Subclasses of Analytic Functions Associated With a Family of Multiplier Transformations

In the present paper, we introduce and investigate some new subclasses of analytic functions associated with a family of Multiplier transformations . Such results as subordination and superordination properties, inclusion relationships, integral-preserving properties and convolution properties are proved. Several sandwich-type results are also derived. Keywords: Analytic functions, Hadamard product (or convolution), subordination and superordination between analytic functions, Multiplier transformations

<i>n</i>-Quasi-<i>m</i>-Complex Symmetric Transformations

Our aim in this study is to consider a generalization of the concept of m-complex symmetric transformations to n-quasi-m-complex symmetric transformations. A map S∈B(Y) is said to be an n-quasi-m-complex symmetric transformation if there exists a conjugation C on Y such that S satisfies the condition S*n∑0≤k≤m(−1)m−kmkS*kCSm−kCSn=0, for some positive integers n and m. This class of transformation contains the class of m-complex symmetric transformations as a proper subset. Some basic structural properties of n-quasi-m-complex symmetric linear transformations are established with the help of transformation matrix representation. In particular, we obtain that a power of an n-quasi-m-complex symmetric is again an n-quasi-m-complex symmetric operator. Moreover, if T and S are such that T is an n1-quasi-m1-complex symmetric and S is an n2-quasi-m2-complex symmetric, their product TS is an max{n1,n2}-quasi-(m1+m2−1)-complex symmetric under suitable conditions. We examine the stability of n-quasi-m-complex symmetric operators under perturbation by nilpotent operators