(崔艳艳)(王朝君)

College of Mathematics and Statistics,Zhoukou Normal University,Zhoukou 466001,China

E-mail:cui9907081@163.com;wang9907081@163.com

Hao LIU(刘浩)

College of Mathematics and Information Science,Henan University,Kaifeng 475001,China

E-mail:haoliu@henu.edu.cn

THE INVARIANCE OF STRONG AND ALMOST
SPIRALLIKE MAPPINGS OF TYPE β AND ORDER α∗

Yanyan CUI(崔艳艳)†Chaojun WANG(王朝君)

College of Mathematics and Statistics,Zhoukou Normal University,Zhoukou 466001,China

E-mail:cui9907081@163.com;wang9907081@163.com

Hao LIU(刘浩)

College of Mathematics and Information Science,Henan University,Kaifeng 475001,China

E-mail:haoliu@henu.edu.cn

The invariance of strong and almost spirallike mappings of type β and order α is discussed in this paper.From the maximum modulus principle of holomorphic functions,we obtain that the generalized Roper-Sufridge operators preserve strong and almost spirallikeness of type β and order α on the unit ball Bnin Cnand on bounded and complete Reinhardt domains.Therefore we obtain that the generalized Roper-Sufridge operators preserve strong spirallikeness of type β,strong and almost starlikeness of order α,strong starlikeness on the corresponding domains.Thus we can construct more subclasses of spirallike mappings in several complex variables.

strong and almost spirallike mappings of type β and order α;Roper-Sufridge operators;homogeneous expansion

2010 MR Subject Classifcation32A30;30C25

1 Introduction

As we all know,there are a lot of beautiful results in one complex variable.In the progress of generalizing these results in several complex variables,some basic conclusions(e.g.the models of the coefcients of the homogeneous expansion of an univalent analytic function on the unit disk are bounded)don’t hold in several complex variables.So many people began to discuss the mappings whose image regions have particular geometric properties,such as starlike mappings, convex mappings[1-7].So starlike mappings and convex mappings play an important role in several complex variables.Later many scholars discussed the subclasses or expansions of the two classes in the geometric function theories of several complex variables[8-12].At that time, people knew few examples of normalized biholomorphic starlike mappinngs,convex mapping and their subclasses or expansions.While such examples are lots of in one complex variable.So many people began to construct the corresponding mappings on specifc domains in several complex variables from normalized biholomorphic starlike functions,convex functions and their subclasses or expansions.

In the following,let D be the unit disk in C.Let Bnbe the unit ball in Cn.

In 1995,Roper and Sufridge[13]introduced an operator

In 2005,Muir and Sufridge[18]introduced a generallized Roper-Sufridge operator

Wang and Liu[19]generallized the above operator as follows

They discussed that the generallized Roper-Sufridge operator preserves almost starlikeness of order α and starlikeness of order α if‖P‖satisfes diferent conditions.

In this paper,the above operators are generalized further.We discuss the generallized Roper-Sufridge operators preserve the properties of the subclasses of biholomorphic mappings.

In 1995,Chuaqui[20]introduced the defnition of strong and almost starlike mappings of order α on Bnfrstly.In 2010,Liu[21]generalized the defnition on bounded starlike and circular domains and on the unit ball in complex Banach spaces.They established the relation between the class of almost starlike mappings of order α and the class of strong and almost starlike mappings of order α.

In 2001,Hamada and Kohr[22]introduced the defnition of strong spirallike mappings of type β.Xu and Liu[23]generalized the defnition on the unit ball in complex Banach spaces and they obtained the growth and covering theorems for the mappings.In 2010,Xu and Liu [24]introduced the defnition of strong and almost spirallike functions of type β and order α by combining strong and almost starlike mappings of order α and strong spirallike mappings of type β.

In this paper,we generalize the defnition of strong and almost spirallike functions of type β and order α on Bnand bounded Reinhardt domains.We discuss the invariance of strong and almost spirallike mappings of type β and order α under some generalized Roper-Sufridge operators.

Then we say that f(z)is a strong and almost spirallike functions of type β and order α on D.

If we generalize Defnition 1.1 on the unit ball Bnin Cnand on bounded Reinhardt domains, we obtain the following defnitions.

Then we say that f(z)is a strong and almost spirallike functions of type β and order α on Bn.

Then we say that f(z)is a strong and almost spirallike functions of type β and order α on Ω.

Remark 1.4Let α=0,β=0,α=β=0 in the above defnitions respectively,we obtain the corresponding defnitions of strong spirallike mappings of type β,strong and almost starlike mappings of order α,strong starlike mappings.

In order to give the main results,we need the following lemmas.

Lemma 1.5(see[25])Let f(z)be an univalent analytic function on D,|f(z)|＜1.Then

Lemma 1.6(see[25])Let f(z):D→D be an analytic function on D and f(0)=0. Then|f′(0)|≤1 and|f(z)|≤|z|for∀z∈D.

2 Main Results

F(z)is a strong and almost spirallike functions of type β and order α on Bn.

ProofFrom Defnition 1.2,we need only to prove

by direct computations,we get

Letting ν(z)=(DF(z))-1F(z)=(a,A)′,where A∈Cn-1,we have

As∇P(z0)z0=kP(z0),we can get

For(DF(z))-1F(z)=ν(z)=(a,A)′,we obtain

Since f(z)is a strong and almost spirallike functions of type β and order α on D,we have |λ(z1)|＜1.By direct computations,we get

It follows that

From(2.2)and(2.3),we obtain

On the one hand,we have

we obtain

On the other hand,from Lemma 1.5,we have

Thus

As

Therefore

From(2.4),(2.5)and(2.6),we obtain

It follows that F(z)is a strong and almost spirallike functions of type β and order α on Bn. ?

F(z)is a strong and almost spirallike functions of type β and order α on Bn.

ProofFrom Defnition 1.2,we only need to prove

Since f(z)is a strong and almost spirallike functions of type β and order α on D,from Defnition 1.1,we have

For

by direct computations,we get

Lettingµ(z)=(DF(z))-1F(z)=(b,B)′,where B∈Cn-1,we get DF(z)µ(z)=F(z)which follows that

As∇P(z0)z0=kP(z0),by direct computations,we can get

For(DF(z))-1F(z)=µ(z)=(b,B)′,we obtain

So

On the other hand,we can get

Letting

As

For f′(z1)/=0,we get g(z1)is holomorphic on D.From Lemma 1.6,we have|g(z1)|≤|z1|,i.e.,

If

from(2.9)and(2.10),we can get

From(2.7),(2.8)and(2.11),we obtain

It follows that F(z)is a strong and almost spirallike functions of type β and order α on Bn. ?

where

Thus

Therefore

So we get

Letting

It follows that F(z)is a strong and almost spirallike functions of type β and order α on Ω.?

Remark 2.4Letting α=0,β=0,α=β=0 in Theorems 2.1-2.3,we obtain the corresponding conclusions of strong spirallike mappings of type β,strong and almost starlike mappings of order α,strong starlike mappings,respectively.

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∗Received June 19,2014;revised January 24,2015.This work is supported by NSF of China(11271359, U1204618),and Science and Technology Research Projects of Henan Provincial Education Department (14B110015,14B110016).

†Corresponding author:Yanyan CUI.