Fluctuations in Physical Systems
Fluctuations in Physical Systems
This book provides an introduction to applied statistical mechanics by considering physically realistic models. It provides a simple and accessible introduction to theories of thermal fluctuations and diffusion, and goes on to apply them in a variety of physical contexts. The first part of the book is devoted to processes in thermal equilibrium, and considers linear systems. Ideas central to the subject, such as the fluctuation dissipation theorem, Fokker–Planck equations and the Kramers–Kroenig relations are introduced during the course of the exposition. The scope is then expanded to include non-equilibrium systems and also illustrates simple nonlinear systems. This book will be of interest to final year undergraduate and graduate students studying statistical mechanics, plasma physics, basic electronics, solid state physics and anyone who wants an accessible introduction to the subject.
- Applications of mathematical methods are illustrated by practical examples
- Contains nearly 100 exercises
- Could be used by lecturers in the preparation of problems for tests and exams
Product details
No date availablePaperback
9780521655927
202 pages
244 × 170 × 11 mm
0.33kg
41 b/w illus. 73 exercises
Table of Contents
- 1. Introduction
- 2. Elements of statistical analysis
- 3. Fluctuations in electric circuits
- 4. The fluctuation-dissipation theorem
- 5. The Kramers–Kronig relation
- 6. Brownian motion
- 7. Random walk
- 8. Density fluctuations in gases
- 9. A reference model
- 10. Markov processes
- 11. Diffusion of particles
- 12. Thermal fluctuations in a diode
- 13. Fermi-acceleration
- Appendix A. The binomial distribution
- Appendix B. The Poisson distribution
- Appendix C. The gaussian distribution
- Appendix D. Dirac's d-function
- Appendix E. Physical constants
- Appendix F. The MKSA-units.
