Nonequilibrium Phase Transitions in Lattice Models [Hardcover]

An introduction to nonequilibrium statistical physics via lattice models; for researchers.Many researchers encounter nonequilibrium phenomena in their studies of order in seemingly chaotic systems. One promising approach to understanding nonequilibrium phenomena is by using lattice gas models which consider complex systems as collections of simple elements each related by simple rules. This book, by leading researchers in the field, presents an up to date and accessible account of this fascinating subject and includes many references. It will be of interest to statistical physicists and to researchers in areas including mathematics, chemistry, mathematical biology and geology interested in complex systems.Many researchers encounter nonequilibrium phenomena in their studies of order in seemingly chaotic systems. One promising approach to understanding nonequilibrium phenomena is by using lattice gas models which consider complex systems as collections of simple elements each related by simple rules. This book, by leading researchers in the field, presents an up to date and accessible account of this fascinating subject and includes many references. It will be of interest to statistical physicists and to researchers in areas including mathematics, chemistry, mathematical biology and geology interested in complex systems.This book provides an introduction to nonequilibrium statistical physics via lattice models. Beginning with an introduction to the basic driven lattice gas, the early chapters discuss the relevance of this lattice model to certain natural phenomena, examining simulation results in detail. Later chapters discuss absorbing-state transitions, and examine a variety of systems subject to dynamic disorder. The book discusses the effects of multiparticle rules, nonunique absorbing-states and conservation laws, as well as the use of methods such as mean-field theory, Monte Carlo simulation and the concept of universality. It also includes detailed referenls)