二次和三次频率的须状环面分离矩阵分裂的指数小渐近估计

Q3 Mathematics
A. Delshams, M. Gonchenko, P. Gutiérrez
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引用次数: 11

摘要

研究了近可积哈密顿系统中两频或三频的须状环面不变流形的分裂问题,其中双曲部分由摆给出。我们考虑一个带频率矢量的二维环面!= (1;),这里是一个二次无理数,或者是一个带频率矢量的三维环面!= (1;;2),其中为三次无理数。应用Poincar e{Melnikov方法,我们得到了与不变环面相关的稳定流形和不稳定流形之间的最大分裂距离的指数小渐近估计,并证明了这种估计强烈依赖于频率的算术性质。在二次型情况下,我们利用连分式理论建立了一个特定的算术性质,它包含了24种情况,这使我们能够以一种简单的方式提供渐近估计。在三次情况下,我们将注意力集中在所谓的三次黄金数(x 3 +x 1的实数根= 0)的情况下,也得到了渐近估计。我们指出了在二次和三次情况下所得到的结果的相同点和不同点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exponentially small asymptotic estimates for the splitting of separatrices to whiskered tori with quadratic and cubic frequencies
We study the splitting of invariant manifolds of whiskered tori with two or three frequencies in nearly-integrable Hamiltonian systems, such that the hyperbolic part is given by a pendulum. We consider a 2-dimensional torus with a frequency vector ! = (1; ), where is a quadratic irrational number, or a 3-dimensional torus with a frequency vector ! = (1; ; 2 ), where is a cubic irrational number. Applying the Poincar e{Melnikov method, we nd exponentially small asymptotic estimates for the maximal splitting distance between the stable and unstable manifolds associated to the invariant torus, and we show that such estimates depend strongly on the arithmetic properties of the frequencies. In the quadratic case, we use the continued fractions theory to establish a certain arithmetic property, fullled in 24 cases, which allows us to provide asymptotic estimates in a simple way. In the cubic case, we focus our attention to the case in which is the so-called cubic golden number (the real root of x 3 +x 1 = 0), obtaining also asymptotic estimates. We point out the similitudes and dierences between the results obtained for both the quadratic and cubic cases.
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: Electronic Research Archive (ERA), formerly known as Electronic Research Announcements in Mathematical Sciences, rapidly publishes original and expository full-length articles of significant advances in all branches of mathematics. All articles should be designed to communicate their contents to a broad mathematical audience and must meet high standards for mathematical content and clarity. After review and acceptance, articles enter production for immediate publication. ERA is the continuation of Electronic Research Announcements of the AMS published by the American Mathematical Society, 1995—2007
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