<- Archives UCL - Programme d'études ->



Quantum Field Theory [ LPHY2120 ]


4.0 crédits ECTS  22.5 h   1q 

Teacher(s) Gérard Jean-Marc ; Lopez Val David ;
Language English
Place
of the course
Louvain-la-Neuve
Main themes

This course provides a general introduction to the concept and techniques of Quantum Field Theory. Emphasis is given to the connection to Classical and Quantum Mechanics and its applications to different fields, from Optics to Condensed Matter and Particle Physics. The Syllabus is complementary to Relativistic Quantum Mechanics and Quantum Field Theory II and lays out the mathematical formalism used in Elementary Particle Physics, Fundamental Interactions, as well as in the more advanced optional courses.

Introductory topics
    1.1 Motivation. Historical perspective.
    1.2 Many-Particle Classical and Quantum Mechanics.
    1.3 Classical Field Theory.
    1.4 Second Quantization. