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E-grāmata: Algebraic Groups and Differential Galois Theory

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  • Formāts: 225 pages
  • Sērija : Graduate Studies in Mathematics
  • Izdošanas datums: 03-Sep-2011
  • Izdevniecība: American Mathematical Society
  • ISBN-13: 9781470411831
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Algebraic Groups and Differential Galois TheoryPalielināt
  • Formāts: 225 pages
  • Sērija : Graduate Studies in Mathematics
  • Izdošanas datums: 03-Sep-2011
  • Izdevniecība: American Mathematical Society
  • ISBN-13: 9781470411831
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Differential Galois theory has seen intense research activity during the last decades in several directions: elaboration of more general theories, computational aspects, model theoretic approaches, applications to classical and quantum mechanics as well as to other mathematical areas such as number theory. This book intends to introduce the reader to this subject by presenting Picard-Vessiot theory, i.e. Galois theory of linear differential equations, in a self-contained way. The needed prerequisites from algebraic geometry and algebraic groups are contained in the first two parts of the book. The third part includes Picard-Vessiot extensions, the fundamental theorem of Picard-Vessiot theory, solvability by quadratures, Fuchsian equations, monodromy group and Kovacic's algorithm. Over one hundred exercises will help to assimilate the concepts and to introduce the reader to some topics beyond the scope of this book. This book is suitable for a graduate course in differential Galois theory. The last chapter contains several suggestions for further reading encouraging the reader to enter more deeply into different topics of differential Galois theory or related fields.

Recenzijas

This well-crafted book certainly serves its intended purpose well: it is a very good self-contained introduction to Picard-Vessiot theory. ... It is a very nice book indeed." - MAA Reviews

Preface xi
Introduction xiii
Part
1. Algebraic Geometry
Chapter 1 Affine and Projective Varieties
3(24)
1.1 Affine varieties
3(14)
1.2 Abstract affine varieties
17(2)
1.3 Projective varieties
19(6)
Exercises
25(2)
Chapter 2 Algebraic Varieties
27(28)
2.1 Prevarieties
27(4)
2.2 Varieties
31(18)
Exercises
49(6)
Part
2. Algebraic Groups
Chapter 3 Basic Notions
55(20)
3.1 The notion of algebraic group
55(1)
3.2 Connected algebraic groups
56(3)
3.3 Subgroups and morphisms
59(1)
3.4 Linearization of affine algebraic groups
60(5)
3.5 Homogeneous spaces
65(1)
3.6 Characters and semi-invariants
66(1)
3.7 Quotients
67(5)
Exercises
72(3)
Chapter 4 Lie Algebras and Algebraic Groups
75(46)
4.1 Lie algebras
75(4)
4.2 The Lie algebra of a linear algebraic group
79(7)
4.3 Decomposition of algebraic groups
86(5)
4.4 Solvable algebraic groups
91(4)
4.5 Correspondence between algebraic groups and Lie algebras
95(9)
4.6 Subgroups of SL(2,C)
104(11)
Exercises
115(6)
Part
3. Differential Galois Theory
Chapter 5 Picard-Vessiot Extensions
121(20)
5.1 Derivations
121(1)
5.2 Differential rings
122(2)
5.3 Differential extensions
124(1)
5.4 The ring of differential operators
125(1)
5.5 Homogeneous linear differential equations
126(1)
5.6 The Picard-Vessiot extension
127(6)
Exercises
133(8)
Chapter 6 The Galois Correspondence
141(24)
6.1 Differential Galois group
141(4)
6.2 The differential Galois group as a linear algebraic group
145(6)
6.3 The fundamental theorem of differential Galois theory
151(7)
6.4 Liouville extensions
158(2)
6.5 Generalized Liouville extensions
160(2)
Exercises
162(3)
Chapter 7 Differential Equations over C(z)
165(50)
7.1 Fuchsian differential equations
165(8)
7.2 Monodromy group
173(3)
7.3 Kovacic's algorithm
176(35)
Exercises
211(4)
Chapter 8 Suggestions for Further Reading
215(4)
Bibliography 219(4)
Index 223
Teresa Crespo, Universitat de Barcelona, Barcelona, Spain

Zbigniew Hajto, Jagiellonian University, Kraków, Poland
Biežāk uzdotie jautājumi par e-grāmatām Biežāk uzdotie jautājumi par e-grāmatām
Permanent link: https://www.kriso.lv/db/97814704118312e.html
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