行走液滴相互作用中的多重弹跳共振

IF 1.9 4区 工程技术 Q3 MECHANICS Mechanics Research Communications Pub Date : 2023-11-02 DOI:10.1016/j.mechrescom.2023.104215
George Zhang , Ivan C. Christov , Aminur Rahman
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引用次数: 0

摘要

行走液滴(“步行者”)的离散动力学模型允许快速的数值实验揭示在经典流体动力系统中迄今未观察到的量子统计和相关行为。我们提供的证据表明,一个这样的行走液滴模型表现出经验上难以捉摸的n-弹跳共振,这种共振传统上在具有多项式自相互作用的协变非线性场理论控制的孤波散射中看到。对所选择的相互作用的行走液滴模型进行了数值研究,揭示了在速度进速度出图中共振的分形结构,很像通常为孤立波碰撞构建的图。我们提出了进一步对步行者碰撞进行理论分析的途径,这可能将这种离散模型与场论设置联系起来,以及朝向新的实验实现n-弹跳共振的方向。
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Multi-bounce resonances in the interaction of walking droplets

Discrete dynamical models of walking droplets (“walkers”) have allowed swift numerical experiments revealing heretofore unobserved quantum statistics and related behaviors in a classical hydrodynamic system. We present evidence that one such model of walking droplets exhibits the empirically elusive n-bounce resonances that are traditionally seen in the scattering of solitary waves governed by covariant nonlinear field theories with polynomial self-interaction. A numerical investigation of the chosen model of interacting walking droplets reveals a fractal structure of resonances in the velocity in–velocity out diagram, much like the usual maps constructed for collisions of solitary waves. We suggest avenues for further theoretical analysis of walker collisions, which may connect this discrete model to the field-theoretic setting, as well as directions towards new experimental realizations n-bounce resonances.

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来源期刊
CiteScore
4.10
自引率
4.20%
发文量
114
审稿时长
9 months
期刊介绍: Mechanics Research Communications publishes, as rapidly as possible, peer-reviewed manuscripts of high standards but restricted length. It aims to provide: • a fast means of communication • an exchange of ideas among workers in mechanics • an effective method of bringing new results quickly to the public • an informal vehicle for the discussion • of ideas that may still be in the formative stages The field of Mechanics will be understood to encompass the behavior of continua, fluids, solids, particles and their mixtures. Submissions must contain a strong, novel contribution to the field of mechanics, and ideally should be focused on current issues in the field involving theoretical, experimental and/or applied research, preferably within the broad expertise encompassed by the Board of Associate Editors. Deviations from these areas should be discussed in advance with the Editor-in-Chief.
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