Overview

The field of phase transitions and critical phenomena continues to be active in research, producing a steady stream of interesting and fruitful results. It has moved into a central place in condensed matter studies. Statistical physics, and more specifically, the theory of transitions between states of matter, more or less defines what we know about 'everyday' matter and its transformations. The major aim of this serial is to provide review articles that can serve as standard references for research workers in the field, and for graduate students and others wishing to obtain reliable information on important recent developments.

Full Product Details

Author:   Cyril Domb (Bar-Illan University, Ramat-Gan, Israel) ,  Melville Saul Green
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Academic Press Inc
Volume:   v. 19
Dimensions:   Width: 15.20cm , Height: 3.00cm , Length: 22.90cm
Weight:   0.870kg
ISBN:  

9780122203190

ISBN 10:   0122203194
Pages:   498
Publication Date:   21 September 2000
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Out of Print
Availability:   In Print  
Limited stock is available. It will be ordered for you and shipped pending supplier's limited stock.

Table of Contents

VOLUME 19 TABLE OF CONTENTS: General Preface Preface to Volume 19 Chapter 1: Exactly solvable models for many-body systems far from equilibrium Gunter M. Schütz Introduction Quantum Hamiltonian formalism for the master equation Integrable stochastic processes Asymptotic behaviour Equivalences of stochastic processes The symmetric exclusion process Driven lattice gases Reaction-diffusion processes Free-fermion systems Experimental realizations of integrable reaction-diffusion systems Acknowledgements A. The two-dimensional vertex model Universality of interface fluctuations Exact solution for empty-interval probabilities in the ASEP with open boundaries Frequently-used notation Chapter 2: Polymerized membranes, a review Kay Jörg Wiese Introduction and outline Basic properties of membranes Field theoretic treatment of tethered membranes Some useful tools and relation to polymer theory Proof of perturbative renormalizability Calculations at 2-loop order Extracting the physical information: Extrapolations Other critical exponents The tricritical point Variants Dynamics Disorder and non-conserved forces N-colored membranes Large orders Conclusions Appendices Exercises with solutions References

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