Buch, Englisch, Band 32, 454 Seiten, Format (B × H): 175 mm x 246 mm, Gewicht: 960 g
Buch, Englisch, Band 32, 454 Seiten, Format (B × H): 175 mm x 246 mm, Gewicht: 960 g
Reihe: De Gruyter Studies in Mathematics
ISBN: 978-3-11-015807-6
Verlag: De Gruyter
In the early 1920s M. Morse discovered that the number of critical points of a smooth function on a manifold is closely related to the topology of the manifold. This became a starting point of the Morse theory which is now one of the basic parts of differential topology.
Circle-valued Morse theory originated from a problem in hydrodynamics studied by S. P. Novikov in the early 1980s. Nowadays, it is a constantly growing field of contemporary mathematics with applications and connections to many geometrical problems such as Arnold's conjecture in the theory of Lagrangian intersections, fibrations of manifolds over the circle, dynamical zeta functions, and the theory of knots and links in the three-dimensional sphere.
The aim of the book is to give a systematic treatment of geometric foundations of the subject and recent research results. The book is accessible to first year graduate students specializing in geometry and topology.
Zielgruppe
Graduate Students of Mathematics, Researcher, Academic Libraries
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
Frontmatter
Contents
Preface
Introduction
Part 1. Morse functions and vector fields on manifolds CHAPTER 1. Vector fields and C0 topology CHAPTER 2. Morse functions and their gradients CHAPTER 3. Gradient flows of real-valued Morse functions
Part 2. Transversality, handles, Morse complexes CHAPTER 4. The Kupka-Smale transversality theory for gradient flows CHAPTER 5. Handles CHAPTER 6. The Morse complex of a Morse function
Part 3. Cellular gradients CHAPTER 7. Condition (C) CHAPTER 8. Cellular gradients are C0-generic CHAPTER 9. Properties of cellular gradients
Part 4. Circle-valued Morse maps and Novikov complexes CHAPTER 10. Completions of rings, modules and complexes CHAPTER 11. The Novikov complex of a circle-valued Morse map CHAPTER 12. Cellular gradients of circle-valued Morse functions and the Rationality Theorem CHAPTER 13. Counting closed orbits of the gradient flow CHAPTER 14. Selected topics in the Morse-Novikov theory
Backmatter
