On the Stability of Discrete \(N+1\) Vortices in a Two-Layer Rotating Fluid: The Cases \(N=4,5,6\)

IF 0.8 4区数学 Q3 MATHEMATICS, APPLIED

Regular and Chaotic Dynamics Pub Date : 2024-12-20 DOI:10.1134/S1560354724580019

Leonid G. Kurakin, Irina V. Ostrovskaya, Mikhail A. Sokolovskiy

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引用次数: 0

Abstract

A two-layer quasigeostrophic model is considered in the \(f\)-plane approximation. The stability of a discrete axisymmetric vortex structure is analyzed for the case where the structure consists of a central vortex of arbitrary effective intensity \(\Gamma\) and \(N\) (\(N=4,5\) and \(6\)) identical peripheral vortices. The identical vortices, each having a unit effective intensity, are uniformly distributed over a circle of radius \(R\) in the lower layer. The central vortex lies either in the same or in another layer. The problem has three parameters \((R,\Gamma,\alpha)\), where \(\alpha\) is the difference between layer nondimensional thicknesses. The cases \(N=2,3\) were investigated by us earlier.

The theory of stability of steady-state motions of dynamical systems with a continuous symmetry group \(\mathcal{G}\) is applied. The two definitions of stability used in the study are Routh stability and \(\mathcal{G}\)-stability. The Routh stability is the stability of a one-parameter orbit of a steady-state rotation of a vortex structure, and the \(\mathcal{G}\)-stability is the stability of a three-parameter invariant set \(O_{\mathcal{G}}\), formed by the orbits of a continuous family of steady-state rotations of a two-layer vortex structure. The problem of Routh stability is reduced to the problem of stability of a family of equilibria of a Hamiltonian system. The quadratic part of the Hamiltonian and the eigenvalues of the linearization matrix are studied analytically.

The results of theoretical analysis are sustained by numerical calculations of vortex trajectories.

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两层旋转流体中离散\(N+1\)涡旋的稳定性 \(N=4,5,6\)

在\(f\) -平面近似中考虑了一个两层拟转地模型。本文分析了由任意有效强度的中心涡\(\Gamma\)和相同外围涡\(N\) （\(N=4,5\)和\(6\)）组成的离散轴对称涡结构的稳定性。相同的涡旋，每个都有一个单位有效强度，均匀分布在一个半径为\(R\)的圆在低层。中心涡要么在同一层，要么在另一层。该问题有三个参数\((R,\Gamma,\alpha)\)，其中\(\alpha\)是层无量纲厚度之间的差。这些案件\(N=2,3\)是我们早些时候调查过的。应用了具有连续对称群\(\mathcal{G}\)的动力系统稳态运动的稳定性理论。研究中使用的稳定性的两个定义是Routh稳定性和\(\mathcal{G}\) -稳定性。Routh稳定性是涡旋结构稳态旋转的单参数轨道的稳定性，\(\mathcal{G}\) -稳定性是由两层涡旋结构的连续稳态旋转族轨道组成的三参数不变集\(O_{\mathcal{G}}\)的稳定性。劳斯稳定性问题被简化为哈密顿系统均衡族的稳定性问题。对线性化矩阵的特征值和哈密顿量的二次部分进行了解析研究。理论分析的结果得到了涡流轨迹数值计算的支持。

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

Regular and Chaotic Dynamics 物理-力学

CiteScore

2.50

自引率

7.10%

发文量

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.