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E-raamat: Generalized Ricci Flow

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  • Formaat: 248 pages
  • Sari: University Lecture Series
  • Ilmumisaeg: 30-May-2021
  • Kirjastus: American Mathematical Society
  • ISBN-13: 9781470464110
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Generalized Ricci FlowSuurem pilt
  • Formaat: 248 pages
  • Sari: University Lecture Series
  • Ilmumisaeg: 30-May-2021
  • Kirjastus: American Mathematical Society
  • ISBN-13: 9781470464110
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The generalized Ricci flow is a geometric evolution equation which has recently emerged from investigations into mathematical physics, Hitchin's generalized geometry program, and complex geometry. This book gives an introduction to this new area, discusses recent developments, and formulates open questions and conjectures for future study. The text begins with an introduction to fundamental aspects of generalized Riemannian, complex, and Kahler geometry. This leads to an extension of the classical Einstein-Hilbert action, which yields natural extensions of Einstein and Calabi-Yau structures as `canonical metrics' in generalized Riemannian and complex geometry. The book then introduces generalized Ricci flow as a tool for constructing such metrics and proves extensions of the fundamental Hamilton/Perelman regularity theory of Ricci flow. These results are refined in the setting of generalized complex geometry, where the generalized Ricci flow is shown to preserve various integrability conditions, taking the form of pluriclosed flow and generalized Kahler-Ricci flow, leading to global convergence results and applications to complex geometry. Finally, the book gives a purely mathematical introduction to the physical idea of T-duality and discusses its relationship to generalized Ricci flow. The book is suitable for graduate students and researchers with a background in Riemannian and complex geometry who are interested in the theory of geometric evolution equations.
Chapter 1 Introduction
1(6)
1.1 Outline
2(2)
1.2 On pedagogy
4(1)
1.3 Acknowledgments
5(2)
Chapter 2 Generalized Riemannian Geometry
7(24)
2.1 Courant algebroids
7(5)
2.2 Symmetries of the Dorfman bracket
12(8)
2.3 Generalized metrics
20(8)
2.4 Divergence operators
28(3)
Chapter 3 Generalized Connections and Curvature
31(34)
3.1 Generalized connections
31(4)
3.2 Metric compatible connections
35(5)
3.3 The classical Bismut connection
40(3)
3.4 Curvature and the first Bianchi identity
43(4)
3.5 Generalized Ricci curvature
47(4)
3.6 Generalized scalar curvature
51(5)
3.7 Generalized Einstein-Hilbert functional
56(9)
Chapter 4 Fundamentals of Generalized Ricci Flow
65(20)
4.1 The equation and its motivation
65(4)
4.2 Examples
69(4)
4.3 Maximum principles
73(3)
4.4 Invariance group and solitons
76(6)
4.5 Low dimensional structure
82(3)
Chapter 5 Local Existence and Regularity
85(24)
5.1 Variational formulas
85(4)
5.2 Short time existence
89(3)
5.3 Curvature evolution equations
92(7)
5.4 Smoothing estimates
99(3)
5.5 Results on maximal existence time
102(4)
5.6 Compactness results for generalized metrics
106(3)
Chapter 6 Energy and Entropy Functionals
109(18)
6.1 Generalized Ricci flow as a gradient flow
109(7)
6.2 Expander entropy and Harnack estimate
116(3)
6.3 Shrinking Entropy and local collapsing
119(3)
6.4 Corollaries on nonsingular solutions
122(5)
Chapter 7 Generalized Complex Geometry
127(38)
7.1 Linear generalized complex structures
127(7)
7.2 Generalized complex structures on manifolds
134(8)
7.3 Courant algebroids and pluriclosed metrics
142(6)
7.4 Generalized Kahler geometry
148(17)
Chapter 8 Canonical Metrics in Generalized Complex Geometry
165(18)
8.1 Connections, torsion, and curvature
165(5)
8.2 Canonical metrics in complex geometry
170(6)
8.3 Examples and rigidity results
176(7)
Chapter 9 Generalized Ricci Flow in Complex Geometry
183(36)
9.1 Kahler-Ricci flow
183(2)
9.2 Pluriclosed flow
185(5)
9.3 Generalized Kahler-Ricci flow
190(6)
9.4 Reduced flows
196(4)
9.5 Torsion potential evolution equations
200(2)
9.6 Higher regularity from uniform parabolicity
202(5)
9.7 Metric evolution equations
207(3)
9.8 Sharp existence and convergence results
210(9)
Chapter 10 T-duality
219(22)
10.1 Topological T-duality
219(3)
10.2 T-duality and Courant algebroids
222(3)
10.3 Geometric T-duality
225(4)
10.4 Buscher rules and the dilaton shift
229(4)
10.5 Einstein-Hilbert action
233(2)
10.6 Examples
235(6)
Bibliography 241
Mario Garcia-Fernandez, Universidad Autonoma de Madrid, Spain, and Instituto de Ciencias Matematicas, Madrid, Spain

Jeffrey Streets, University of California, Irvine, CA
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