Asymptotic upper bounds for the entropy of orthogonal polynomials in the Szegő class.

Asymptotic upper bounds for the entropy of orthogonal polynomials in the Szegő class.

We give an asymptotic upper bound as $n\to\infty$ for the entropy integral $$E_n(w)= -\int p_n^2(x)\log (p_n^2(x))w(x)dx,$$ where $p_n$ is the $n$th degree orthonormal polynomial with respect to a weight $w(x)$ on $[-1,1]$ which belongs to the Szeg\H{o} class. We also study two functionals closely r...

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Bibliographic Details
Main Authors: Beckermann, B., Martínez-Finkelshtein, Andrei, Rakhmanov, Evgenii A., Wielonsky, F.
Format: info:eu-repo/semantics/article
Language:English
Published: 2012
Subjects:
Análisis asintótico
Polinomios ortogonales
Variables aleatorias
Online Access:http://hdl.handle.net/10835/1640
Description
Summary:We give an asymptotic upper bound as $n\to\infty$ for the entropy integral $$E_n(w)= -\int p_n^2(x)\log (p_n^2(x))w(x)dx,$$ where $p_n$ is the $n$th degree orthonormal polynomial with respect to a weight $w(x)$ on $[-1,1]$ which belongs to the Szeg\H{o} class. We also study two functionals closely related to the entropy integral. First, their asymptotic behavior is completely described for weights $w$ in the Bernstein class. Then, as for the entropy, we obtain asymptotic upper bounds for these two functionals when $w(x)$ belongs to the Szeg\H{o} class. In each case, we give conditions for these upper bounds to be attained.

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