Orthogonal Laurent polynomials on the unit circle, extended CMV ordering and 2D Toda type integrable hierarchies

We connect the theory of orthogonal Laurent polynomials on the unit circle and the theory of Toda-like integrable systems using the Gauss-Borel factorization of a Cantero-Moral-Velazquez moment matrix, that we construct in terms of a complex quasi-definite measure supported on the unit circle. The f...

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Detalhes bibliográficos
Autores: Álvarez Fernández, Carlos, Mañas Baena, Manuel Enrique
Formato: artículo
Fecha de publicación:2013
País:España
Recursos:Universidad Complutense de Madrid (UCM)
Repositorio:Docta Complutense
Idioma:inglés
OAI Identifier:oai:docta.ucm.es:20.500.14352/34794
Acesso em linha:https://hdl.handle.net/20.500.14352/34794
Access Level:acceso abierto
Palavra-chave:51-73
Differential-difference equations
Kadomtsev-petviashvili equation
Discrete hp-hierarchy
Szego polynomials
Multicomponent kp
Moment problem
Schur flows
Matrices
Zeros
Asymptotics
Física-Modelos matemáticos
Física matemática
Descrição
Resumo:We connect the theory of orthogonal Laurent polynomials on the unit circle and the theory of Toda-like integrable systems using the Gauss-Borel factorization of a Cantero-Moral-Velazquez moment matrix, that we construct in terms of a complex quasi-definite measure supported on the unit circle. The factorization of the moment matrix leads to orthogonal Laurent polynomials on the unit circle and the corresponding second kind functions. We obtain Jacobi operators, 5-term recursion relations, Christoffel-Darboux kernels, and corresponding Christoffel-Darboux formulas from this point of view in a completely algebraic way. We generalize the Cantero- Moral-Velazquez sequence of Laurent monomials, recursion relations, Christoffel-Darboux kernels, and corresponding Christoffel-Darboux formulas in this extended context. We introduce continuous deformations of the moment matrix and we show how they induce a time dependent orthogonality problem related to a Toda-type integrable system, which is connected with the well known Toeplitz lattice. We obtain the Lax and Zakharov-Shabat equations using the classical integrability theory tools. We explicitly derive the dynamical system associated with the coefficients of the orthogonal Laurent polynomials and we compare it with the classical Toeplitz lattice dynamical system for the Verblunsky coefficients of Szego polynomials for a positive measure. Discrete flows are introduced and related to Darboux transformations. Finally, we obtain the representation of the orthogonal Laurent polynomials (and their second kind functions), using the formalism of Miwa shifts in terms of tau-functions and the subsequent bilinear equations.