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Author:   François Gelis (Commissariat à l'Energie Atomique (CEA), Saclay)
Publisher:   Cambridge University Press
Imprint:   Cambridge University Press
Dimensions:   Width: 19.30cm , Height: 3.10cm , Length: 25.30cm
Weight:   1.460kg
ISBN:  

9781108480901

ISBN 10:   110848090
Pages:   608
Publication Date:   11 July 2019
Audience:   College/higher education ,  Professional and scholarly ,  Postgraduate, Research & Scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In stock  
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Table of Contents

Preface; 1. Basics of quantum field theory; 2. Peturbation theory; 3. Quantum electrodynamics; 4. Spontaneous symmetry breaking; 5. Functional quantization; 6. Path integrals for fermions and photons; 7. Non-Abelian gauge symmetry; 8. Quantization of Yang–Mills theory; 9. Renormalization of gauge theories; 10. Renormalization group; 11. Effective field theories; 12. Quantum anomalies; 13. Localized field configurations; 14. Modern tools for tree amplitudes; 15. Wordline formalism; 16. Lattice field theory; 17. Quantum field theory at finite temperature; 18. Strong fields and semi-classical methods; 19. From trees to loops; Further reading; Index.

Reviews

'Quantum Field Theory: From Basics to Modern Topics, by Francois Gelis, is a very welcome addition to the canon of literature on quantum field theory, impressive both in its breadth and depth. It covers, in a succinct fashion, foundational material in the subject and then treats many more modern developments: effective field theories, anomaly matching, recursion relations for gauge and gravitational amplitudes, strong fields, and more.' Laurence Yaffe, University of Washington 'Though there are many books on quantum field theory, I have found this book valuable for its readable treatment of a diverse selection of modern topics from a uniform viewpoint. Subjects introduced well in this book that are hard to find elsewhere include Schwinger-Keldysh and finite-temperature field theory, modern tools for scattering amplitudes, worldline methods, as well as effective field theory. The discussion is illustrated with a rich set of examples, mainly from high energy physics.' John McGreevy, University of California, San Diego

'Quantum Field Theory: From Basics to Modern Topics, by Francois Gelis, is a very welcome addition to the canon of literature on quantum field theory, impressive both in its breadth and depth. It covers, in a succinct fashion, foundational material in the subject and then treats many more modern developments: effective field theories, anomaly matching, recursion relations for gauge and gravitational amplitudes, strong fields, and more.' Laurence Yaffe, University of Washington 'Though there are many books on quantum field theory, I have found this book valuable for its readable treatment of a diverse selection of modern topics from a uniform viewpoint. Subjects introduced well in this book that are hard to find elsewhere include Schwinger-Keldysh and finite-temperature field theory, modern tools for scattering amplitudes, worldline methods, as well as effective field theory. The discussion is illustrated with a rich set of examples, mainly from high energy physics.' John McGreevy, University of California, San Diego 'Quantum Field Theory: From Basics to Modern Topics, by Francois Gelis, is a very welcome addition to the canon of literature on quantum field theory, impressive both in its breadth and depth. It covers, in a succinct fashion, foundational material in the subject and then treats many more modern developments: effective field theories, anomaly matching, recursion relations for gauge and gravitational amplitudes, strong fields, and more.' Laurence Yaffe, University of Washington 'Though there are many books on quantum field theory, I have found this book valuable for its readable treatment of a diverse selection of modern topics from a uniform viewpoint. Subjects introduced well in this book that are hard to find elsewhere include Schwinger-Keldysh and finite-temperature field theory, modern tools for scattering amplitudes, worldline methods, as well as effective field theory. The discussion is illustrated with a rich set of examples, mainly from high energy physics.' John McGreevy, University of California, San Diego

Author Information

François Gelis is a researcher at the Institut de Physique Théorique at Commissariat à l'Energie Atomique (CEA), Saclay and teaches quantum field theory at École Polytechnique. His extensive research has been recognised by awards including the Paul Langevin prize from the French Physical Society in 2015.

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