Hamiltonian control of magnetic field lines: Computer assisted results proving the existence of KAM barriers

IF 1 Q3 Engineering

Journal of Computational Dynamics Pub Date : 2021-01-19 DOI:10.3934/jcd.2022002

L. Valvo, U. Locatelli

引用次数: 8

Abstract

We reconsider a control theory for Hamiltonian systems, that was introduced on the basis of KAM theory and applied to a model of magnetic field in previous articles. By a combination of Frequency Analysis and of a rigorous (Computer Assisted) KAM algorithm we prove that in the phase space of the magnetic field, due to the control term, a set of invariant tori appear, and it acts as a transport barrier. Our analysis, which is common (but often also limited) to Celestial Mechanics, is based on a normal form approach; it is also quite general and can be applied to quasi-integrable Hamiltonian systems satisfying a few additional mild assumptions. As a novelty with respect to the works that in the last two decades applied Computer Assisted Proofs into the framework of KAM theory, we provide all the codes allowing to produce our results. They are collected in a software package that is publicly available from the Mendeley Data repository. All these codes are designed in such a way to be easy-to-use, also for what concerns eventual adaptations for applications to similar problems.

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磁力线的哈密顿控制:计算机辅助结果证明了KAM障碍的存在

我们重新考虑了在前几篇文章中引入的基于KAM理论并应用于磁场模型的哈密顿系统控制理论。通过结合频率分析和严格的(计算机辅助)KAM算法，我们证明了在磁场的相空间中，由于控制项的存在，出现了一组不变的环面，它起着传输屏障的作用。我们的分析，这是常见的(但也经常是有限的)天体力学，是基于标准形式的方法;它也是相当普遍的，并且可以应用于满足一些附加温和假设的拟可积哈密顿系统。作为在过去二十年中将计算机辅助证明应用于KAM理论框架的工作的新颖性，我们提供了允许产生我们结果的所有代码。它们被收集在一个软件包中，这个软件包可以从Mendeley数据存储库中公开获得。所有这些代码都以易于使用的方式设计，也考虑到应用程序最终适应类似的问题。

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 of Computational Dynamics Engineering-Computational Mechanics

CiteScore

2.30

自引率

10.00%

发文量

期刊介绍： JCD is focused on the intersection of computation with deterministic and stochastic dynamics. The mission of the journal is to publish papers that explore new computational methods for analyzing dynamic problems or use novel dynamical methods to improve computation. The subject matter of JCD includes both fundamental mathematical contributions and applications to problems from science and engineering. A non-exhaustive list of topics includes * Computation of phase-space structures and bifurcations * Multi-time-scale methods * Structure-preserving integration * Nonlinear and stochastic model reduction * Set-valued numerical techniques * Network and distributed dynamics JCD includes both original research and survey papers that give a detailed and illuminating treatment of an important area of current interest. The editorial board of JCD consists of world-leading researchers from mathematics, engineering, and science, all of whom are experts in both computational methods and the theory of dynamical systems.