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Differential Geometry, Gauge Theories, and Gravity

All titles
Differential Geometry, Gauge Theories, and Gravity

Differential Geometry, Gauge Theories, and Gravity

M. Göckeler
T. Schücker
July 1989
Available
Paperback
9780521378215
$71.99
USD
Paperback
USD
eBook
    Description

    Using a self-contained and concise treatment of modern differential geometry, this book will be of great interest to graduate students and researchers in applied mathematics or theoretical physics working in field theory, particle physics, or general relativity.
    The authors begin with an elementary presentation of differential forms. This formalism is then used to discuss physical examples, followed by a generalization of the mathematics and physics presented to manifolds. The book emphasizes the applications of differential geometry concerned with gauge theories in particle physics and general relativity.
    Topics discussed include Yang-Mills theories, gravity, fiber bundles, monopoles, instantons, spinors, and anomalies.

    Reviews & endorsements

    "...a very beautifully and elegantly written introduction to those areas of modern differential geometry that either now play, or presumably will play, a role in particle physics and general relativity." SIAM Review

    See more reviews

    Product details

    July 1989
    Paperback
    9780521378215
    244 pages
    230 × 153 × 18 mm
    0.4kg
    Available

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    Contents

    Table of Contents

    • Preface
    • 1. Exterior algebra
    • 2. Differential forms on open subsets of Rn
    • 3. Metric structures
    • 4. Gauge theories
    • 5. Einstein–Cartan theory
    • 6. The Lie derivative
    • 7. Manifolds
    • 8. Lie groups
    • 9. Fibre bundles
    • 10. Monopoles, instantons, and related fibre bundles
    • 11. Spin
    • 12. An algebraic approach to anomalies
    • 13. Anomalies from graphs
    • References
    • Bibliography
    • Notation
    • Index.
      • Show more
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    Solutions
    Size: 325.05 KB
    Type: application/pdf
    Errata
    Size: 129.14 KB
    Type: application/pdf
    Additional Information
    About the authors
      Authors
    • M. Göckeler
    • T. Schücker

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