PHYS-702 / 4 crédits

Enseignant(s): Bellazzini Brando, Invited lecturers (see below), Rattazzi Riccardo

Langue: Anglais

Remark: Next time: Fall


Frequency

Every year

Summary

The course builds on the course QFT1 and QFT2 and develops in parallel to the course on Gauge Theories and the SM.

Content

The course is essentially divided into two parts. The first smaller part is a revisitation of the notions of field and particle in QFT, starting from fundamental principles of symmetry and locality. The central result is the classification of single particle and multiparticle states according to the unitary representations of the Poincaré group. The second and main part concerns the study of quantum effects. In perturbation theory, these are associated to Feynman diagrams with loops. The concepts of ultraviolet divergence and renormalization are introduced. Non-abelian gauge theories are also discussed. Skills developed in the course include the use of the Path integral formalism, methodologies to perform loop calculations and renormalization. Applications to particle physics are also illustrated.

 

1) Brief foray into axiomatic QFT

  • Unitary representations of the Poincaré group
  • Fields and the cluster property
  • LSZ formula for the S-matrix


2) Path Integral approach to QFT

  • Quantization of non-abelian gauge theories


3) Regularization and Renormalization

  • Applications to QFTs with scalars, fermions and Abelian gauge fields, in particular to Quantum Electrodynamics
  • Effective action and Effective Potential


5) The renormalization group

  • asymptotic freedom and fixed points

Keywords

Path integral formalism, divergences renormalization, Gauge theories

Renormalization group, Anomalies

Learning Prerequisites

Required courses

Quantum mechanics 1,2 - Quantum Field theory 1,2

 

Recommended courses

Conformal Field theory and gravity

Gauge theories and the Standard Model

Learning Outcomes

By the end of the course, the student must be able to:

  • Study a quantum field theory at quantum level
  • Understanding and interpreting loop effects in a quantum field theory
  • Performing loop calculations in gauge theories

Resources

Bibliography

An introduction to Quantum Field Theory, by Peskin and Schroeder

The quantum theory of Fields, Vol 1,2 by Weinberg

Ressources en bibliothèque

Moodle Link

Dans les plans d'études

  • Forme de l'examen: Multiple (session libre)
  • Matière examinée: Advanced Quantum Field Theory
  • Cours: 42 Heure(s)
  • Exercices: 14 Heure(s)
  • Type: optionnel

Semaine de référence

Cours connexes

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