and mechanics, the journal successfully combines classical problems, modern mathematical techniques and breakthroughs in the field. Regular and Chaotic Dynamics welcomes papers that establish original results, characterized by rigorous mathematical settings and proofs, and that also address practical problems. In addition to research papers, the journal publishes review articles, historical and polemical essays, and translations of works by influential scientists of past centuries, previously unavailable in English. Along with regular issues, RCD also publishes special issues devoted to particular topics and events in the world of dynamical systems.
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