The Cauchy Problem for Darboux Integrable Systems and Non-Linear d'Alembert Formulas

To every Darboux integrable system there is an associated Lie group $G$ which is a fundamental invariant of the system and which we call the Vessiot group. This article shows that solving the Cauchy problem for a Darboux integrable partial differential equation can be reduced to solving an equatio...

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Veröffentlicht in:	arXiv.org 2013-02
Hauptverfasser:	Anderson, Ian M, Fels, Mark E
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Sprache:	eng
Schlagworte:	Boundary value problems Cauchy problems Formulas (mathematics) Lie groups Mathematics - Differential Geometry Nonlinear systems Partial differential equations Quadratures Wave equations
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description	To every Darboux integrable system there is an associated Lie group $G$ which is a fundamental invariant of the system and which we call the Vessiot group. This article shows that solving the Cauchy problem for a Darboux integrable partial differential equation can be reduced to solving an equation of Lie type for the Vessiot group $G$. If the Vessiot group $G$ is solvable then the Cauchy problem can be solved by quadratures. This allows us to give explicit integral formulas, similar to the well known d'Alembert's formula for the wave equation, to the initial value problem with generic non-characteristic initial data.
doi_str_mv	10.48550/arxiv.1210.2370
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subjects	Boundary value problems Cauchy problems Formulas (mathematics) Lie groups Mathematics - Differential Geometry Nonlinear systems Partial differential equations Quadratures Wave equations
title	The Cauchy Problem for Darboux Integrable Systems and Non-Linear d'Alembert Formulas
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