The Bohr Phenomenon for Close-to-Convex Harmonic Mappings

Abstract

The classical Bohr inequality states that if f(z)=Σn=0∞ an zn is analytic and |f(z)|<1 in the unit disk D, then Σn=0∞ |an| rn 1 for |z|=r 1/3, where 1/3 is sharp. Extending this to harmonic mappings f=h+g is central in geometric function theory due to the co-analytic part g. This paper establishes sharp Bohr-type inequalities for two classes of sense-preserving close-to-convex harmonic mappings. Let H0 be the class of harmonic mappings f=h+g in D normalized by h(0)=g(0)=h'(0)-1=g'(0)=0. We introduce: \[ PH0(M) := \ f ∈ H0 : Re(zh''(z)) > -M + |zg''(z)|, \; z ∈ D, \; M > 0 \ \] \[ WH0(α,β) := \ f ∈ H0 : Re(h'(z) + αzh''(z) - β) > |g'(z) + αzg''(z)|, \; z ∈ D \ \] where α 0, β< 1. We prove generalized Bohr inequalities by replacing the basis \rn\ with non-negative continuous functions \φn(r)\. The results are proved using sharp coefficient bounds and growth theorems, providing new insights into the Bohr phenomenon for harmonic mappings and subclasses defined by differential inequalities.