An Introduction to Stochastic Processes and Nonequilibrium Statistical Physics
Nonfiction, Science & Nature, Mathematics, Probability, Science, Physics, Mathematical Physics, Statistics
| Author: | Horacio S Wio, Roberto R Deza, Juan M López | ISBN: | 9789814434638 |
| Publisher: | World Scientific Publishing Company | Publication: | September 5, 2012 |
| Imprint: | WSPC | Language: | English |
| Author: | Horacio S Wio, Roberto R Deza, Juan M López |
| ISBN: | 9789814434638 |
| Publisher: | World Scientific Publishing Company |
| Publication: | September 5, 2012 |
| Imprint: | WSPC |
| Language: | English |
This book aims to provide a compact and unified introduction to the most important aspects in the physics of non-equilibrium systems. It first introduces stochastic processes and some modern tools and concepts that have proved their usefulness to deal with non-equilibrium systems from a purely probabilistic angle. The aim is to show the important role played by fluctuations in far-from-equilibrium situations, where noise can promote order and organization, switching among non-equilibrium states, etc. The second part adopts a more historical perspective, retracing the first steps taken from the purely thermodynamic as well as from the kinetic points of view to depart (albeit slightly) from equilibrium. The third part revisits the path outlined in the first one, but now undertakes the mesoscopic description of extended systems, where new phenomena (patterns, long-range correlations, scaling far from equilibrium, etc.) are observed.
This book is a revised and extended version of an earlier edition published in 1994. It includes topics of current research interest in far-from-equilibrium situations like noise-induced phenomena and free energy-like functionals, surface growth and roughening, etc. It can be used as an advanced textbook by graduate students in physics. It also covers topics of current interest in other disciplines and interdisciplinary approaches in engineering, biophysics, and economics, among others.
The level of detail in the book is enough to capture the interest of the reader and facilitate the path to more learning by exploring the modern research literature provided. At the same time, the book is also complete enough to be self-contained for those readers who just need an overview of the subject.
Contents:
-
The Stochastic Approach:
-
Stochastic Processes and the Master Equation
The Fokker–Planck Equation
The Ω–Expansion
-
Thermodynamics and Kinetics Near Equilibrium:
-
Distributions, BBGKY–Hierarchy, Balance Equations, and the Density Operator
Linear Nonequilibrium Thermodynamics and Onsager Relations
Linear Response Theory, Fluctuation–Dissipation Theorem
-
The Mesoscopic Approach Far from Equilibrium: Non-Extended Systems:
-
Stability of Dissipative Dynamical Systems
Noise-Induced Phenomena in Non-Extended Dynamical Systems
-
The Mesoscopic Approach Far from Equilibrium: Extended Systems:
-
Formation and Propagation of Patterns in Far-from-Equilibrium Systems
Noise-Induced Phenomena in Extended Systems
Surface Growth and Kinetic Roughening
Final Comments
Readership: Graduate students and researchers interested not only in statistical physics, but engineering, biophysics and economics.
Key Features:
- The phenomenological approach used in this book makes it easier for the researchers from other fields to learn, borrow and use concepts, tools and techniques from the physics of nonequilibrium systems. Interdisciplinary communities that could benefit from this book include Biophysics, Systems Biology, Economics, and Sociology
- The book is a revised and expanded version that contains modern topics that have been developed after the publication of the first edition
- Books on the subject can be divided in two groups. On the one hand, there are some classical textbooks that make a very formal approach to statistical physics in nonequilibrium systems that is not always practical and useful in modern applications. On the other hand, there are a number of books dealing with current aspects of the subject but they are usually specific for certain situations or offer a rather narrow scope
This book aims to provide a compact and unified introduction to the most important aspects in the physics of non-equilibrium systems. It first introduces stochastic processes and some modern tools and concepts that have proved their usefulness to deal with non-equilibrium systems from a purely probabilistic angle. The aim is to show the important role played by fluctuations in far-from-equilibrium situations, where noise can promote order and organization, switching among non-equilibrium states, etc. The second part adopts a more historical perspective, retracing the first steps taken from the purely thermodynamic as well as from the kinetic points of view to depart (albeit slightly) from equilibrium. The third part revisits the path outlined in the first one, but now undertakes the mesoscopic description of extended systems, where new phenomena (patterns, long-range correlations, scaling far from equilibrium, etc.) are observed.
This book is a revised and extended version of an earlier edition published in 1994. It includes topics of current research interest in far-from-equilibrium situations like noise-induced phenomena and free energy-like functionals, surface growth and roughening, etc. It can be used as an advanced textbook by graduate students in physics. It also covers topics of current interest in other disciplines and interdisciplinary approaches in engineering, biophysics, and economics, among others.
The level of detail in the book is enough to capture the interest of the reader and facilitate the path to more learning by exploring the modern research literature provided. At the same time, the book is also complete enough to be self-contained for those readers who just need an overview of the subject.
Contents:
-
The Stochastic Approach:
-
Stochastic Processes and the Master Equation
The Fokker–Planck Equation
The Ω–Expansion
-
Thermodynamics and Kinetics Near Equilibrium:
-
Distributions, BBGKY–Hierarchy, Balance Equations, and the Density Operator
Linear Nonequilibrium Thermodynamics and Onsager Relations
Linear Response Theory, Fluctuation–Dissipation Theorem
-
The Mesoscopic Approach Far from Equilibrium: Non-Extended Systems:
-
Stability of Dissipative Dynamical Systems
Noise-Induced Phenomena in Non-Extended Dynamical Systems
-
The Mesoscopic Approach Far from Equilibrium: Extended Systems:
-
Formation and Propagation of Patterns in Far-from-Equilibrium Systems
Noise-Induced Phenomena in Extended Systems
Surface Growth and Kinetic Roughening
Final Comments
Readership: Graduate students and researchers interested not only in statistical physics, but engineering, biophysics and economics.
Key Features:
- The phenomenological approach used in this book makes it easier for the researchers from other fields to learn, borrow and use concepts, tools and techniques from the physics of nonequilibrium systems. Interdisciplinary communities that could benefit from this book include Biophysics, Systems Biology, Economics, and Sociology
- The book is a revised and expanded version that contains modern topics that have been developed after the publication of the first edition
- Books on the subject can be divided in two groups. On the one hand, there are some classical textbooks that make a very formal approach to statistical physics in nonequilibrium systems that is not always practical and useful in modern applications. On the other hand, there are a number of books dealing with current aspects of the subject but they are usually specific for certain situations or offer a rather narrow scope
