统计力学(原书第二版 英文版) 出版时间:2012年版 内容简介 For this new edition, each chapter was revised and improved, typos corrected and figures added, some in response to many helpful comments on the first edition. We especially thank Professor Milton W. Cole for his correction of a factor 2 in the specific heat of a 1D hard-core Bose gas. Additionally, solutions to some representative problems have been included in an Appendix.But, more t.han mere revision and expansion of the material, it is the wit and knowledge of a new co-author that has greatly improved the present text. Thanks to this couaboration the topics of renormalization group and Monte-Carlo numerical techniques could be treated on a par with more conventional elements of statistical thermodynamics. The addition of these important subjects and the expansion of topics that previously had been just many-body theory and phase transitions. We present this new edition in the hope it will better serve the contemporary student while offering to the instructor a wider, more useful choice of lecture materials. 目录 Preface to Second Edition Preface to First Edition Introduction: Theories of Thermodynamics, Kinetic Theory and Statistical Mechanics Chapter 1 Elementary Concepts in Statistics and Probability 1.0.Random Variables and Their Distributions 1.1.The Binomial Distribution 1.2.Length of a Winning Streak 1.3.Brownian Motion and the Random Walk 1.4.Poisson versus Normal (Gaussian) Distributions 1.5.Central Limit Theorem (CLT) 1.6.Multinomial Distributions, Statistical Thermodynamics 1.7.The Barometer Equation 1.8.Other Distributions Chapter 2 The Ising Model and the Lattice Gas 2.0.Physical Applications of the Binary Model 2.1.Some Background and Motivation 2.2.First-Principles Statistical Theory of Paramagnetism 2.3.More on Entropy and Energy 2.4.Some Other Relevant Thermodynamic Functions 2.5.Mean-Field Theory, Stable and Metastable Solutions 2.6.The Lattice Gas 2.7.The Nearest-Neighbor Chain: Thermodynamics in 1D 2.8.The Disordered Ising Chain 2.9.Other Magnetic Systems in One Dimension Chapter 3 Elements of Thermodynamics 3.1.The Scope of Thermodynamics 3.2.Equations of State and Some Definitions 3.3.Maxwell Relations 3.4.Three Important Laws of Thermodynamics 3.5.The Second Derivatives of the Free Energy 3.6.Phase Diagrams for the van der Waals Gas 3.7.Clausius-Clapeyron Equation 3.8.Phase Transitions 3.9.The Carnot Cycle 3.10. Superconductivity Chapter 4 Statistical Mechanics 4.0.An Axiomatic Approach and the Ergodic Hypothesis 4.1.The Formalism - and a False Start 4.2.Gibbs' Paradox and Its Remedy 4.3.The Gibbs Factor 4.4.The Grand Ensemble 4.5.Non-Ideal Gas and the 2-Body Correlation Function 4.6.The Virial Equation of State 4.7.Weakly Non-Ideal Gas 4.8. .Two-body Correlations 4.9.Configurational Partition Function in 1D 4.10. One Dimension versus Two 4.11. Two Dimensions versus Three: The Debye-Waller Factors 4.12. Specific Heat of Quasi-Ideal Dilute Atomic and Diatomic Gases 4.13. Nanophysics and Inhomogeneity Chapter 5 The World of Bosons 5.0. Quantum "Statistics" 5.1.Two Types of Bosons and Their Operators 5.2.Number Representation and the Many-Body Problem 5.3.The Adiabatic Process and Conservation of Entropy 5.4.Many-Body Perturbations 5.5. Photons …… Chapter 6 All About Fermions: Theories of Metals,Superconductors, Semiconductors Chapter 7 Kinetic Theory Chapter 8 The Transfer Matrix Chapter 9 Monte Carlo and Other Computer Simulation Methods Chapter 10 Critical Phenomena and the Renormalization Group Chapter 11 Some Uses of Quantum Field Theory in Statistical Physics
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