product iamge

A Primer of Algebraic D-Modules

This document was uploaded by one of our users. The uploader already confirmed that they had the permission to publish it. If you are author/publisher or own the copyright of this documents, please report to us by using this DMCA report form.

Download
Search on Amazon

Simply click on the Download Book button.

Yes, Book downloads on Ebookily are 100% Free.

Sometimes the book is free on Amazon As well, so go ahead and hit "Search on Amazon"

The theory of D-modules is a rich area of study combining ideas from algebra and differential equations, and it has significant applications to diverse areas such as singularity theory and representation theory. This book introduces D-modules and their applications, avoiding all unnecessary technicalities. The author takes an algebraic approach, concentrating on the role of the Weyl algebra. The author assumes very few prerequisites, and the book is virtually self-contained. The author includes exercises at the end of each chapter and gives the reader ample references to the more advanced literature. This is an excellent introduction to D-modules for all who are new to this area.

Author(s): S. C. Coutinho
Series: London Mathematical Society Student Texts
Publisher: Cambridge University Press
Year: 1995

Language: English
Commentary: Added bookmarks, cover and blank pages to 9AA8AE097B0DF63CFA5B6C8E8DC00548
Pages: 223
City: Cambridge [England]; New York, NY, USA

Front Cover
TITLE
COPYRIGHT
DEDICATION
CONTENTS
PREFACE
INTRODUCTION
1. THE WEYL ALGEBRA.
2. ALGEBRAIC D-MODULES.
3. THE BOOK: AN OVERVIEW.
4. PRE-REQUISITES .
CHAPTER 1 - THE WEYL ALGEBRA
1. DEFINITION
2. CANONICAL FORM
3. GENERATORS AND RELATIONS
4. EXERCISES
CHAPTER 2 - IDEAL STRUCTURE OF THE WEYL ALGEBRA
1. THE DEGREE OF AN OPERATOR
2. IDEAL STRUCTURE.
3. POSITIVE CHARACTERISTIC.
4. EXERCISES.
CHAPTER 3 - RINGS OF DIFFERENTIAL OPERATORS
1. DEFINITIONS.
2. THE WEYL ALGEBRA.
3. EXERCISES.
CHAPTER 4 - JACOBIAN CONJECTURE
1. POLYNOMIAL MAPS.
2. JACOBIAN CONJECTURE
3. DERIVATIONS
4. AUTOMORPHISMS
5. EXERCISES.
CHAPTER 5 - MODULES OVER THE WEYL ALGEBRA
1. THE POLYNOMIAL RING.
2. TWISTING.
3. HOLOMORPHIC FUNCTIONS.
4. EXERCISES.
CHAPTER 6 - DIFFERENTIAL EQUATIONS
1. THE D-MODULE OF AN EQUATION.
2. DIRECT LIMIT OF MODULES.
3. MICROFUNCTIONS.
4. EXERCISES.
CHAPTER 7 - GRADED AND FILTERED MODULES
1. GRADED RINGS
2. FILTERED RINGS.
3. ASSOCIATED GRADED ALGEBRA.
4. FILTERED MODULES.
5. INDUCED FILTRATIONS.
6. EXERCISES
CHAPTER 8 - NOETHERIAN RINGS AND MODULES
1. NOETHERIAN MODULES.
2. NOETHERIAN RINGS.
3. GOOD FILTRATIONS.
CHAPTER 9 - DIMENSION AND MULTIPLICITY
1. THE HILBERT POLYNOMIAL.
2. DIMENSION AND MULTIPLICITY.
3. BASIC PROPERTIES.
4. BERNSTEIN'S INEQUALITY.
5. EXERCISES
CHAPTER 10 - HOLONOMIC MODULES
1. DEFINITION AND EXAMPLES.
2. BASIC PROPERTIES.
3. FURTHER EXAMPLES.
4. EXERCISES.
CHAPTER 11 - CHARACTERISTIC VARIETIES
1. THE CHARACTERISTIC VARIETY.
2. SYMPLECTIC GEOMETRY.
3. NON-HOLONOMIC IRREDUCIBLE MODULES
4. EXERCISES
CHAPTER 12 - TENSOR PRODUCTS
1. BIMODULES.
2. TENSOR PRODUCTS.
3. THE UNIVERSAL PROPERTY
4. BASIC PROPERTIES.
5. LOCALIZATION.
6. EXERCISES
CHAPTER 13 - EXTERNAL PRODUCTS
1. EXTERNAL PRODUCTS OF ALGEBRAS.
2. EXTERNAL PRODUCTS OF MODULES.
3. GRADUATIONS AND FILTRATIONS.
4. DIMENSIONS AND MULTIPLICITIES
5. EXERCISES
CHAPTER 14 - INVERSE IMAGES
1. CHANGE OF RINGS
2. INVERSE IMAGES.
3. PROJECTIONS.
4. EXERCISES
CHAPTER 15 - EMBED DINGS
1. THE STANDARD EMBEDDING
2. COMPOSITION.
3. EMBED DINGS REVISITED.
4. EXERCISES
CHAPTER 16 - DIRECT IMAGES
1. RIGHT MODULES
2. TRANSPOSITION
3. LEFT MODULES
4. EXERCISES
CHAPTER 17 - KASHIWARA'S THEOREM
1. EMBEDDINGS
2. KASHIWARA'S THEOREM
3. EXERCISES
CHAPTER 18 - PRESERVATION OF HOLONOMY
1. INVERSE IMAGES
2. DIRECT IMAGES.
3. CATEGORIES AND FUNCTORS.
4. EXERCISES
CHAPTER 19 - STABILITY OF DIFFERENTIAL EQUATIONS
1. ASYMPTOTIC STABILITY
2. GLOBAL UPPER BOUND
3. GLOBAL STABILITY ON THE PLANE
4. EXERCISES
CHAPTER 20 - AUTOMATIC PROOF OF IDENTITIES
1. HOLONOMIC FUNCTIONS.
2. HYPEREXPONENTIAL FUNCTIONS.
3. THE METHOD.
4. EXERCISES
CODA
APPENDIX 1 - DEFINING THE ACTION OF A MODULE USING GENERATORS
APPENDIX 2 - LOCAL INVERSION THEOREM
REFERENCES
INDEX
Back cover