Negative symmetries: properties and applications. Continuation, part 2

V.E. Adler (Landau Institute for Theoretical Physics)

Thu Apr 25, 11:00-12:00 (8 months ago)

Abstract: One of the definitions of negative symmetry of an integrable equation is given by the formula $u_t=(R-a)^{-1}(0)$ where $R$ is the recursion operator and $a$ is a parameter. This extension of symmetry algebra is of interest from different points of view: 1) negative symmetry can be interesting as an independent equation; 2) it contains information about the entire integrable hierarchy, since the expansion in parameter a serves as a generating function for higher symmetries; 3) there are applications in the problem of constructing finite-dimensional reductions, especially in combination with classical symmetries (which provides an approach to constructing solutions expressed through higher analogues of Painlevé transcendents); 4) there are connections with other constructions, such as squared eigenfunctions symmetries and Bäcklund transformations. In the talk, we consider examples related to the KdV, Boussinesq and Krichever-Novikov equations and the Volterra lattice.

Russianmathematical physicsanalysis of PDEsclassical analysis and ODEsdynamical systemsnumerical analysisexactly solvable and integrable systemsfluid dynamics

Audience: researchers in the topic


Mathematical models and integration methods

Organizers: Oleg Kaptsov, Sergey P. Tsarev*, Yury Shan'ko*
*contact for this listing

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