Statistical Mechanics An Introductory Graduate Course

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ABOUT THE BOOK

In a comprehensive treatment of Statistical Mechanics from thermodynamics through the renormalization group, this book serves as the core text for a full-year graduate course in statistical mechanics at either the Masters or Ph.D. level. Each chapter contains numerous exercises, and several chapters treat special topics which can be used as the basis for student projects. 

The concept of scaling is introduced early and used extensively throughout the text. At the heart of the book is an extensive treatment of mean field theory, from the simplest decoupling approach, through the density matrix formalism, to self-consistent classical and quantum field theory as well as exact solutions on the Cayley tree. Proceeding beyond mean field theory, the book discusses exact mappings involving Potts models, percolation, self-avoiding walks and quenched randomness, connecting various athermal and thermal models. Computational methods such as series expansions and Monte Carlo simulations are discussed, along with exact solutions to the 1D quantum and 2D classical Ising models. The renormalization group formalism is developed, starting from real-space RG and proceeding through a detailed treatment of Wilson’s epsilon expansion. Finally the subject of Kosterlitz-Thouless systems is introduced from a historical perspective and then treated by methods  due to Anderson, Kosterlitz, Thouless and Young.

Altogether, this comprehensive, up-to-date, and engaging text offers an ideal package for advanced undergraduate or graduate courses or for use in self study.


TABLE OF CONTENTS

    1. Front Matter

      Pages 1-1
    2. Introduction

      • A. J. Berlinsky, A. B. Harris
      Pages 3-10
    3. Phase Diagrams

      • A. J. Berlinsky, A. B. Harris
      Pages 11-25
    4. Thermodynamic Properties and Relations

      • A. J. Berlinsky, A. B. Harris
      Pages 27-61
  1. Basic Formalism

    1. Front Matter

      Pages 63-63
    2. Basic Principles

      • A. J. Berlinsky, A. B. Harris
      Pages 65-93
    3. Examples

      • A. J. Berlinsky, A. B. Harris
      Pages 95-118
    4. Basic Principles (Continued)

      • A. J. Berlinsky, A. B. Harris
      Pages 119-138
    5. Noninteracting Gases

      • A. J. Berlinsky, A. B. Harris
      Pages 139-175
  2. Mean Field Theory, Landau Theory

    1. Front Matter

      Pages 177-177
    2. Mean-Field Approximation for the Free Energy

      • A. J. Berlinsky, A. B. Harris
      Pages 179-200
    3. Density Matrix Mean-Field Theory and Landau Expansions

      • A. J. Berlinsky, A. B. Harris
      Pages 201-222
    4. Landau Theory for Two or More Order Parameters

      • A. J. Berlinsky, A. B. Harris
      Pages 223-261
    5. Quantum Fluids

      • A. J. Berlinsky, A. B. Harris
      Pages 263-294
    6. Qualitative Discussion of Fluctuations

      • A. J. Berlinsky, A. B. Harris
      Pages 319-344
    7. The Cayley Tree

      • A. J. Berlinsky, A. B. Harris
      Pages 345-370
  3. Beyond Mean-Field Theory

    1. Front Matter

      Pages 371-371
    2. Exact Mappings

      • A. J. Berlinsky, A. B. Harris


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