Description
Book SynopsisIntroducing a unified framework for describing and understanding complex interacting systems common in physics, chemistry, biology, ecology, and the social sciences, this comprehensive overview of dynamic critical phenomena covers the description of systems at thermal equilibrium, quantum systems, and non-equilibrium systems. Powerful mathematical techniques for dealing with complex dynamic systems are carefully introduced, including field-theoretic tools and the perturbative dynamical renormalization group approach, rapidly building up a mathematical toolbox of relevant skills. Heuristic and qualitative arguments outlining the essential theory behind each type of system are introduced at the start of each chapter, alongside real-world numerical and experimental data, firmly linking new mathematical techniques to their practical applications. Each chapter is supported by carefully tailored problems for solution, and comprehensive suggestions for further reading, making this an excellen
Trade Review'I was impressed by the balance and approach: the chapters are all presented by skilled writers who are also distinguished contributors to the debates ... The editor is to be congratulated on maintaining the high quality of the included chapters and on excluding dud ones.' Geoscientist
Table of ContentsPart I. Near-Equilibrium Critical Dynamics: 1. Equilibrium critical phenomena; 2. Stochastic dynamics; 3. Dynamic scaling; 4. Dynamic perturbation theory; 5. Dynamic renormalization group; 6. Hydrodynamic modes and reversible mode couplings; 7. Phase transitions in quantum systems; Part II. Scale Invariance in Non-Equilibrium Systems; 8. Non-equilibrium critical dynamics; 9. Reaction-diffusion systems; 10. Active to absorbing state transitions; 11. Driven diffusive systems and growing interfaces; Index.
