1: Introduction
2: Relativistic Invariance
3: The Electromagnetic Field
4: General relativity: A Field Theory of Gravitation
5: The Physical States
6: Relativistic Wave Equations
7: Towards a Relativistic Quantum Mechanics
8: Functional Integrals and Probabilistic Amplitudes
9: Functional Integrals and Quantum Mechanics: Formal
Developments
10: The Euclidean Functional Integrals
11: Fermions and Functional Formalism
12: Relativistic Quantum Fields
13: Applications
14: Geometry and Quantum Dynamics
15: Broken Symmetries
16: Quantum Field Theory at Higher Orders
17: A First Glance at Renormalisation and Symmetry
18: Renormalisation of Yang-Mills Theory and BRST Symmetry
19: Some Consequences of the Renormalisation Group
20: Analyticity Properties of Feynman Diagrams
21: Infrared Singularities
22: Coherent States and Classical Limit of Quantum
Electrodynamics
23: Quantum Field Theories with a Large Number of Fields
24: The Existence of Field Theories beyond the Perturbation
Expansion
25: Fundamental Interactions
26: Beyond the Standard Model
27: Supersymmetry, or the Defense of Scalars
Appendix A: Tensor Calculus
Appendix B: Differential Calculus
Appendix C: Groups and Lie Algebras
Appendix D: A collection of Useful Formulae
Appendix E: Extract from Maxwell's A Treatise on Electricity and
Magnetism
Laurent Baulieu is currently CNRS Research Director at the
University of Paris, where he has long been the head of the
Theoretical Physics Department. His main field of research is
Quantum Field Theory, the
Theory of Elementary Particles and Symmetries. He has been an
organizer of many summer schools and workshops on various aspects
of Quantum Field Theory, especially in les Houches and in the
Cargèse Institute in Corsica. John Iliopoulos is Director of
Research Emeritus at the Ecole Normale Supérieure in Paris, where
for many years he was the head of the Theoretical Physics
Department. His research was centred around theoretical particle
physics. In 1970, in collaboration with
Sheldon Glashow and Luciano Maiani, he predicted the existence of
the charm quark and proposed the GIM mechanism, an important step
in the construction of the Standard Model. He has also contributed
to the development of
supersymmetry (with Bruno Zumino and Pierre Fayet). He has received
many awards, such as the Ricard Prize of the French Physical
Society, the Sakurai Prize of the American Physical Society, the
High Energy Physics Prize of the European Physical Society and the
Dirac Medal. Roland Sénéor is Director of Research Emeritus at the
French CNRS. He spent most of his career at the Ecole
Polytechnique, where he established and directed the Graduate
School and was the Head of the Department
for International Scientific Relations. His research centered on
the mathematical foundations of QFT: the axiomatic formulation, the
constructive approach, the summability of the perturbation
expansion and the
study of dynamic stochastic models. He has received various awards,
including the Langevin Prize of the French Physical Society.
From Classical to Quantum Fields makes for a fine companion for
students and an excellent general reference for researchers in
theoretical physics.
*Francesca Vidotto, Physics Today*
This monograph constitutes useful material for readers interested
in updating their understanding of quantum theory. The presentation
is very pleasant.
*Francisco Marcell´ an, Mathematical Reviews Clippings*
I found this book to be unusually well-written and well-organised.
There is a lot of material covered, and I expect to keep this book
within easy reach to peruse as desired. This book is an amazing
resource for anyone interested in learning QFT.
*Andrew Resnick, Contemporary Physics*
The presentation is at a level appropriate for graduate students
and can be a resource for professionals...Recommended.
*CHOICE*
Everything is done in great detail, and the reader who stays with
the discussion from beginning to end will obtain a fabulous
education in modern physics, as well as a load of very solid
ancillary mathematics. What a book!
*Michael Berg, Mathematical Association of America*
This is a book on field theory, carefully written by the top
experts in the field (no pun intended). It will be very useful for
students studying this fundamental and complicated subject.
*A. Polyakov, Department of Physics, Princeton University*
This is a major contribution to the literature. Starting out with
very elementary considerations, it proceeds to reach some of the
frontiers in the field. From Classical to Quantum Fields is a
fantastic resource to learn quantum field theory. It was a pleasure
to read.
*Luis Alvarez-Gaume, Theoretical Physics Department, CERN,
Switzerland*
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