Fej\'er-Riesz factorizations and the structure of bivariate polynomials orthogonal on the bi-circle

TL;DR

This paper characterizes when positive bivariate trigonometric polynomials on the bi-circle can be factored into squares of polynomials, linking these factorizations to recurrence coefficients of orthogonal polynomials and measure properties.

Contribution

It provides a complete characterization of such factorizations using recurrence coefficients and describes their relation to measure properties on the bi-circle.

Findings

Characterization of factorizable positive trigonometric polynomials.

Connection between weight factorizations and recurrence coefficients.

Identification of measures with specific polynomial coefficient properties.

Abstract

We give a complete characterization of the positive trigonometric polynomials Q(\theta,\phi) on the bi-circle, which can be factored as Q(\theta,\phi)=|p(e^{i\theta},e^{i\phi})|^2 where p(z,w) is a polynomial nonzero for |z|=1 and |w|\leq 1. The conditions are in terms of recurrence coefficients associated with the polynomials in lexicographical and reverse lexicographical ordering orthogonal with respect to the weight 1/(4\pi^2Q(\theta,\phi)) on the bi-circle. We use this result to describe how specific factorizations of weights on the bi-circle can be translated into identities relating the recurrence coefficients for the corresponding polynomials and vice versa. In particular, we characterize the Borel measures on the bi-circle for which the coefficients multiplying the reverse polynomials associated with the two operators: multiplication by z in lexicographical ordering and multiplication by w in reverse lexicographical ordering vanish after a particular point. This can be considered as a spectral type result analogous to the characterization of the Bernstein-Szeg\H{o} measures on the unit circle.