The primary objective of this paper is to establish several sharp versions of improved Bohr inequality,refined Bohr-type inequality,and refined Bohr-Rogosinski inequality for the class of K-quasiconformal sense-preser...The primary objective of this paper is to establish several sharp versions of improved Bohr inequality,refined Bohr-type inequality,and refined Bohr-Rogosinski inequality for the class of K-quasiconformal sense-preserving harmonic mappings f=h+g in the unit disk D:={z∈C:|z|<1}.In order to achieve these objectives,we employ the non-negative quantity S_(ρ)(h) and the concept of replacing the initial coefficients of the majorant series by the absolute values of the analytic function and its derivative,as well as other various settings.Moreover,we obtain the sharp Bohr-Rogosinski radius for harmonic mappings in the unit disk by replacing the bounding condition on the analytic function h with the half-plane condition.展开更多
基金supported by University Grants Commission(IN)fellowship(F.44-1/2018(SA-III)).
文摘The primary objective of this paper is to establish several sharp versions of improved Bohr inequality,refined Bohr-type inequality,and refined Bohr-Rogosinski inequality for the class of K-quasiconformal sense-preserving harmonic mappings f=h+g in the unit disk D:={z∈C:|z|<1}.In order to achieve these objectives,we employ the non-negative quantity S_(ρ)(h) and the concept of replacing the initial coefficients of the majorant series by the absolute values of the analytic function and its derivative,as well as other various settings.Moreover,we obtain the sharp Bohr-Rogosinski radius for harmonic mappings in the unit disk by replacing the bounding condition on the analytic function h with the half-plane condition.
