KAM tori for generalized Boussinesq equation  

广义Boussinesq方程的KAM环面(英文)

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作  者:石艳玲[1,2] 陆雪竹 

机构地区:[1]东南大学数学系,南京211189 [2]盐城工学院基础部,盐城224003

出  处:《Journal of Southeast University(English Edition)》2015年第1期157-162,共6页东南大学学报(英文版)

基  金:The National Natural Science Foundation of China(No.11301072);the Natural Science Foundation of Jiangsu Province(No.BK20131285);the Research and Innovation Project for College Graduates of Jiangsu Province(No.CXZZ12-0083,CXLX13-074)

摘  要:One-dimensional generalized Boussinesq equation u tt-u xx+(f(u)+u xx)xx=0.with periodic boundary condition is considered, where f(u) = u3. First, the above equation is written as a Hamiltonian system, and then by choosing the eigenfunctions of the linear operator as bases, the Hamiltonian system in the coordinates is expressed. Because of the intricate resonance between the tangential frequencies and normal frequencies, some quasi-periodic solutions with special structures are considered. Secondly, the regularity of the Hamiltonian vector field is verified and then the fourth-order terms are normalized. By the Birkhoff normal form, the non- degeneracy and non-resonance conditions are obtained. Applying the infinite dimensional Kolmogorov-Arnold-Moser (KAM) theorem, the existence of finite dimensional invariant tori for the equivalent Hamiltonian system is proved. Hence many small-amplitude quasi-periodic solutions for the above equation are obtained.考虑周期边界下具有非线性项f(u)=u3的一维广义Boussinesq方程u tt-u xx+(f(u)+u xx)xx=0.首先,将上述方程转化为一个哈密顿系统,并将该系统在线性算子的特征基上展开得到坐标形式下的哈密顿系统.鉴于切频与法频之间复杂的共振关系,考虑一类具有特殊结构的拟周期解.其次,验证了哈密顿向量场的正则性,并对四次项进行规范化,从规范形中可以得到无穷维KAM定理所要求的非退化和非共振条件.利用一个KAM定理证明与方程等价的无穷维哈密顿系统存在许多有限维不变环面,故原方程有许多小振幅的拟周期解.

关 键 词:generalized Boussinesq equation quasi-periodicsolution Hamiltonian system invariant toil 

分 类 号:O175.2[理学—数学]

 

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