Boussinesq 型系统的可积分性条件

arXiv - PHYS - Exactly Solvable and Integrable Systems Pub Date : 2024-06-28 DOI:arxiv-2406.19919

Rafael Hernandez Heredero, Vladimir Sokolov

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引用次数: 0

摘要

对演化可积分偏微分方程进行分类的对称性方法（例如，见~/cite{MikShaSok91}）产生了一个无穷系列的函数，这些函数定义在右边，是任何具有无限多无穷小对称性方程的守恒密度。例如，函数 $\frac{\partial f}{partial u_{x}}$ 必须是任何 KdV 型可积分方程的守恒密度~$u_t=u_{xxx}+f(u,u_x)$。这一事实对函数~$f$的形式施加了非常强的条件。在本文中，我们将为布西内斯克类型方程构建类似的典型量。为了做到这一点，我们将方程写成演化系统，并将 \cite{MSY} 中提出的形式对角化过程推广到这些系统。

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Integrability conditions for Boussinesq type systems

The symmetry approach to the classification of evolution integrable partial differential equations (see, for example~\cite{MikShaSok91}) produces an infinite series of functions, defined in terms of the right hand side, that are conserved densities of any equation having infinitely many infinitesimal symmetries. For instance, the function $\frac{\partial f}{\partial u_{x}}$ has to be a conserved density of any integrable equation of the~KdV type~$u_t=u_{xxx}+f(u,u_x)$. This fact imposes very strong conditions on the form of the function~$f$. In this paper we construct similar canonical densities for equations of the Boussinesq type. In order to do that, we write the equations as evolution systems and generalise the formal diagonalisation procedure proposed in \cite{MSY} to these systems.

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arXiv - PHYS - Exactly Solvable and Integrable Systems

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