Chaojun WANG(王朝君)Yanyan CUI(崔艷艷)
College of Mathematics and Statistics,Zhoukou Normal University,Zhoukou 466001,China
Hao LIU(劉浩)?
College of Mathematics and Statistics,Henan University,Kaifeng 475001,China
PROPERTIES OF THE MODIFIED ROPER-SUFFRIDGE EXTENSION OPERATORS ON REINHARDT DOMAINS?
Chaojun WANG(王朝君)Yanyan CUI(崔艷艷)
College of Mathematics and Statistics,Zhoukou Normal University,Zhoukou 466001,China
E-mail:wang9907081@163.com;cui9907081@163.com
Hao LIU(劉浩)?
College of Mathematics and Statistics,Henan University,Kaifeng 475001,China
E-mail:haoliu@henu.edu.cn
In this paper,we mainly discuss the properties of the modifed Roper-Sufridge operators on Reinhardt domains.By the analytical characteristics and distortion results of subclasses of biholomorphic mappings,we conclude that the modifed Roper-Sufridge operators preserve the properties of S??(β,A,B),almost starlike mapping of complex order λ on ?n,p2,···,pn.Sequentially,we get that the modifed Roper-Sufridge operators preserve spirallikeness of type β and order α,strongly pirallikeness of type β and order α,almost starlikeness of order α on ?n,p2,···,pn.The conclusions provide a new approach to construct these biholomorphic mappings which have special geometric properties in several complex variables.
Roper-Sufridge operator;spirallike mappings;starlike mappings
2010 MR Subject Classifcation32A30;30C25
The property of biholomorphic mappings is one of the most important objects of study in geometric function theory of several complex variables.Starlike mappings and convex mappings are the mappings discussed more.In recent years,many people discussed the subclasses or extensions of starlike mappings and convex mappings,such as almost spirallike mappings of order α and type β.It is easy to fnd specifc examples of these new subclasses or extensions in one complex variable,which will enable us to better study these mappings.While,it is very difcult to fnd specifc examples in several complex variables.
In 1995,Roper and Sufridge[1]introduced an operator
In 2005,Muir[6]introduced the generalized Roper-Sufridge operator
preserves almost starlikeness of order α and starlikeness of order α under some conditions on the unit ball Bn,where[f′(0)]1m=1 and P:Cn?1→C is a homogeneous polynomial of degree m(m∈N,m≥2).
Muir[9]introduced the extended Roper-Sufridge operator
on the unit ball Bnin Cn,where z=(z1,z0)and f(z1)is a normalized univalent holomorphic function on D,G is a holomorphic function in Cn?1with G(0)=0,DG(0)=I,γ≥0 andThe homogeneous expansion of G(z)Qj(z),where Qj(z)is a homogeneous polynomial of degree j.Obviously,(1.2)reduces to(1.1)if γ=1mand j=m.Muir proved[ΦG,γ(f)](z)is a Loewner chain preserving extension operator provided that G satisfes some conditions.
In this paper,we mainly seek conditions under which the generalized operator(1.2)preserves the properties of subclasses of biholomorphic mappings.In Sections 2 and 3,we discuss (1.2)preserves the properties of S??(β,A,B),almost starlike mapping of complex order λ on?n,p2,···,pnunder diferent conditions,respectively.Thereby,we get that(1.2)preserves spirallikeness of type β and order α,strongly spirallikeness of type β and order α,almost starlikeness of order α on ?n,p2,···,pn.The conclusions generalize some known results.
In the following,let D denote the unit disk in C.Let JF(z)denote the Fr′echet derivative of F at z.Let I[a/b]denote the integer part ofab.
To get the main results,we need the following defnitions and lemmas.
Defnition 1.1(see[11]) Let ? be a bounded starlike and circular domain in Cn.The Minkowski functional ρ(z)of ? is C1except for a lower-dimensional manifold.Let F(z)be a normalized locally biholomorphic mapping on ?.If
where?1≤A
Setting A=?1=?B?2α,A=?B=?α,B→1?in Defnition 1.1,respectively,we obtain the corresponding defnitions of spirallike mappings of type β and order α[12],strongly spirallike mappings of type β and order α[13],almost spirallike mappings of type β and order α[14]on ?.For n=1,the condition in Defnition 1.1 reduces to
Defnition 1.2(see[15]) Let ? be a bounded starlike and circular domain in Cn.The Minkowski functional ρ(z)of ? is C1except for a lower-dimensional manifold.Let F(z)be a normalized locally biholomorphic mapping on ?.If
where λ∈C,Reλ≤0,F(z)is called an almost starlike mapping of complex order λ on ?.
For n=1,the condition in Defnition 1.2 reduces to
Lemma 1.3(see[9]) Let P(z)be a homogeneous polynomial of degree m,and let DP(z) be the Fr′echet derivative of P at z.Then
Lemma 1.4(see[16]) Let
ρ(z)(z 6=0)is the Minkowski functional ofThen
where
ProofSince
then
Let J?1F(z)F(z)=h(z)=(A,B)′,which follows that JF(z)h(z)=F(z).By Lemma 1.3,we have
We can directly calculate that
Thus,by Lemma 1.4 we can get the desired conclusion.
Lemma 1.6(see[17]) Let ?∈Cnbe a bounded and complete Reinhardt domain.The Minkowski functional ρ(z)of ? is C1except for a lower-dimensional manifold ?0.Then
for?z=(z1,···,zn)∈??0.
