We introduce a new class of harmonic univalent functions by using a
generalized differential operator and investigate some of its geometric
properties, like, coefficient estimates, extreme points and inclusion
relations. Finally, we show that this class is invariant under
Bernandi-Libera-Livingston integral for harmonic functions.
We define two new subclasses, $HS(k, \lambda, b, \alpha)$ and \linebreak $\overline{HS}(k, \lambda, b, \alpha)$, of univalent harmonic mappings using multiplier transformation. We obtain a sufficient condition for harmonic univalent functions to be in $HS(k,\lambda,b,\alpha)$ and we prove that this condition is also necessary for the functions in the class $\overline{HS} (k,\lambda,b,\alpha)$. We also obtain extreme points, distortion bounds, convex combination, radius of convexity and Bernandi-Libera-Livingston integral for the functions in the class $\overline{HS}(k,\lambda,b,\alpha)$.
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