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Dynamics of the Standard Model

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Dynamics of the Standard Model

Dynamics of the Standard Model

2nd Edition
John F. Donoghue, University of Massachusetts, Amherst
Eugene Golowich, University of Massachusetts, Amherst
Barry R. Holstein, University of Massachusetts, Amherst
April 2014
Hardback
9780521768672
NZD$126.95
inc GST
Hardback
USD
eBook
    Description

    Describing the fundamental theory of particle physics and its applications, this book provides a detailed account of the Standard Model, focusing on techniques that can produce information about real observed phenomena. The book begins with a pedagogic account of the Standard Model, introducing essential techniques such as effective field theory and path integral methods. It then focuses on the use of the Standard Model in the calculation of physical properties of particles. Rigorous methods are emphasized, but other useful models are also described. This second edition has been updated to include recent theoretical and experimental advances, such as the discovery of the Higgs boson. A new chapter is devoted to the theoretical and experimental understanding of neutrinos, and major advances in CP violation and electroweak physics have been given a modern treatment. This book is valuable to graduate students and researchers in particle physics, nuclear physics and related fields.

    • Describes practical techniques for applying the Standard Model to real-world applications
    • Gives a careful pedagogic treatment to help readers understand advanced topics
    • Describes advanced field theory techniques not often described in other Standard Model books

    Product details

    April 2014
    Hardback
    9780521768672
    590 pages
    253 × 180 × 37 mm
    1.24kg
    62 b/w illus.
    Temporarily unavailable - available from TBC

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    Contents

    Table of Contents

    • Preface
    • 1. Inputs to the Standard Model
    • 2. Interactions of the Standard Model
    • 3. Symmetries and anomalies
    • 4. Introduction to effective field theory
    • 5. Charged leptons
    • 6. Neutrinos
    • 7. Effective field theory for low energy QCD
    • 8. Weak interactions of Kaons
    • 9. Mass mixing and CP violation
    • 10. The Nc−1 expansion
    • 11. Phenomenological models
    • 12. Baryon properties
    • 13. Hadron spectroscopy
    • 14. Weak interactions of heavy quarks
    • 15. The Higgs boson
    • 16. The electroweak sector
    • Appendixes
    • References
    • Index.
      • Show more

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    About the authors
      Authors
    • John F. Donoghue , University of Massachusetts, Amherst

      John F. Donoghue is Distinguished Professor in the Department of Physics, University of Massachusetts. His research spans particle physics, quantum field theory and general relativity. He is a Fellow of the American Physical Society.

    • Eugene Golowich , University of Massachusetts, Amherst

      Eugene Golowich is Emeritus Professor in the Department of Physics, University of Massachusetts. His research has focused on particle theory and phenomenology. He is a Fellow of the American Physical Society and is a recipient of the College Outstanding Teacher award from the University of Massachusetts.

    • Barry R. Holstein , University of Massachusetts, Amherst

      Barry R. Holstein is Emeritus Professor in the Department of Physics, University of Massachusetts. His research is in the overlap area of particle and nuclear theory. A Fellow of the American Physical Society, he is also the editor of Annual Reviews of Nuclear and Particle Science and is a longtime consulting editor of the American Journal of Physics.

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