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A classification algorithm for integrable two-dimensional lattices via Lie—Rinehart algebras

I. T. Habibullin, М. Н. Кузнецова

2020Theoretical and Mathematical Physics26 citationsDOIOpen Access PDF

Abstract

We study the problem of the integrable classification of nonlinear lattices depending on one discrete and two continuous variables. By integrability, we mean the presence of reductions of a chain to a system of hyperbolic equations of an arbitrarily high order that are integrable in the Darboux sense. Darboux integrability admits a remarkable algebraic interpretation: the Lie—Rinehart algebras related to both characteristic directions corresponding to the reduced system of hyperbolic equations must have a finite dimension. We discuss a classification algorithm based on the properties of the characteristic algebra and present some classification results. We find new examples of integrable equations.

Topics & Concepts

Integrable systemMathematicsAlgebraic numberDimension (graph theory)Lie algebraPure mathematicsAlgebraic structureInterpretation (philosophy)Algebra over a fieldNonlinear systemOrder (exchange)Mathematical analysisPhysicsComputer scienceQuantum mechanicsFinanceProgramming languageEconomicsNonlinear Waves and SolitonsNonlinear Photonic Systems