Multidimensional integrable systems from contact geometry

TL;DR

This paper introduces a new class of (3+1)-dimensional integrable systems derived from contact geometry, expanding the known landscape of integrable PDEs and generalizing several well-known dispersionless equations.

Contribution

It presents a novel construction method for (3+1)-dimensional integrable systems using contact vector fields, revealing more such systems than previously known and providing new generalizations of classical equations.

Findings

Discovered a large new class of (3+1)-dimensional integrable systems.

Constructed integrable generalizations of classical dispersionless equations.

First example of a (3+1)-D integrable system with algebraic nonisospectral Lax pair.

Abstract

Upon having presented a bird's eye view of history of integrable systems, we give a brief review of certain earlier advances (arXiv:1401.2122 & arXiv:1812.02263) in the longstanding problem of search for partial differential systems in four independent variables, often referred to as (3+1)-dimensional or 4D systems, that are integrable in the sense of soliton theory. Namely, we review a recent construction for a large new class of (3+1)-dimensional integrable systems with Lax pairs involving contact vector fields. This class contains inter alia two infinite families of such systems, thus establishing that there is significantly more integrable (3+1)-dimensional systems than it was believed for a long time. In fact, the construction under study yields (3+1)-dimensional integrable generalizations of many well-known dispersionless integrable (2+1)-dimensional systems like the dispersionless KP equation, as well as a first example of a (3+1)-dimensional integrable system with an algebraic, rather than rational, nonisospectral Lax pair. To demonstrate the versatility of the construction in question, we employ it here to produce novel integrable (3+1)-dimensional generalizations for the following (2+1)-dimensional integrable systems: dispersionless BKP, dispersionless asymmetric Nizhnik--Veselov--Novikov, dispersionless Gardner, and dispersionless modified KP equations, and the generalized Benney system.