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Progress in Gauge Field Theory

  • Book
  • © 1984

Overview

Editors:
  1. G. ’t Hooft

    1. Institute for Theoretical Physics, Utrecht, The Netherlands

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  2. A. Jaffe

    1. Harvard University, Cambridge, USA

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  3. H. Lehmann

    1. University of Hamburg, Hamburg, Federal Republic of Germany

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  4. P. K. Mitter

    1. University of Paris VI, Paris, France

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  5. I. M. Singer

    1. University of California, Berkeley, USA

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  6. R. Stora

    1. Laboratory of Particle Physics, Annecy, France

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Part of the book series: NATO Science Series B: (NSSB, volume 115)

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Table of contents (21 chapters)

  1. Front Matter

    Pages i-x
    Download chapter PDF

  2. An Introduction to Gravitational Anomalies

    • Luis Alvarez-Gaumé
    Pages 1-22

  3. Dirac Monopoles, from d = 2 to d = 5, Lecture I

    • F. Alexander Bais
    Pages 23-50

  4. Charge-Pole Dynamics, Lecture II

    • F. Alexander Bais
    Pages 51-78

  5. Exact Renormalization Group for Gauge Theories

    • Tadeusz Balaban, John Imbrie, Arthur Jaffe
    Pages 79-103

  6. The Spectrum in Lattice Gauge Theories

    • Bernd Berg
    Pages 105-154

  7. Lattices, Demons and the Microcanonical Ensemble

    • Gyan Bhanot
    Pages 155-167

  8. Quantum Field Theory in Terms of Random Walks and Random Surfaces

    • Jürg Fröhlich
    Pages 169-233

  9. Rigorous Renormalization Group and Large N

    • Krzysztof Gawedzki, Antti Kupiainen
    Pages 235-246

  10. On Kähler’s Geometric Description of Dirac Fields

    • M. Göckeler, H. Joos
    Pages 247-270

  11. Planar Diagram Field Theories

    • Gerard ’t Hooft
    Pages 271-335

  12. Fields on a Random Lattice

    • C. Itzykson
    Pages 337-371

  13. Defect Mediated Phase Transitions in Superfluids, Solids, and their Relation to Lattice Gauge Theories

    • H. Kleinert
    Pages 373-401

  14. Lattice Gauge Theory

    • C. P. Korthals Altes
    Pages 403-433

  15. Constructive Theory of Critical Phenomena

    • Antti Kupiainen, K. Gawedzki
    Pages 435-449

  16. On a Relation Between Finite Size Effects and Elastic Scattering Processes

    • M. Lüscher
    Pages 451-472

  17. Renormalization Group and Mayer Expansions

    • Gerhard Mack
    Pages 473-495

  18. Guage Invariant Frequency Splitting in Non Abelian Lattice Guage Theory

    • P. K. Mitter
    Pages 497-529

  19. Prolegomena to any Future Computer Evaluation of the QCD Mass Spectrum

    • Giorgio Parisi
    Pages 531-541

  20. Algebraic Structure and Topological Origin of Anomalies

    • Raymond Stora
    Pages 543-562
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Keywords

About this book

The importance of gauge theory for elementary particle physics is by now firmly established. Recent experiments have yielded convincing evidence for the existence of intermediate bosons, the carriers of the electroweak gauge force, as well as for the presence of gluons, the carriers of the strong gauge force, in hadronic inter­actions. For the gauge theory of strong interactions, however, a number of important theoretical problems remain to be definitely resolved. They include the quark confinement problem, the quantita­tive study of the hadron mass spectrum as well as the role of topology in quantum gauge field theory. These problems require for their solution the development and application of non-perturbative methods in quantum gauge field theory. These problems, and their non-perturbative analysis, formed the central interest of the 1983 Cargese summer institute on "Progress in Gauge Field Theory. " In this sense it was a natural sequel to the 1919 Cargese summer institute on "Recent Developments in Gauge Theories. " Lattice gauge theory provides a systematic framework for the investigation of non-perturbative quantum effects. Accordingly, a large number of lectures dealt with lattice gauge theory. Following a systematic introduction to the subject, the renormalization group method was developed both as a rigorous tool for fundamental questions, and in the block-spin formulation, the computations by Monte Carlo programs. A detailed analysis was presented of the problems encountered in computer simulations. Results obtained by this method on the mass spectrum were reviewed.

Editors and Affiliations

  • Institute for Theoretical Physics, Utrecht, The Netherlands

    G. ’t Hooft

  • Harvard University, Cambridge, USA

    A. Jaffe

  • University of Hamburg, Hamburg, Federal Republic of Germany

    H. Lehmann

  • University of Paris VI, Paris, France

    P. K. Mitter

  • University of California, Berkeley, USA

    I. M. Singer

  • Laboratory of Particle Physics, Annecy, France

    R. Stora

Bibliographic Information

  • Book Title: Progress in Gauge Field Theory

  • Editors: G. ’t Hooft, A. Jaffe, H. Lehmann, P. K. Mitter, I. M. Singer, R. Stora

  • Series Title: NATO Science Series B:

  • DOI: https://doi.org/10.1007/978-1-4757-0280-4

  • Publisher: Springer New York, NY

  • eBook Packages: Springer Book Archive

  • Copyright Information: Springer Science+Business Media New York 1984

  • Hardcover ISBN: 978-0-306-41829-7Due: 01 November 1984

  • Softcover ISBN: 978-1-4757-0282-8Published: 29 May 2012

  • eBook ISBN: 978-1-4757-0280-4Published: 06 December 2012

  • Series ISSN: 0258-1221

  • Edition Number: 1

  • Number of Pages: 618

  • Number of Illustrations: 1 b/w illustrations

  • Topics: Theoretical, Mathematical and Computational Physics, Mathematical Physics

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