3D Generating Surfaces in Hamiltonian Systems with Three Degrees of Freedom – II

IF 1.9 4区数学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS International Journal of Bifurcation and Chaos Pub Date : 2024-03-12 DOI:10.1142/s0218127424300052

Matthaios Katsanikas, Stephen Wiggins

引用次数: 0

Abstract

Our paper is a continuation of a previous work referenced as [Katsanikas & Wiggins, 2024b]. In this new paper, we present a second method for computing three-dimensional generating surfaces in Hamiltonian systems with three degrees of freedom. These 3D generating surfaces are distinct from the Normally Hyperbolic Invariant Manifold (NHIM) and have the unique property of producing dividing surfaces with no-recrossing characteristics, as explained in our previous work [Katsanikas & Wiggins, 2024b]. This second method for computing 3D generating surfaces is valuable, especially in cases where the first method is unable to achieve the desired results. This research aims to provide alternative techniques and solutions for addressing specific challenges in Hamiltonian systems with three degrees of freedom and improving the accuracy and reliability of generating surfaces. This research may find applications in the broader field of dynamical systems and attract the attention of researchers and scholars interested in these areas.

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具有三个自由度的哈密顿系统中的 3D 生成曲面 - II

我们的论文是之前参考文献[Katsanikas & Wiggins, 2024b]的继续。在这篇新论文中，我们提出了计算具有三个自由度的哈密顿系统中三维生成面的第二种方法。这些三维生成面有别于常双曲不变曲面（NHIM），具有生成无交叉特征的分割曲面的独特性质，这在我们之前的工作[Katsanikas & Wiggins, 2024b]中已有解释。计算三维生成曲面的第二种方法非常有价值，尤其是在第一种方法无法实现预期结果的情况下。本研究旨在提供替代技术和解决方案，以应对具有三个自由度的哈密顿系统中的特定挑战，并提高生成曲面的精度和可靠性。这项研究可能会应用于更广泛的动力系统领域，并吸引对这些领域感兴趣的研究人员和学者的关注。

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

International Journal of Bifurcation and Chaos 数学-数学跨学科应用

CiteScore

4.10

自引率

13.60%

发文量

237

审稿时长

2-4 weeks

期刊介绍： The International Journal of Bifurcation and Chaos is widely regarded as a leading journal in the exciting fields of chaos theory and nonlinear science. Represented by an international editorial board comprising top researchers from a wide variety of disciplines, it is setting high standards in scientific and production quality. The journal has been reputedly acclaimed by the scientific community around the world, and has featured many important papers by leading researchers from various areas of applied sciences and engineering. The discipline of chaos theory has created a universal paradigm, a scientific parlance, and a mathematical tool for grappling with complex dynamical phenomena. In every field of applied sciences (astronomy, atmospheric sciences, biology, chemistry, economics, geophysics, life and medical sciences, physics, social sciences, ecology, etc.) and engineering (aerospace, chemical, electronic, civil, computer, information, mechanical, software, telecommunication, etc.), the local and global manifestations of chaos and bifurcation have burst forth in an unprecedented universality, linking scientists heretofore unfamiliar with one another''s fields, and offering an opportunity to reshape our grasp of reality.