Lemma 1.7(see[11]) Let f(z1)be a normalized biholomorphic function on D.Let
and let l=max{p2,···,pn},m∈N,z∈?n,p2,···,pn,m≥l.Then
Lemma 1.8(see[18]) If f(z)is a normalized biholomorphic function on the unit disk D, then
In the following,let ?=?n,p2,···,pn,l=max{p2,···,pn},q=min{p2,···,pn}.
Lemma 2.1(see[19]) Let f(z)be a holomorphic function on D with|f(z)|<1.Then
Then
(1)in the case of l∈[1,2],F(z)∈S??(β,A,B)provided that
(i)for γ∈[0,16]we have
(2)in the case of l∈(2,6),F(z)∈S??(β,A,B)provided that(i)holds for γ∈[0,16]and (ii)holds for γ∈(16,1l];
(3)in the case of l∈[6,+∞),F(z)∈S??(β,A,B)provided that(i)holds for γ∈[0,1l].
ProofBy Defnition 1.1,we need only to prove
It is obvious that(2.1)holds for z0=0.For z06=0,let z=ζu=|ζ|eiθu,where u∈??n,p2,···,pnand ζ∈ˉD{0}.Then
Since f(z1)∈S?D(β,A,B).By Defnition 1.1,we have
Let
Then|h(z1|<1 and
By Lemma 2.1 we have
By(2.1)we have
By Lemma 1.5 and(2.2),(2.4),we have
where
By(2.3)and Lemmas 1.6,1.7,1.8,we have
So,for?z1∈D,we have
By(2.5)and(2.6),we obtain
Since
by(2.7)we have the following conclusions.
(1)In the case of l∈[1,2],
(i)for γ∈[0,16],if
then we obtain
Therefore
which follows F(z)∈S??(β,A,B)by Defnition 1.1;
we have the same conclusion to(i);
we have the same conclusion to(i).
(2)In the case of l∈(2,6),if(i)holds for γ∈[0,16]and(ii)holds for γ∈(16,1l],similar to(1)we have F(z)∈S??(β,A,B).
(3)In the case of l∈[6,+∞),if(i)holds for γ∈[0,1l],similar to(1)we have F(z)∈S??(β,A,B). ?
Setting γ=1mand j=m in Theorem 2.2,we get the following results.
Corollary 2.3Let f(z1)∈S?D(β,A,B)with?1≤A
Remark 2.4Setting A=?1=?B?2α and A=?B=?α in Theorem 2.2 and Corollary 2.3,respectively,we get the corresponding results for spirallike mappings of type β and order α,strongly pirallike mappings of type β and order α.
Lemma 3.1(see[20]) Let p(z)be a holomorphic function on D such that p(0)=1 and Rep(z)>0,then
Theorem 3.2Let f(z1)be an almost starlike function of complex order λ on D with λ∈C,Reλ≤0.Letbe the mapping denoted by(1.2)with
(i)for γ∈[0,16]we have
(ii)Qj=0(j>and for γ∈we have
(iii)Qj=and for γ∈we have
ProofBy Defnition 1.2,we need only to prove
It is obvious that(3.1)holds for z0=0.Similar to Theorem 2.1,we obtain
is the real part of a holomorphic function,so it is a harmonic function.By the minimum principle of harmonic functions,we need only to prove that(3.1)holds for z∈??n,p2,···,pn(z06=0).Thus ρ(z)=1.
Since f(z1)is an almost starlike function of complex order λ on D.From Defnition 1.2, we have
Let
Then ?h(z1)>0,h(0)=1 and
By Lemma 3.1,we have
(3.2)follows that
By Lemma 1.5 and(3.2),(3.4)we get
where
By(3.3)and Lemma 1.7,we have
By(3.5),(3.6)and Lemma 1.8,we obtain
we have
Therefore
which follows that F(z)is an almost starlike mapping of complex order λ on ?n,p2,···,pnby Defnition 1.2;
(ii)for γ∈(16,12],if Qj=0(j>46γ?1)and
then F(z)is an almost starlike mapping of complex order λ on ?n,p2,···,pnsimilar to(i);
then F(z)is an almost starlike mapping of complex order λ on ?n,p2,···,pnsimilar to(i).
(2)In the case of16<2qq2+l2<12,if(i)holds for γ∈[0,16]and(ii)holds for γ∈(16,2qq2+l2], then F(z)is an almost starlike mapping of complex order λ on ?n,p2,···,pnsimilar to(i).
Corollary 3.3Let f(z1)be an almost starlike function of complex order λ on D with λ∈C,Reλ≤0.Let F(z)be the mapping denoted by(1.1)with m≥2.Then F(z)is an almost starlike mapping of complex order λ on ?n,p2,···,pnprovided that
Remark 3.4Settingin Theorem 3.2 and Corollary 3.3,we get the corresponding results for almost starlike mappings of order α.
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?Received May 8,2015;revised April 6,2016.This work was supported by NSFC(11271359,U1204618), Science and Technology Research Projects of Henan Provincial Education Department(14B110015,14B110016), Youth Fund Projects of Zhoukou Normal University(zknuB3201608).
?Corresponding author:Hao LIU.
Acta Mathematica Scientia(English Series)2016年6期