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復分析是數學最核心的學科之一,不但自身引人入勝、豐富多彩,而且在多種其他數學學科(純數學和應用數學)中都非常有用。
《單復變函數論(第三版)(英文版)》的與眾不同之處在於它從多變量實微積分中直接發展出復變量。每一個新概念引進時,它總對應了實分析和微積分中相應的概念,《單復變函數論(第三版)(英文版)》配有豐富的例題和習題來印證此點。
作者有條不紊地將分析從拓撲中分離出來,從柯西定理的證明中可見一斑。
《單復變函數論(第三版)(英文版)》分幾章討論專題,如對特殊函數的完整處理、素數定理和Bergman核。作者還處理了Hp空間,以及共形映射邊界光滑性的Painleve定理。
Preface to the Third Edition
Preface to the Second Edition
Preface to the First Edition
Acknowledgments
Chapter 1.Fundamental Concepts
1.1.Elementary Properties of the Complex Numbers
1.2.Further Properties of the Complex Numbers
1.3.Complex Polynomials
1.4.Holomorphic Functions, the Cauchy—Riemann Equations,and Harmonic Functions
1.5.Real and Holomorphic Antiderivatives
Exercises
Chapter 2.Complex Line Integrals
2.1.Real and Complex Line Integrals
2.2.Complex Differentiability and Conformality
2.3.Antiderivatives Revisited
2.4.The Cauchy Integral Formula and the Cauchy Integral Theorem
2.5.The Cauchy Integral Formula: Some Examples
2.6.An Introduction to the Cauchy Integral Theorem and the Cauchy Integral Formula for More General Curves
Exercises
Chapter 3.Applications of the Cauchy Integral
3.1.Differentiability Properties of Holomorphic Functions
3.2.Complex Power Series
3.3.The Power Series Expansion for a Holomorphic Function
3.4.The Cauchy Estimates and Liouville’’s Theorem
3.5.Uniform Limits of Holomorphic Functions
3.6.The Zeros of a Holomorphic Function
Exercises
Chapter 4.Meromorphic Functions and Residues
4.1.The Behavior of a Holomorphic Function Near an Isolated Singularity
4.2.Expansion around Singular Points
4.3.Existence of Laurent Expansions
4.4.Examples of Laurent Expansions
4.5.The Calculus of Residues
4.6.Applications of the Calculus of Residues to the Calculation of Definite Integrals and Sums
4.7.Meromorphic Functions and Singularities at Infinity
Exercises
Chapter 5.The Zeros of a Holomorphic Function
5.1.Counting Zeros and Poles
5.2.The Local Geometry of Holomorphic Functions
5.3.Further Results on the Zeros of Holomorphic Functions
5.4.The Maximum Modulus Principle
5.5.The Schwarz Lemma
Exercises
Chapter 6.Holomorphic Functions as Geometric Mappings
6.1.Biholomorphic Mappings of the Complex Plane to Itself
6.2.Biholomorphic Mappings of the Unit Disc to Itself
6.3.Linear Fractional Transformations
6.4.The Riemann Mapping Theorem: Statement and Idea of Proof
6.5.Normal Families
6.6.Holomorphically Simply Connected Domains
6.7.The Proof of the Analytic Form of the Riemann Mapping Theorem
Exercises
Chapter 7.Harmonic Functions
7.1.Basic Properties of Harmonic Functions
7.2.The Maximum Principle and the Mean Value Property
7.3.The Poisson Integral Formula
7.4.Regularity of Harmonic Functions
7.5.The Schwarz Reflection Principle
7.6.Harnack’’s Principle
7.7.The Dirichlet Problem and Subharmonic Functions
7.8.The Perron Method and the Solution of the Dirichlet Problem
7.9.Conformal Mappings of Annuli
Exercises
Chapter 8.Infinite Series and Products
8.1.Basic Concepts Concerning Infinite Sums and Products
8.2.The Weierstrass Factorization Theorem
8.3.The Theorems of Weierstrass and Mittag—Leffler:Interpolation Problems
Exercises
Chapter 9.Applications of Infinite Sums and Products
9.1.Jensen’’s Formula and an Introduction to Blaschke Products
9.2.The Hadamard Gap Theorem
9.3.Entire Functions of Finite Order
Exercises
Chapter 10.Analyt.ic Continuation
10.1.Definition of an Analytic Function Element
10.2.Analytic Continuation along a Curve
10.3.The Monodromy Theorem
10.4.The Idea of a Riemann Surface
10.5.The Elliptic Modular Function and Picard’’s Theorem
10.6.EllipticFunctions
Exercises
Chapterll.Topology
11.1.Multiply Connected Domains
11.2.The Cauchy Integral Formula for Multiply Connected Domains
11.3.Holomorphic Simple Connectivity and Topological Simple Connectivity
11.4.Simple Connectivity and Connectedness of the Complement
11.5.Multiply Connected Domains Revisited
Exercises
Chapter 12.Rational Approximation Theory
12.1.Runge’’s Theorem
12.2.Mergelyan’’s Theorem
12.3.Some Remarks about Analytic Capacity
Exercises
Chapter 13.Special Classes of Holomorphic Functions
13.1.Schlicht Functions and the Bieberbach Conjecture
13.2.Continuity to the Boundary of Conformal Mappings
13.3.Hardy Spaces
13.4.Boundary Behavior of Functions in Hardy Classes (An Optional Section for Those Who Know Elementary Measure Theory)
Exercises
Chapter 14.Hilbert Spaces of Holomorphic Functions, the Bergman Kernel, and Biholomorphic Mappings
14.1.The Geometry of Hilbert Space
14.2.Orthonormal Systems in Hilbert Space,
14.3.The Bergman Kernel
14.4.Bell’’s Condition R
14.5.Smoothness to the Boundary of Conformal Mappings
Exercises
Chapter 15.Special Functions
15.1.The Gamma and Beta Functions
15.2.The Riemann Zeta Function
Exercises
Chapter 16.The Prime Number Theorem
16.0.Introduction
16.1.Complex Analysis and the Prime Number Theorem
16.2.Precise Connections to Complex Analysis
16.3.Proof of the Integral Theorem
Exercises
APPENDIX A: Real Analysis
APPENDIX B: The Statement and Proof of Goursat’’s Theorem
References
Index
