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Synopsis
The class of multivalent functions is an important one in complex analysis. They occur for example in the proof of De Branges' Theorem, which in 1985 settled the long-standing Bieberbach conjecture. The second edition of Professor Hayman's celebrated book contains a full and self-contained proof of this result, with a new chapter devoted to it. Another new chapter deals with coefficient differences. The text has been updated in several other ways, with recent theorems of Baernstein and Pommerenke on univalent functions of restricted growth, and an account of the theory of mean p-valent functions. In addition, many of the original proofs have been simplified. Each chapter contains examples and exercises of varying degrees of difficulty designed both to test understanding and illustrate the material.
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Book Description
The second edition of this celebrated book contains a full and self-contained proof of De Branges' theorem. Every chapter has been updated and many of the original proofs have been simplified. It will be essential for all interested in complex function theory.
From the Back Cover
Multivalent and in particular univalent functions play an important role in complex analysis. Great interest was aroused when de Branges in 1985 settled the long-standing Bieberbach conjecture for the coefficients of univalent functions. The second edition of Professor Hayman's celebrated book is the first to include a full and self-contained proof of this result, with a new chapter devoted to it. Another new chapter deals with coefficient differences of mean p-valent functions. The book has been updated in several other ways, with recent theorems of Baernstein and Pommerenke on univalent functions of restricted growth and Eke's regularity theorems for the behaviour of the modulus and coefficients of mean p-valent functions. Some of the original proofs have been simplified. Each chapter contains examples and exercises of varying degrees of difficulty designed both to test understanding and to illustrate the material. Consequently the book will be useful for graduate students and essential for specialists in complex function theory.
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- PublisherCambridge University Press
- Publication date1995
- ISBN 10 0521460263
- ISBN 13 9780521460262
- BindingHardcover
- LanguageEnglish
- Edition number2
- Number of pages276
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Multivalent Functions (Cambridge Tracts in Mathematics)
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Multivalent Functions (Cambridge Tracts in Mathematics, Series Number 110)
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Multivalent Functions (Cambridge Tracts in Mathematics, Series Number 110)
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Multivalent Functions (Hardcover)
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Hardcover. Condition: new. Hardcover. The class of multivalent functions is an important one in complex analysis. They occur for example in the proof of De Branges' Theorem, which in 1985 settled the long-standing Bieberbach conjecture. The second edition of Professor Hayman's celebrated book contains a full and self-contained proof of this result, with a new chapter devoted to it. Another new chapter deals with coefficient differences. The text has been updated in several other ways, with recent theorems of Baernstein and Pommerenke on univalent functions of restricted growth, and an account of the theory of mean p-valent functions. In addition, many of the original proofs have been simplified. Each chapter contains examples and exercises of varying degrees of difficulty designed both to test understanding and illustrate the material. Multivalent and in particular univalent functions play an important role in complex analysis. Great interest was aroused when de Branges in 1985 settled the long-standing Bieberbach conjecture for the coefficients of univalent functions. The second edition of Professor Hayman's celebrated book is the first to include a full and self-contained proof of this result, with a new chapter devoted to it. Another new chapter deals with coefficient differences of mean p-valent functions. The book has been updated in several other ways, with recent theorems of Baernstein and Pommerenke on univalent functions of restricted growth and Eke's regularity theorems for the behaviour of the modulus and coefficients of mean p-valent functions. Some of the original proofs have been simplified. Each chapter contains examples and exercises of varying degrees of difficulty designed both to test understanding and to illustrate the material. Consequently the book will be useful for graduate students and essential for specialists in complex function theory. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. Seller Inventory # 9780521460262
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Multivalent Functions
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Multivalent Functions
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Multivalent Functions
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Gebunden. Condition: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. The second edition of this celebrated book contains a full and self-contained proof of De Branges theorem. Every chapter has been updated and many of the original proofs have been simplified. It will be essential for all interested in complex function theo. Seller Inventory # 446936458
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Multivalent Functions (Hardcover)
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Hardcover. Condition: new. Hardcover. The class of multivalent functions is an important one in complex analysis. They occur for example in the proof of De Branges' Theorem, which in 1985 settled the long-standing Bieberbach conjecture. The second edition of Professor Hayman's celebrated book contains a full and self-contained proof of this result, with a new chapter devoted to it. Another new chapter deals with coefficient differences. The text has been updated in several other ways, with recent theorems of Baernstein and Pommerenke on univalent functions of restricted growth, and an account of the theory of mean p-valent functions. In addition, many of the original proofs have been simplified. Each chapter contains examples and exercises of varying degrees of difficulty designed both to test understanding and illustrate the material. Multivalent and in particular univalent functions play an important role in complex analysis. Great interest was aroused when de Branges in 1985 settled the long-standing Bieberbach conjecture for the coefficients of univalent functions. The second edition of Professor Hayman's celebrated book is the first to include a full and self-contained proof of this result, with a new chapter devoted to it. Another new chapter deals with coefficient differences of mean p-valent functions. The book has been updated in several other ways, with recent theorems of Baernstein and Pommerenke on univalent functions of restricted growth and Eke's regularity theorems for the behaviour of the modulus and coefficients of mean p-valent functions. Some of the original proofs have been simplified. Each chapter contains examples and exercises of varying degrees of difficulty designed both to test understanding and to illustrate the material. Consequently the book will be useful for graduate students and essential for specialists in complex function theory. Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability. Seller Inventory # 9780521460262
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