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Operator Algebras and Quantum Statistical Mechanics II

Equilibrium States Models in Quantum Statistical Mechanics

  • Book
  • © 1981

Overview

Authors:
  1. Ola Bratteli

    1. Institutt for Matematikk, Norges Tekniske Høgskole, Universitetet 1 Trondheim, Trondheim, Norway

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  2. Derek W. Robinson

    1. School of Mathematics, University of New South Wales, Kensington, Australia

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    You can also search for this author in PubMed   Google Scholar

Part of the book series: Theoretical and Mathematical Physics (TMP)

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Table of contents (3 chapters)

  1. Front Matter

    Pages i-xi
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  2. States in Quantum Statistical Mechanics

    • Ola Bratteli, Derek W. Robinson
    Pages 1-237

  3. Models of Quantum Statistical Mechanics

    • Ola Bratteli, Derek W. Robinson
    Pages 239-451

  4. Erratum

    • Ola Bratteli, Derek W. Robinson
    Pages 503-505

  5. Back Matter

    Pages 453-507
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Keywords

About this book

In this chapter, and the following one, we examine various applications of C*-algebras and their states to statistical mechanics. Principally we analyze the structural properties of the equilibrium states of quantum systems con­ sisting of a large number of particles. In Chapter 1 we argued that this leads to the study of states of infinite-particle systems as an initial approximation. There are two approaches to this study which are to a large extent comple­ mentary. The first approach begins with the specific description of finite systems and their equilibrium states provided by quantum statistical mechanics. One then rephrases this description in an algebraic language which identifies the equilibrium states as states over a quasi-local C*-algebra generated by sub­ algebras corresponding to the observables of spatial subsystems. Finally, one attempts to calculate an approximation of these states by taking their limit as the volume of the system tends to infinity, the so-called thermodynamic limit. The infinite-volume equilibrium states obtained in this manner provide the data for the calculation of bulk properties of the matter under considera­ tion as functions of the thermodynamic variables. By this we mean properties such as the particle density, or specific heat, as functions of the temperature and chemical potential, etc. In fact, the infinite-volume data provides a much more detailed, even microscopic, description of the equilibrium phenomena although one is only generally interested in the bulk properties and their fluctuations.

Authors and Affiliations

  • Institutt for Matematikk, Norges Tekniske Høgskole, Universitetet 1 Trondheim, Trondheim, Norway

    Ola Bratteli

  • School of Mathematics, University of New South Wales, Kensington, Australia

    Derek W. Robinson

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