Abstract
Let \(P (z)\) be a polynomial of degree \(n\) having no zeros in \(|z| &lt; k\), \(k \leq 1\), and let \(Q (z) := z^n \overline{P (1/{\overline {z}})}\). It was shown by Govil that if \(\max_{|z| = 1} |P^\prime (z)|\) and \(\max_{|z| = 1} |Q^\prime (z)|\) are attained at the same point of the unit circle \(|z| = 1\), then \[\max_{|z| = 1} |P'(z)| \leq \frac{n}{1 + k^n} \max_{|z| = 1} |P(z)|.\]<br />The main result of the present article is a generalization of Govil's polynomial inequality to a class of entire functions of exponential type.<br /><br />
Highlights
Let Pm denote the class of all polynomials of degree at most m and let Q(z) := zmP (1/z))
It is known that if f (z) is an entire function of exponential type τ which is periodic on the real axis with period ∆, it must be of the form f (z) =
The proof of Theorem 1 requires some preparation which consists in recalling certain notions and additional results about entire functions of exponential type
Summary
It is known (see [2, Theorem 6.10.1]) that if f (z) is an entire function of exponential type τ which is periodic on the real axis with period ∆, it must be of the form f (z) = Let f (z) be an entire function of exponential type τ such that |f (x)| ≤ M on the real axis. Let f (z) be a uniformly almost periodic entire function of exponential type τ having no zeros in the half-plane z > k for some k > 0 and let hf (π/2) = 0.
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