The Standard Model
A Primer
Published on 7. December 2006
Book
Hardback
558 pages
978-0-521-86036-9 (ISBN)
Description
This book was first published in 2006. The standard model brings together two theories of particle physics in order to describe the interactions of subatomic particles, except those due to gravity. This book uses the standard model as a vehicle for introducing quantum field theory. In doing this the book also introduces much of the phenomenology on which this model is based. The book uses a modern approach, emphasizing effective field theory techniques, and contains brief discussions of some of the main proposals for going beyond the standard model, such as seesaw neutrino masses, supersymmetry, and grand unification. Requiring only a minimum of background material, this book is ideal for graduate students in theoretical and experimental particle physics. It concentrates on getting students to the level of being able to use this theory by doing real calculations with the minimum of formal development, and contains several problems.
Reviews / Votes
"An elegant and complete treatment of the Standard Model at tree level... The first good, modern treatment of the Standard Model, in a format suited for a one or two semester course on particle physics for beginning or graduate students."Daniel N. Kabat, Mathematical Reviews
More details
Language
English
Place of publication
Cambridge
United Kingdom
Target group
Professional and scholarly
College/higher education
Dimensions
Height: 260 mm
Width: 208 mm
Thickness: 34 mm
Weight
1408 gr
ISBN-13
978-0-521-86036-9 (9780521860369)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Book
04/2012
Cambridge University Press
€101.00
Shipment within 15-20 days
E-Book
12/2006
1st Edition
Cambridge University Press
€58.99
Available for download
Persons
Guy Moore is Assistant Professor in the Department of Physics at McGill University, Canada. He received his PhD from Princeton University and has held postdoctoral positions at McGill University and the University of Washington, Seattle. Cliff Burgess is a Professor in the Department of Physics and Astronomy at McMaster University in Canada, and an Associate Member at the Perimeter Institute for Theoretical Physics. He was James McGill Professor of Physics at McGill University in 2003, and received a Killam Research Fellowship in 2005.
Content
List of illustrations; List of tables; Preface; Acknowledgments; Part I. Theoretical Framework: 1. Field theory review; 2. The standard model: general features; 3. Cross sections and lifetimes; Part II. Applications: Leptons: 4. Elementary boson decays; 5. Leptonic weak interactions: decays; 6. Leptonic weak interactions: collisions; 7. Effective Lagrangians; Part III. Applications: Hadrons: 8. Hadrons and QCD; 9. Hadronic interactions; Part IV. Beyond the Standard Model: 10. Neutrino masses; 11. Open questions, proposed solutions; Appendix A. Experimental values for the parameters; Appendix B. Symmetries and group theory review; Appendix C. Lorentz group and the Dirac algebra; Appendix D. ?-gauge Feynman rules; Appendix E. Metric convention conversion table; Select bibliography; Index.