Semiclassical Analysis

Maciej Zworski

ISBN: 9781470425845 | Year: 2016 | Paperback | Pages: 448 | Language : English

Book Size: 180 x 240 mm | Territorial Rights: Restricted| Series American Mathematical Society

Price: 1775.00

About the Book

Semiclassical analysis provides PDE techniques based on the classical-quantum (particle-wave) correspondence. These techniques include such well-known tools as geometric optics and the Wentzel–Kramers–Brillouin approximation. Examples of problems studied in this subject are high energy eigenvalue asymptotics and effective dynamics for solutions of evolution equations. From the mathematical point of view, semiclassical analysis is a branch of microlocal analysis which, broadly speaking, applies harmonic analysis and symplectic geometry to the study of linear and nonlinear PDE. The book is intended to be a graduate level text introducing readers to semiclassical and microlocal methods in PDE. It is augmented in later chapters with many specialized advanced topics which provide a link to current research literature.

Contributors (Author(s), Editor(s), Translator(s), Illustrator(s) etc.)

Maciej Zworski is Professor of Mathematics at the University of California, Berkeley, USA.

Table of Content

Preface 
Chapter 1. Introduction 
Part 1. BASIC THEORY  
Chapter 2. Symplectic geometry and analysis 
Chapter 3. Fourier transform, stationary phase 
Chapter 4. Semiclassical quantization 

Part 2. APPLICATIONS TO PARTIAL DIFFERENTIAL EQUATIONS 
Chapter 5. Semiclassical defect measures 
Chapter 6. Eigenvalues and eigenfunctions 
Chapter 7. Estimates for solutions of PDE 

Part 3. ADVANCED THEORY AND APPLICATIONS 
Chapter 8. More on the symbol calculus 
Chapter 9. Changing variables 
Chapter 10. Fourier integral operators 
Chapter 11. Quantum and classical dynamics 
Chapter 12. Normal forms 
Chapter 13. The FBI transform 

Part 4. SEMICLASSICAL ANALYSIS ON MANIFOLDS 
Chapter 14. Manifolds 
Chapter 15. Quantum ergodicity 

Part 5. APPENDICES 
Appendix A. Notation 
Appendix B. Differential forms 
Appendix C. Functional analysis 
Appendix D. Fredholm theory
Bibliography 
Index 

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