On Some Correspondence between Holomorphic Functions in the Unit Disc and Holomorphic Functions in the Left Halfplane

For 0 < p < ∞ and 0 ≤a; ≤ 1, we define a space Hp, a of holomorphic functions on the unit disc of the complex plane, for which Hp, 0 = H∞, the space of all bounded holomorphic functions, and Hp, 1 = Hp, the usual Hardy space. We introduce a weak type operator whose boundedness extends the well-known Hardy-Littlewood embedding theorem to Hp, a, give some results on the Taylor coefficients of the functions of Hp, a and show by an example that the inner factor cannot be divisible in Hp, a.

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A note on the phase retrieval of holomorphic functions

Canadian Mathematical Bulletin ◽

10.4153/s000843952000082x ◽

2020 ◽

pp. 1-8

Author(s):

Rolando Perez

Keyword(s):

Unit Circle ◽

Connected Domain ◽

Unit Disc ◽

Phase Retrieval ◽

Holomorphic Functions ◽

Nevanlinna Class

Abstract We prove that if f and g are holomorphic functions on an open connected domain, with the same moduli on two intersecting segments, then $f=g$ up to the multiplication of a unimodular constant, provided the segments make an angle that is an irrational multiple of $\pi $ . We also prove that if f and g are functions in the Nevanlinna class, and if $|f|=|g|$ on the unit circle and on a circle inside the unit disc, then $f=g$ up to the multiplication of a unimodular constant.

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Boundary Behavior and Quasi-Normality of Finitely Valent Holomorphic Functions

Canadian Journal of Mathematics ◽

10.4153/cjm-1973-083-9 ◽

1973 ◽

Vol 25 (4) ◽

pp. 812-819

Author(s):

David C. Haddad

Keyword(s):

Complex Number ◽

Unit Disc ◽

Boundary Behavior ◽

Dense Subset ◽

Holomorphic Functions ◽

Asymptotic Values

A function denned in a domain D is n-valent in D if f(z) — w0 has at most n zeros in D for each complex number w0. Let denote the class of nonconstant, holomorphic functions f in the unit disc that are n-valent in each component of the set . MacLane's class is the class of nonconstant, holomorphic functions in the unit disc that have asymptotic values at a dense subset of |z| = 1.

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Some results for a certain class of holomorphic functions at the boundary of the unit disc

10.1063/1.5095115 ◽

2019 ◽

Cited By ~ 1

Author(s):

Bülent Nafi Örnek ◽

Tuğba Akyel

Keyword(s):

Unit Disc ◽

Holomorphic Functions

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Some remarks on angular ranges and sequences of ρ-points for holomorphic functions

Nagoya Mathematical Journal ◽

10.1017/s002776300001669x ◽

1975 ◽

Vol 58 ◽

pp. 69-82

Author(s):

H. Yoshida

Keyword(s):

Unit Disc ◽

Holomorphic Functions ◽

Maximum Modulus ◽

Spherical Derivative

In this paper, we will give examples of holomorphic functions in the unit disc having singular connections between the growth of maximum modulus and angular ranges (Theorem A) as well as singular connections between the growth of spherical derivative and sequences of ρ-points (Theorem B).

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Composition operators on weighted spaces of holomorphic functions on the upper half plane

MATHEMATICA SCANDINAVICA ◽

10.7146/math.scand.a-97126 ◽

2018 ◽

Vol 122 (1) ◽

pp. 141

Author(s):

Wolfgang Lusky

Keyword(s):

Half Plane ◽

Composition Operator ◽

Unit Disc ◽

Composition Operators ◽

Bounded Operator ◽

Holomorphic Functions ◽

Weighted Spaces ◽

Weight Functions ◽

Spaces Of Holomorphic Functions ◽

Upper Half Plane

We consider moderately growing weight functions $v$ on the upper half plane $\mathbb G$ called normal weights which include the examples $(\mathrm{Im} w)^a$, $w \in \mathbb G$, for fixed $a > 0$. In contrast to the comparable, well-studied situation of normal weights on the unit disc here there are always unbounded composition operators $C_{\varphi }$ on the weighted spaces $Hv(\mathbb G)$. We characterize those holomorphic functions $\varphi \colon \mathbb G \rightarrow \mathbb G$ where the composition operator $C_{\varphi } $ is a bounded operator $Hv(\mathbb G) \rightarrow Hv(\mathbb G)$ by a simple property which depends only on $\varphi $ but not on $v$. Moreover we show that there are no compact composition operators $C_{\varphi }$ on $Hv(\mathbb G)$.

