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Main Authors: Clarkson, Peter A., Jordaan, Kerstin, Loureiro, Ana
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.08522
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author Clarkson, Peter A.
Jordaan, Kerstin
Loureiro, Ana
author_facet Clarkson, Peter A.
Jordaan, Kerstin
Loureiro, Ana
contents This paper investigates properties of the sequence of coefficients $(β_n)_{n\geq0}$ in the recurrence relation satisfied by the sequence of monic symmetric polynomials, orthogonal with respect to the symmetric sextic Freud weight $$ω(x;τ, t) = \exp(-x^6 +τx^4 + t x^2), \qquad x \in \mathbb{R},$$ with real parameters $τ$ and $t$. It is known that the recurrence coefficients $β_n$ satisfy a fourth-order nonlinear discrete equation, which is a special case of the second member of the discrete Painlevé I hierarchy, often known as the ''string equation''. The recurrence coefficients have been studied in the context of Hermitian one-matrix models and random symmetric matrix ensembles with researchers in the 1990s observing ''chaotic, pseudo-oscillatory'' behaviour. More recently, this ''chaotic phase'' was described as a dispersive shockwave in a hydrodynamic chain. Our emphasis is a comprehensive study of the behaviour of the recurrence coefficients as the parameters $τ$ and $t$ vary. Extensive computational analysis is carried out, using Maple, for critical parameter ranges, and graphical plots are presented to illustrate the behaviour of the recurrence coefficients as well as the complexity of the associated Volterra lattice hierarchy. The corresponding symmetric sextic Freud polynomials are shown to satisfy a second-order differential equation with rational coefficients. The moments of the weight are examined in detail, including their integral representations, differential equations, and recursive structure. Closed-form expressions for moments are obtained in several special cases in terms of generalised hypergeometric functions and modified Bessel functions. The results highlight the rich algebraic and analytic structures underlying the Freud weight and its connections to integrable systems.
format Preprint
id arxiv_https___arxiv_org_abs_2504_08522
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Symmetric Sextic Freud Weight
Clarkson, Peter A.
Jordaan, Kerstin
Loureiro, Ana
Exactly Solvable and Integrable Systems
Mathematical Physics
Classical Analysis and ODEs
33C47 42C05 65Q30
This paper investigates properties of the sequence of coefficients $(β_n)_{n\geq0}$ in the recurrence relation satisfied by the sequence of monic symmetric polynomials, orthogonal with respect to the symmetric sextic Freud weight $$ω(x;τ, t) = \exp(-x^6 +τx^4 + t x^2), \qquad x \in \mathbb{R},$$ with real parameters $τ$ and $t$. It is known that the recurrence coefficients $β_n$ satisfy a fourth-order nonlinear discrete equation, which is a special case of the second member of the discrete Painlevé I hierarchy, often known as the ''string equation''. The recurrence coefficients have been studied in the context of Hermitian one-matrix models and random symmetric matrix ensembles with researchers in the 1990s observing ''chaotic, pseudo-oscillatory'' behaviour. More recently, this ''chaotic phase'' was described as a dispersive shockwave in a hydrodynamic chain. Our emphasis is a comprehensive study of the behaviour of the recurrence coefficients as the parameters $τ$ and $t$ vary. Extensive computational analysis is carried out, using Maple, for critical parameter ranges, and graphical plots are presented to illustrate the behaviour of the recurrence coefficients as well as the complexity of the associated Volterra lattice hierarchy. The corresponding symmetric sextic Freud polynomials are shown to satisfy a second-order differential equation with rational coefficients. The moments of the weight are examined in detail, including their integral representations, differential equations, and recursive structure. Closed-form expressions for moments are obtained in several special cases in terms of generalised hypergeometric functions and modified Bessel functions. The results highlight the rich algebraic and analytic structures underlying the Freud weight and its connections to integrable systems.
title Symmetric Sextic Freud Weight
topic Exactly Solvable and Integrable Systems
Mathematical Physics
Classical Analysis and ODEs
33C47 42C05 65Q30
url https://arxiv.org/abs/2504.08522