不对称 Nizhnik-Novikov-Veselov 系统准共振双孑子解中的局部茎结构

IF 1.2 3区物理与天体物理 Q3 PHYSICS, MATHEMATICAL Journal of Mathematical Physics Pub Date : 2024-08-14 DOI:10.1063/5.0218541

Feng Yuan, Jiguang Rao, Jingsong He, Yi Cheng

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引用次数: 0

摘要

孤子的弹性碰撞一般具有有限的相移。当相移具有有限大值时，(2 + 1)维双孤子的两个顶点会因相移而明显分离，同时形成连接两个 V 形孤子的局部结构。我们将这种局部结构定义为茎结构。本研究系统地研究了 (2 + 1) 维非对称 Nizhnik-Novikov-Veselov 系统中两个孤子之间的局部茎结构。这些干结构产生于两个孤立子之间的准共振碰撞，表现出明显的空间局部性和时间不变性特征。我们探讨了两种情况：一种是弱准共振碰撞（即 a12 ≈ 0），另一种是强准共振碰撞（即 a12 ≈ +∞）。通过数学分析，我们对孤子臂的轨迹、振幅和速度有了全面的了解。此外，我们还讨论了茎结构的特征，包括其长度和极值点。我们的发现为 (2 + 1) 维非对称 Nizhnik-Novikov-Veselov 系统中孤子间的相互作用提供了新的启示。

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Localized stem structures in quasi-resonant two-soliton solutions for the asymmetric Nizhnik–Novikov–Veselov system

Elastic collisions of solitons generally have a finite phase shift. When the phase shift has a finitely large value, the two vertices of the (2 + 1)-dimensional two-soliton are significantly separated due to the phase shift, accompanied by the formation of a local structure connecting the two V-shaped solitons. We define this local structure as the stem structure. This study systematically investigates the localized stem structures between two solitons in the (2 + 1)-dimensional asymmetric Nizhnik–Novikov–Veselov system. These stem structures, arising from quasi-resonant collisions between the solitons, exhibit distinct features of spatial locality and temporal invariance. We explore two scenarios: one characterized by weakly quasi-resonant collisions (i.e. a12 ≈ 0), and the other by strongly quasi-resonant collisions (i.e. a12 ≈ +∞). Through mathematical analysis, we extract comprehensive insights into the trajectories, amplitudes, and velocities of the soliton arms. Furthermore, we discuss the characteristics of the stem structures, including their length and extreme points. Our findings shed new light on the interaction between solitons in the (2 + 1)-dimensional asymmetric Nizhnik–Novikov–Veselov system.

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来源期刊

Journal of Mathematical Physics 物理-物理：数学物理

CiteScore

2.20

自引率

15.40%

发文量

396

审稿时长

4.3 months

期刊介绍： Since 1960, the Journal of Mathematical Physics (JMP) has published some of the best papers from outstanding mathematicians and physicists. JMP was the first journal in the field of mathematical physics and publishes research that connects the application of mathematics to problems in physics, as well as illustrates the development of mathematical methods for such applications and for the formulation of physical theories. The Journal of Mathematical Physics (JMP) features content in all areas of mathematical physics. Specifically, the articles focus on areas of research that illustrate the application of mathematics to problems in physics, the development of mathematical methods for such applications, and for the formulation of physical theories. The mathematics featured in the articles are written so that theoretical physicists can understand them. JMP also publishes review articles on mathematical subjects relevant to physics as well as special issues that combine manuscripts on a topic of current interest to the mathematical physics community. JMP welcomes original research of the highest quality in all active areas of mathematical physics, including the following: Partial Differential Equations Representation Theory and Algebraic Methods Many Body and Condensed Matter Physics Quantum Mechanics - General and Nonrelativistic Quantum Information and Computation Relativistic Quantum Mechanics, Quantum Field Theory, Quantum Gravity, and String Theory General Relativity and Gravitation Dynamical Systems Classical Mechanics and Classical Fields Fluids Statistical Physics Methods of Mathematical Physics.