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INEQUALITIES FOR THE ANGULAR DERIVATIVES OF CERTAIN CLASSES OF HOLOMORPHIC FUNCTIONS IN THE UNIT DISC

Bulletin of the Korean Mathematical Society ◽

10.4134/bkms.2016.53.2.325 ◽

2016 ◽

Vol 53 (2) ◽

pp. 325-334 ◽

Cited By ~ 1

Author(s):

Bulent Nafi Ornek

Keyword(s):

Unit Disc ◽

Holomorphic Functions ◽

Angular Derivatives ◽

Derivatives Of

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Majorization Results for Certain Subfamilies of Analytic Functions

Journal of Function Spaces ◽

10.1155/2021/5548785 ◽

2021 ◽

Vol 2021 ◽

pp. 1-6

Author(s):

Muhammad Arif ◽

Miraj Ul-Haq ◽

Omar Barukab ◽

Sher Afzal Khan ◽

Saleem Abullah

Keyword(s):

Holomorphic Function ◽

Analytic Functions ◽

Unit Disc ◽

Holomorphic Functions ◽

Open Unit ◽

Open Unit Disc

Let h 1 z and h 2 z be two nonvanishing holomorphic functions in the open unit disc with h 1 0 = h 2 0 = 1 . For some holomorphic function q z , we consider the class consisting of normalized holomorphic functions f whose ratios f z / z q z and q z are subordinate to h 1 z and h 2 z , respectively. The majorization results are obtained for this class when h 1 z is chosen either h 1 z = cos z or h 1 z = 1 + sin z or h 1 z = 1 + z and h 2 z = 1 + sin z .

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On the boundary behavior of holomorphic functions in the unit disc

Journal of the Australian Mathematical Society ◽

10.1017/s144678870001689x ◽

1976 ◽

Vol 21 (1) ◽

pp. 36-48 ◽

Cited By ~ 1

Author(s):

Hidenobu Yoshida

Keyword(s):

Unit Disc ◽

Boundary Behavior ◽

Holomorphic Functions ◽

Fundamental Result ◽

Boundary Properties

Seidel (1959) established various boundary properties of holomorphic functions with spiral asymptotic paths. Especially, Theorem 4 which is the fundamental result of the paper; was generalized by Faust (1962), using essentially the same method that was employed by Seidel.

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Some results of Lindelöf type involving the segmental behaviour of holomorphic functions

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100071401 ◽

1993 ◽

Vol 114 (1) ◽

pp. 57-65 ◽

Cited By ~ 2

Author(s):

Francisca Bravo ◽

Daniel Girela

Keyword(s):

Analytic Function ◽

Unit Disc ◽

Slow Growth ◽

Holomorphic Functions ◽

Maximum Modulus ◽

Classical Theorem ◽

Asymptotic Value

AbstractA classical theorem of Lindelöf asserts that if ƒ is a function analytic and bounded in the unit disc δ which has the asymptotic value L at a point ξ ε ∂ δ then it has the non-tangential limit L at ξ. This result does not remain true for functions f analytic in δ whose maximum modulus grows to infinity arbitrarily slowly. However, the second author has recently obtained some results of Lindelöf type valid for these functions. In this paper we obtain new results of this kind. We prove that if f is an analytic function of slow growth in δ and ξ ε ∂ δ, then certain restrictions on the growth of ƒ′ along a segment which ends at ξ do imply that ƒ has a non-tangential limit at ξ.

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