Improved Bohr inequalities for certain classes of harmonic mappings

Abstract

The Bohr radius for the class of harmonic functions of the form f(z)=h+g in the unit disk D:=\z∈C : |z|<1\ , where h(z)=Σn=0∞anzn and g(z)=Σn=1∞bnzn is to find the largest radius rf , 0<rf<1 such that equation* Σn=1∞(|an|+|bn|)|z|n≤ d(f(0),∂ f(D)) equation* holds for |z|=r≤ rf , where d(f(0),∂ f(D)) is the Euclidean distance between f(0) and the boundary of f(D) . In this paper, we prove two-type of improved versions of the Bohr inequalities, one for a certain class of harmonic and univalent functions and the other for stable harmonic mappings. It is observed in the paper that to obtain sharp Bohr inequalities it is enough to consider any non-negative real coefficients of the quantity Sr/π . As a consequence of the main result, we prove corollaries showing the precise value of the sharp Bohr radius.