关于慢-快哈密顿系统共振时的相位

IF 0.8 4区 数学 Q3 MATHEMATICS, APPLIED
Yuyang Gao, Anatoly Neishtadt, Alexey Okunev
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引用次数: 0

摘要

我们考虑一个具有一个快角变量(一个快相位)的慢-快哈密顿系统,其频率在慢变量空间(一个谐振表面)的某个表面上消失。这种形式的系统出现在研究高频静电波影响下非均匀磁场中带电粒子的动力学中。在快速相位上平均的系统轨迹穿过谐振表面。快速相位使\(\sim\frac{1}{\varepsilon})在到达谐振表面之前转动(\(\varepsilion)是问题的一个小参数)。早些时候,在研究带电粒子动力学的背景下,基于启发式考虑,在没有任何精度估计的情况下,导出了到达共振时相位值的渐近公式。我们对这个公式进行了严格的推导,并证明了它的精度是\(O(\sqrt{\varepsilon})\)(直到对数校正)。这种精度估计是最优的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

On Phase at a Resonance in Slow-Fast Hamiltonian Systems

On Phase at a Resonance in Slow-Fast Hamiltonian Systems

We consider a slow-fast Hamiltonian system with one fast angle variable (a fast phase) whose frequency vanishes on some surface in the space of slow variables (a resonant surface). Systems of such form appear in the study of dynamics of charged particles in an inhomogeneous magnetic field under the influence of high-frequency electrostatic waves. Trajectories of the system averaged over the fast phase cross the resonant surface. The fast phase makes \(\sim\frac{1}{\varepsilon}\) turns before arrival at the resonant surface (\(\varepsilon\) is a small parameter of the problem). An asymptotic formula for the value of the phase at the arrival at the resonance was derived earlier in the context of study of charged particle dynamics on the basis of heuristic considerations without any estimates of its accuracy. We provide a rigorous derivation of this formula and prove that its accuracy is \(O(\sqrt{\varepsilon})\) (up to a logarithmic correction). This estimate for the accuracy is optimal.

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来源期刊
CiteScore
2.50
自引率
7.10%
发文量
35
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.
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