Description

Presents concepts of chaotic systems for researchers and graduate students in statistical mechanics and chaos. Presenting the basic concepts of chaotic systems, introducing the tools to characterize the non asymptotic behaviors of chaotic systems, and with an emphasis on systems composed by a huge number of particles, this text will interest researchers and graduate students in statistical mechanics and chaos. Presenting the basic concepts of chaotic systems, introducing the tools to characterize the non asymptotic behaviors of chaotic systems, and with an emphasis on systems composed by a huge number of particles, this text will interest researchers and graduate students in statistical mechanics and chaos. While statistical mechanics describe the equilibrium state of systems with many degrees of freedom, and dynamical systems explain the irregular evolution of systems with few degrees of freedom, new tools are needed to study the evolution of systems with many degrees of freedom. This book presents the basic aspects of chaotic systems, with emphasis on systems composed by huge numbers of particles. Firstly, the basic concepts of chaotic dynamics are introduced, moving on to explore the role of ergodicity and chaos for the validity of statistical laws, and ending with problems characterized by the presence of more than one significant scale. Also discussed is the relevance of many degrees of freedom, coarse graining procedure, and instability mechanisms in justifying a statistical description of macroscopic bodies. Introducing the tools to characterize the non asymptotic behaviors of chaotic systems, this text will interest researchers and graduate students in statistical mechanics and chaos. 1. Basic concepts of dynamical systems theory; 2. Dynamical indicators for chaotic systems: Lyapunov exponents, entropies and beyond; 3. Coarse graining, entropies and Lyapunov exponents at work; 4. Foundation of the statistical mechanics and dynamical systems; 5. On the origin of irreversibility; 6. The role of chaos in non-equilibrium statistical mechanics; 7. Coarse-graining equations in complex systems; 8. Renormalization-group approaches; Index. 'This is an excellent book written in highly polished fashion by four experts in the fields of dynamical systems and statistical mechanics. … discussions are clear and forthright and no attempt is made to obfuscate or to hide things under a rug … This is an excellent book for experts in the field and would provide a provocative textbook for graduate students. I couldn't find any typos or misstatements …' Journal of Statistical Physics