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统计力学
作者:( )R.K.Pathria著
出版社:世界图书出版公司北京公司
出版时间:2003-01-01
ISBN:9787506260176
定价:¥79.00
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内容简介
《统计力学·第2版(英文版)》初版于1972年,其内容涵盖了统计力学的标准内容,叙述清晰详细,深受读者欢迎。第2版对第1版的内容作了补充和删改,重写了关于相变理论的部分,增加了临界现象的重正化群理论的内容,并在每章末增加了注释。《统计力学·第2版(英文版)》每章末都附有习题。这是一本研究生水平的统计力学经典教材。是以作者多年来在几所大学为研究生授课的讲义为蓝本而写成的。目次:1.热力学的统计基础;2.系综理论纲要;3.正则系综;4.巨正则系综;5.量子统计;6.简单气体的理论;7.理想玻色系统;8.理想费米系统;9.互作用系的统计力学:集团展开方法;10.互作用系的统计力学:量子场论方法;11.相变:临界性、普适性和标度;12.相变:几种模型的严格(或几乎严格)的结果;13.相变:重正化群方法;14.涨落。附录6则。读者对象:物理学专业的研究生、教师及科研人员。
作者简介
暂缺《统计力学》作者简介
目录
PREFACE TO THE SECOND EDITION
PREFACE TO THE FIRST EDITION
HISTORICAL INTRODUCTION
Notes
Chapter 1 The Statistical Basis of Thermodynamics
1.1 The macroscopic and the microscopic states
1.2 Contact between statistics and thermodynamics:physical significance of the numberΩ(N,V,E)
1.3 Further contact between statistics and thermody namiscs
1.4 The classical ideal gas
1.5 The entropy of mixing and the Gibbs paradox
1.6 The “correct”enumeration of the microstates
Problems
Notes
Chapter 2 Elements of Ensemble Theory
2.1 Phase space of a classical system
2.2 Liouville's theorem and its consequences
2.3 The microcanonical ensemble
2.4 Examples
2.5 Quantum states and the phase space
Problems
Notes
Chapter 3 The Canonical Ensemble
3.1 Equilibrium between a system and a heat reservoir
3.2 A system in the canonical ensemble
3.3 Physical significance of the various statistical quantities in the canonical ensemble
3.4 A lternative expressions for the partition function
3.5 The classical systems
3.6 Energy fluctuations in the canonical ensemble:correspondence with the microcanonical ensemble
3.7 Two theorems-the“equipartition”and the“virial”
3.8 A system of harmonic oscillators
3.9 The statistics of paramsagnetism
3.10 Thermodynamica of magnetic systems:negative temperatures
Problems
Notes
Chapter 4 The Grand Canonical Ensemble
Chapter 5 Formulation of Quantum Statistics
Chapter 6 The Theory of Simple Gases
Chapter 7 Ideal Bose Systems
Chapter 8 Ideal Fermi Systems
Chapter 9 Statistical Mechanics of Interacting Systems:The Method of Cluster Expansions
Chapter 10 Statistical Mechanics of Interacting Systems:The Method of Quantized Fields
Chapter 11 Phase Transitions:Criticality,Universality and Scaling
Chapter 12 Phase Transitions:Exact(or Almost Exact)Results for the Various Models
Chapter 13 Phase Transitions:The Renormalization Group Approach
Chapter 14 Fluctuations
APPENDIXES
BIBLIOGRAPHY
INDEX
PREFACE TO THE FIRST EDITION
HISTORICAL INTRODUCTION
Notes
Chapter 1 The Statistical Basis of Thermodynamics
1.1 The macroscopic and the microscopic states
1.2 Contact between statistics and thermodynamics:physical significance of the numberΩ(N,V,E)
1.3 Further contact between statistics and thermody namiscs
1.4 The classical ideal gas
1.5 The entropy of mixing and the Gibbs paradox
1.6 The “correct”enumeration of the microstates
Problems
Notes
Chapter 2 Elements of Ensemble Theory
2.1 Phase space of a classical system
2.2 Liouville's theorem and its consequences
2.3 The microcanonical ensemble
2.4 Examples
2.5 Quantum states and the phase space
Problems
Notes
Chapter 3 The Canonical Ensemble
3.1 Equilibrium between a system and a heat reservoir
3.2 A system in the canonical ensemble
3.3 Physical significance of the various statistical quantities in the canonical ensemble
3.4 A lternative expressions for the partition function
3.5 The classical systems
3.6 Energy fluctuations in the canonical ensemble:correspondence with the microcanonical ensemble
3.7 Two theorems-the“equipartition”and the“virial”
3.8 A system of harmonic oscillators
3.9 The statistics of paramsagnetism
3.10 Thermodynamica of magnetic systems:negative temperatures
Problems
Notes
Chapter 4 The Grand Canonical Ensemble
Chapter 5 Formulation of Quantum Statistics
Chapter 6 The Theory of Simple Gases
Chapter 7 Ideal Bose Systems
Chapter 8 Ideal Fermi Systems
Chapter 9 Statistical Mechanics of Interacting Systems:The Method of Cluster Expansions
Chapter 10 Statistical Mechanics of Interacting Systems:The Method of Quantized Fields
Chapter 11 Phase Transitions:Criticality,Universality and Scaling
Chapter 12 Phase Transitions:Exact(or Almost Exact)Results for the Various Models
Chapter 13 Phase Transitions:The Renormalization Group Approach
Chapter 14 Fluctuations
APPENDIXES
BIBLIOGRAPHY
INDEX
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