ON ZYGMUND–TYPE INEQUALITIES CONCERNING POLAR DERIVATIVE OF POLYNOMIALS

Let $P(z)$ be a polynomial of degree $n$, then concerning the estimate for maximum of $|P'(z)|$ on the unit circle, it was proved by S. Bernstein that $\| P'\|_{\infty}\leq n\| P\|_{\infty}$. Later, Zygmund obtained an $L_p$-norm extension of this inequality. The polar derivative...

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Bibliographic Details
Main Authors:	Nisar Ahmad Rather, Suhail Gulzar, Aijaz Bhat
Format:	Article
Language:	English
Published:	Ural Branch of the Russian Academy of Sciences and Ural Federal University named after the first President of Russia B.N.Yeltsin, Krasovskii Institute of Mathematics and Mechanics 2021-07-01
Series:	Ural Mathematical Journal
Subjects:	$l^{p}$-inequalities, polar derivative, polynomials
Online Access:	https://umjuran.ru/index.php/umj/article/view/290
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Summary:	Let $P(z)$ be a polynomial of degree $n$, then concerning the estimate for maximum of $\|P'(z)\|$ on the unit circle, it was proved by S. Bernstein that $\\| P'\\|_{\infty}\leq n\\| P\\|_{\infty}$. Later, Zygmund obtained an $L_p$-norm extension of this inequality. The polar derivative $D_{\alpha}[P](z)$ of $P(z)$, with respect to a point $\alpha \in \mathbb{C}$, generalizes the ordinary derivative in the sense that $\lim_{\alpha\to\infty} D_{\alpha}[P](z)/{\alpha} = P'(z).$ Recently, for polynomials of the form $P(z) = a_0 + \sum_{j=\mu}^n a_jz^j,$ $1\leq\mu\leq n$ and having no zero in $\|z\| < k$ where $k > 1$, the following Zygmund-type inequality for polar derivative of $P(z)$ was obtained: $$\\|D_{\alpha}[P]\\|_p\leq n \Big(\dfrac{\|\alpha\|+k^{\mu}}{\\|k^{\mu}+z\\|_p}\Big)\\|P\\|_p, \quad \text{where}\quad \|\alpha\|\geq1,\quad p>0.$$ In this paper, we obtained a refinement of this inequality by involving minimum modulus of $\|P(z)\|$ on $\|z\| = k$, which also includes improvements of some inequalities, for the derivative of a polynomial with restricted zeros as well.
ISSN:	2414-3952

Summary:	Let \(P(z)\) be a polynomial of degree \(n\), then concerning the estimate for maximum of \(\|P'(z)\|\) on the unit circle, it was proved by S. Bernstein that \(\\| P'\\|_{\infty}\leq n\\| P\\|_{\infty}\). Later, Zygmund obtained an \(L_p\)-norm extension of this inequality. The polar derivative \(D_{\alpha}[P](z)\) of \(P(z)\), with respect to a point \(\alpha \in \mathbb{C}\), generalizes the ordinary derivative in the sense that \(\lim_{\alpha\to\infty} D_{\alpha}[P](z)/{\alpha} = P'(z).\) Recently, for polynomials of the form \(P(z) = a_0 + \sum_{j=\mu}^n a_jz^j,\) \(1\leq\mu\leq n\) and having no zero in \(\|z\| < k\) where \(k > 1\), the following Zygmund-type inequality for polar derivative of \(P(z)\) was obtained: $$\\|D_{\alpha}[P]\\|_p\leq n \Big(\dfrac{\|\alpha\|+k^{\mu}}{\\|k^{\mu}+z\\|_p}\Big)\\|P\\|_p, \quad \text{where}\quad \|\alpha\|\geq1,\quad p>0.$$ In this paper, we obtained a refinement of this inequality by involving minimum modulus of \(\|P(z)\|\) on \(\|z\| = k\), which also includes improvements of some inequalities, for the derivative of a polynomial with restricted zeros as well.
ISSN:	2414-3952

ON ZYGMUND–TYPE INEQUALITIES CONCERNING POLAR DERIVATIVE OF POLYNOMIALS

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