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The One-Dimensional Hubbard Model

$75.00 USD

  • Date Published: May 2005
  • availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
  • format: Adobe eBook Reader
  • isbn: 9780511079207

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  • The description of solids at a microscopic level is complex, involving the interaction of a huge number of its constituents, such as ions or electrons. It is impossible to solve the corresponding many-body problems analytically or numerically, although much insight can be gained from the analysis of simplified models. An important example is the Hubbard model, which describes interacting electrons in narrow energy bands, and which has been applied to problems as diverse as high-Tc superconductivity, band magnetism, and the metal-insulator transition. This book presents a coherent, self-contained account of the exact solution of the Hubbard model in one dimension. The early chapters will be accessible to beginning graduate students with a basic knowledge of quantum mechanics and statistical mechanics. The later chapters address more advanced topics, and are intended as a guide for researchers to some of the more topical results in the field of integrable models.

    • Comprehensive and self-contained treatment of the exact solution of the one-dimensional Hubbard model
    • First half of the book accessible to beginning graduate students
    • Later chapters present topical results
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    Product details

    • Date Published: May 2005
    • format: Adobe eBook Reader
    • isbn: 9780511079207
    • availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
  • Table of Contents

    Preface
    1. Introduction
    2. The Hubbard Hamiltonian and its symmetries
    3. The Bethe ansatz solution
    4. String hypothesis
    5. Thermodynamics in the Yang-Yang approach
    6. Ground state properties in the thermodynamic limit
    7. Excited states at zero temperature
    8. Finite size corrections at zero temperature
    9. Asymptotics of correlation functions
    10. Scaling and continuum limits at half-filling
    11. Universal correlations at low density
    12. The algebraic approach to the Hubbard model
    13. The path integral approach to thermodynamics
    14. The Yangian symmetry of the Hubbard model
    15. S-matrix and Yangian symmetry in the infinite interval limit
    16. Hubbard model in the attractive case
    17. Mathematical appendices
    References
    Index.

  • Authors

    Fabian H. L. Essler, University of Oxford

    Holger Frahm, Universität Hannover, Germany

    Frank Göhmann, Bergische Universität-Gesamthochschule Wuppertal, Germany

    Andreas Klümper, Bergische Universität-Gesamthochschule Wuppertal, Germany

    Vladimir E. Korepin, State University of New York, Stony Brook

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