Electroweak Interactions

"Maiani’s book Electroweak Interactions provides the essential information for a graduate student who wishes to learn about the electroweak sector of the standard model. The treatment, by one the key contributors to the field, is focused, physical, and authoritative."
—R. Keith Ellis, Director, Institute for Particle Physics Phenomenology, Durham University

"This book offers an excellent introduction to the theory of elementary particles with particular emphasis on the electroweak sector. It will be immensely useful to students, both experimentalists and theorists. It is also a book that every teacher of particle physics will absolutely need.
When we teach the subject, we often make the mistake to start from the formal aspects of gauge theories, Lie algebras, or differential geometry. They are important and necessary, but we forget that the student does not always understand why we need all this heavy artillery. This book, in fact this series because the present volume is part of a trilogy, starts the other way around: it introduces the physical principles and the phenomenological facts that point unambiguously to the introduction of the formal aspects of field theory. They will be the subject of the following volume. In the present book, experimentalists will find everything they need to know and theorists will understand why they also need to read the following volume.
A book for every particle physicist."
—John Iliopoulos, Ecole Normale Supérieure, Paris

"Electroweak Interactions by Luciano Maiani is an elegantly written graduate-level textbook, reviewing the unification of the weak and electromagnetic interactions that constitute the Standard Model of particle physics. Addressed to students familiar with relativistic quantum mechanics, it is also an excellent reference for active high energy physics (HEP) theorists and experimentalists, as well as teachers. It reconstructs a path that began with the connection between nuclear isospin and weak currents and ends with predictions for the properties of the Higgs boson, including comparisons with the most recent measurements being carried out in LHC experiments. Written by a major player in the field, this book is a must in a HEP library, both private and public."
—Arturo Menchaca-Rocha, FinstP, Professor of Physics, Mexico’s National Autonomous University, ALICE-CERN and AMS Collaborations Member, Former President of the Mexican Academy of Sciences, Presidential Advisor