Bi-orthogonal Polynomials on the Unit Circle, regular semi-classical Weights and Integrable Systems

Abstract

The theory of bi-orthogonal polynomials on the unit circle is developed for a general class of weights leading to systems of recurrence relations and derivatives of the polynomials and their associated functions, and to functional-difference equations of certain coefficient functions appearing in the theory. A natural formulation of the Riemann-Hilbert problem is presented which has as its solution the above system of bi-orthogonal polynomials and associated functions. In particular for the case of regular semi-classical weights on the unit circle w(z) = Πmj=1(z-zj(t))j , consisting of m ∈ Z> 0 finite singularities, difference equations with respect to the bi-orthogonal polynomial degree n (Laguerre-Freud equations or discrete analogs of the Schlesinger equations) and differential equations with respect to the deformation variables zj(t) (Schlesinger equations) are derived completely characterising the system.

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