常微分方程与平稳可积偏微分方程的经典对称性

IF 1 Q1 MATHEMATICS
I. Tsyfra
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引用次数: 0

摘要

研究了关于单参数李群的平稳可积偏微分方程解与二阶常微分方程系数不变的关系。采用经典的对称方法。证明了常微分方程的系数满足两自变量平稳可积偏微分方程,则该常微分方程是可积的。如果选取可积偏微分方程的特解,则其系数满足平稳KdV方程。证明了Ermakov方程属于这类方程。在该方法的框架内,我们对广义里卡第方程得到了类似的结果。利用不变微分算子描述了一类高阶常微分方程,利用群论方法可以对其进行降阶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On classical symmetries of ordinary differential equations related to stationary integrable partial differential equations
We study the relationship between the solutions of stationary integrable partial and ordinary differential equations and coefficients of the second-order ordinary differential equations invariant with respect to one-parameter Lie group. The classical symmetry method is applied. We prove that if the coefficients of ordinary differential equation satisfy the stationary integrable partial differential equation with two independent variables then the ordinary differential equation is integrable by quadratures. If special solutions of integrable partial differential equations are chosen then the coefficients satisfy the stationary KdV equations. It was shown that the Ermakov equation belong to a class of these equations. In the framework of the approach we obtained the similar results for generalized Riccati equations. By using operator of invariant differentiation we describe a class of higher order ordinary differential equations for which the group-theoretical method enables us to reduce the order of ordinary differential equation.
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来源期刊
Opuscula Mathematica
Opuscula Mathematica MATHEMATICS-
CiteScore
1.70
自引率
20.00%
发文量
30
审稿时长
22 weeks
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