### 数学代写|复分析作业代写Complex function代考|MATH3979

statistics-lab™ 为您的留学生涯保驾护航 在代写复分析Complex function方面已经树立了自己的口碑, 保证靠谱, 高质且原创的统计Statistics代写服务。我们的专家在代写复分析Complex function代写方面经验极为丰富，各种代写复分析Complex function相关的作业也就用不着说。

• Statistical Inference 统计推断
• Statistical Computing 统计计算
• (Generalized) Linear Models 广义线性模型
• Statistical Machine Learning 统计机器学习
• Longitudinal Data Analysis 纵向数据分析
• Foundations of Data Science 数据科学基础

## 数学代写|复分析作业代写Complex function代考|Biholomorphic Mappings of the Complex Plane to Itself

The simplest open subset of $\mathbb{C}$ is $\mathbb{C}$ itself. Thus it is natural to begin our study of conformal mappings by considering the biholomorphic mappings of $\mathbb{C}$ to itself. Of course, there are a great many holomorphic functions from $\mathbb{C}$ to $\mathbb{C}$, but rather few of these turn out to be one-to-one and onto. The techniques that we use to analyze even this rather simple situation will introduce some of the basic ideas in the study of mappings. The biholomorphic mappings from $\mathbb{C}$ to $\mathbb{C}$ can be explicitly described as follows:

Theorem 6.1.1. A function $f: \mathbb{C} \rightarrow \mathbb{C}$ is a conformal mapping if and only if there are complex numbers $a, b$ with $a \neq 0$ such that
$$f(z)=a z+b, \quad z \in \mathbb{C} .$$
One aspect of the theorem is fairly obvious: If $a, b \in \mathbb{C}$ and $a \neq 0$, then the map $z \mapsto a z+b$ is certainly a conformal mapping of $\mathbb{C}$ to $\mathbb{C}$. In fact one checks easily that $z \mapsto(z-b) / a$ is the inverse mapping. The interesting part of the theorem is that these are in fact the only conformal maps of $\mathbb{C}$ to $\mathbb{C}$. To see this, fix a conformal map of $f: \mathbb{C} \rightarrow \mathbb{C}$. We begin with some lemmas:
Lemma 6.1.2. The holomorphic function $f$ satisfies
$$\lim _{|z| \rightarrow+\infty}|f(z)|=+\infty \text {. }$$
That is, given $\epsilon>0$, there is a number $C>0$ such that if $|z|>C$, then $|f(z)|>1 / \epsilon$

Proof. This is a purely topological fact, and our proof uses no complex analysis as such.

The set ${z:|z| \leq 1 / \epsilon}$ is a compact subset of $\mathbb{C}$. Since $f^{-1}: \mathbb{C} \rightarrow \mathbb{C}$ is holomorphic, it is continuous. Also the continuous image of a compact set is compact. Therefore $S=f^{-1}({z:|z| \leq 1 / \epsilon})$ is compact. By the Heine-Borel theorem (see [RUD1]), $S$ must be bounded. Thus there is a positive number $C$ such that $S \subseteq{z:|z| \leq C}$.

## 数学代写|复分析作业代写Complex function代考|Biholomorphic Mappings of the Unit Disc to Itself

In this section the set of all conformal maps of the unit disc to itself will be determined. The determination process is somewhat less natural than in the last section, for the reader is presented with a “list” of mappings, and then it is proved that these are all the conformal self-maps of the disc (i.e., conformal maps of the disc to itself). This artificiality is a bit unsatisfying; later, when we treat the geometric structure known as the Bergman metric (Chapter 14), we shall be able to explain the genesis of these mappings.
Our first step is to determine those conformal maps of the disc to the disc that fix the origin. Let $D$ denote the unit disc.

Lemma 6.2.1. A holomorphic function $f: D \rightarrow D$ that satisfies $f(0)=0$ is a conformal mapping of $D$ onto itself if and only if there is a complex number $\omega$ with $|\omega|=1$ such that
$$f(z) \equiv \omega z \text { for all } z \in D .$$
In other words, a conformal self-map of the disc that fixes the origin must be a rotation.

Proof. If $\omega \in \mathbb{C}$ and $|\omega|=1$, then clearly the function $f(z) \equiv \omega z$ is a conformal self-map of the disc: The inverse mapping is $z \mapsto z / \omega$.

To prove the converse, suppose that $f: D \rightarrow D$ is a conformal self-map of the disc that fixes the origin. Let $g=f^{-1}: D \rightarrow D$. By the Schwarz lemma (Proposition 5.5.1),
$$\left|f^{\prime}(0)\right| \leq 1 \text { and }\left|g^{\prime}(0)\right| \leq 1 \text {. }$$

## 数学代写|复分析作业代写Complex function代考|Biholomorphic Mappings of the Complex Plane to Itself

$$f(z)=a z+b, \quad z \in \mathbb{C} .$$

$$\lim _{|z| \rightarrow+\infty}|f(z)|=+\infty$$

## 数学代写|复分析作业代写Complex function代考|Biholomorphic Mappings of the Unit Disc to Itself

$$f(z) \equiv \omega z \text { for all } z \in D .$$

$$\left|f^{\prime}(0)\right| \leq 1 \text { and }\left|g^{\prime}(0)\right| \leq 1$$

## 有限元方法代写

tatistics-lab作为专业的留学生服务机构，多年来已为美国、英国、加拿大、澳洲等留学热门地的学生提供专业的学术服务，包括但不限于Essay代写，Assignment代写，Dissertation代写，Report代写，小组作业代写，Proposal代写，Paper代写，Presentation代写，计算机作业代写，论文修改和润色，网课代做，exam代考等等。写作范围涵盖高中，本科，研究生等海外留学全阶段，辐射金融，经济学，会计学，审计学，管理学等全球99%专业科目。写作团队既有专业英语母语作者，也有海外名校硕博留学生，每位写作老师都拥有过硬的语言能力，专业的学科背景和学术写作经验。我们承诺100%原创，100%专业，100%准时，100%满意。

## MATLAB代写

MATLAB 是一种用于技术计算的高性能语言。它将计算、可视化和编程集成在一个易于使用的环境中，其中问题和解决方案以熟悉的数学符号表示。典型用途包括：数学和计算算法开发建模、仿真和原型制作数据分析、探索和可视化科学和工程图形应用程序开发，包括图形用户界面构建MATLAB 是一个交互式系统，其基本数据元素是一个不需要维度的数组。这使您可以解决许多技术计算问题，尤其是那些具有矩阵和向量公式的问题，而只需用 C 或 Fortran 等标量非交互式语言编写程序所需的时间的一小部分。MATLAB 名称代表矩阵实验室。MATLAB 最初的编写目的是提供对由 LINPACK 和 EISPACK 项目开发的矩阵软件的轻松访问，这两个项目共同代表了矩阵计算软件的最新技术。MATLAB 经过多年的发展，得到了许多用户的投入。在大学环境中，它是数学、工程和科学入门和高级课程的标准教学工具。在工业领域，MATLAB 是高效研究、开发和分析的首选工具。MATLAB 具有一系列称为工具箱的特定于应用程序的解决方案。对于大多数 MATLAB 用户来说非常重要，工具箱允许您学习应用专业技术。工具箱是 MATLAB 函数（M 文件）的综合集合，可扩展 MATLAB 环境以解决特定类别的问题。可用工具箱的领域包括信号处理、控制系统、神经网络、模糊逻辑、小波、仿真等。