E-Book, Englisch, 0 Seiten
Livi / Politi Nonequilibrium Statistical Physics
Erscheinungsjahr 2017
ISBN: 978-1-108-36508-6
Verlag: Cambridge University Press
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
A Modern Perspective
E-Book, Englisch, 0 Seiten
ISBN: 978-1-108-36508-6
Verlag: Cambridge University Press
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
Statistical mechanics has been proven to be successful at describing physical systems at thermodynamic equilibrium. Since most natural phenomena occur in nonequilibrium conditions, the present challenge is to find suitable physical approaches for such conditions: this book provides a pedagogical pathway that explores various perspectives. The use of clear language, and explanatory figures and diagrams to describe models, simulations and experimental findings makes the book a valuable resource for undergraduate and graduate students, and also for lecturers organizing teaching at varying levels of experience in the field. Written in three parts, it covers basic and traditional concepts of nonequilibrium physics, modern aspects concerning nonequilibrium phase transitions, and application-orientated topics from a modern perspective. A broad range of topics is covered, including Langevin equations, Levy processes, directed percolation, kinetic roughening and pattern formation.
Autoren/Hrsg.
Weitere Infos & Material
Preface; Acknowledgements; Notations and acronyms; 1. Brownian motion, Langevin and Fokker–Planck equations; 2. Linear response theory and transport phenomena; 3. From equilibrium to out-of-equilibrium phase transitions; 4. Out-of-equilibrium critical phenomena; 5. Stochastic dynamics of surfaces and interfaces; 6. Phase-ordering kinetics; 7. Highlights on pattern formation; Appendix A. Central limit theorem and its limitations; Appendix B. Spectral properties of stochastic matrices; Appendix C. Reversibility and ergodicity in a Markov chain; Appendix D. Diffusion equation and random walk; Appendix E. Kramers–Moyal expansion; Appendix F. Mathematical properties of response functions; Appendix G. The van der Waals equation; Appendix H. The Ising model; Appendix I. Derivation of the Ginzburg–Landau free energy; Appendix J. Kinetic Monte Carlo; Appendix K. Mean-field phase diagram of the bridge model; Appendix L. The deterministic KPZ and the Burgers' equation; Appendix M. The perturbative renormalization group for KPZ: a few details; Appendix N. The Gibbs–Thomson relation; Appendix O. The Allen–Cahn equation; Appendix P. The Rayleigh–Bénard instability; Appendix Q. General conditions for the Turing instability; Appendix R. Steady states of the one-dimensional TDGL equation; Appendix S. Multiscale analysis; Index.
