ALMOST-PERIODIC BIFURCATIONS FOR 2-DIMENSIONAL DEGENERATE HAMILTONIAN VECTOR FIELDS

IF 1 4区数学 Q3 MATHEMATICS, APPLIED Journal of Applied Analysis and Computation Pub Date : 2023-01-01 DOI:10.11948/20220163

Xinyu Guan, Wen Si

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Abstract

In this paper, we develop almost-periodic tori bifurcation theory for $ 2 $-dimensional degenerate Hamiltonian vector fields. With KAM theory and singularity theory, we show that the universal unfolding of completely degenerate Hamiltonian $ N(x, y)=x^2y+y^l $ and partially degenerate Hamiltonian $ M(x, y)=x^2+y^l, $ respectively, can persist under any small almost-periodic time-dependent perturbation and some appropriate non-resonant conditions on almost-periodic frequency $ \omega=(\cdots, \omega_i, \cdots)_{i\in \mathbb{Z}}\in \mathbb{R}^\mathbb{Z}. $ We extend the analysis about almost-periodic bifurcations of one-dimensional degenerate vector fields considered in [21] to $ 2 $-dimensional degenerate vector fields. Our main results (Theorem 2.1 and Theorem 2.2) imply infinite-dimensional degenerate umbilical tori or normally parabolic tori bifurcate according to a generalised umbilical catastrophe or generalised cuspoid catastrophe under any small almost-periodic perturbation. For the proof in this paper we use the overall strategy of [21], which however has to be substantially developed to deal with the equations considered here.

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二维简并哈密顿向量场的概周期分岔

本文给出了2维简并哈密顿向量场的概周期环面分岔理论。利用KAM理论和奇点理论，分别证明了完全简并哈密顿量$ N(x, y)=x^2y+y^l $和部分简并哈密顿量$ M(x, y)=x^2+y^l， $在几乎周期频率$ \ ω =(\cdots， \omega_i， \cdots)_{i\in \mathbb{Z}}\in \mathbb{R}^\mathbb{Z}上，在任意小的时间相关扰动和适当的非共振条件下，可以持续展开。我们将文献[21]中关于一维简并向量场的概周期分岔的分析推广到二维简并向量场。我们的主要结果(定理2.1和定理2.2)表明，在任何小的近周期扰动下，无限维简并脐环面或通常抛物型环面根据广义脐突变或广义尖突变分叉。对于本文的证明，我们使用了[21]的总体策略，然而，为了处理这里考虑的方程，必须对其进行实质性的发展。

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来源期刊

Journal of Applied Analysis and Computation MATHEMATICS, APPLIED-

CiteScore

2.30

自引率

9.10%

发文量

期刊介绍： The Journal of Applied Analysis and Computation (JAAC) is aimed to publish original research papers and survey articles on the theory, scientific computation and application of nonlinear analysis, differential equations and dynamical systems including interdisciplinary research topics on dynamics of mathematical models arising from major areas of science and engineering. The journal is published quarterly in February, April, June, August, October and December by Shanghai Normal University and Wilmington Scientific Publisher, and issued by Shanghai Normal University.