Volume 58, pp. 568-581, 2023.
An evolutionary approach to the coefficient problems in the class of starlike functions
Piotr Jastrzȩbski and Adam Lecko
Abstract
In this paper, we apply the differential evolution algorithm as a new approach to solve some coefficient problems within Geometric Function Theory. We find sharp bounds for the determinant of the Hankel matrix $H_{4,1}(f)$ and the determinants of all its sub-matrices for the class of starlike functions, i.e., for the class of all analytic injective functions $f$ in the unit disk $\mathbb{D}:= \{ z\in\mathbb{C} : |z| <1\}$ normalized by $f(0)=f'(0)-1=0$ such that $f(\Bbb D)$ is a starlike set with respect to the origin. In addition, a relevant conjecture regarding some coefficient functionals related to the Zalcman functional is formulated.
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Key words
differential evolution algorithm, Hankel determinant, starlike function, Carathéodory class and Zalcman functional
AMS subject classifications
65K05, 30C45, 30C50
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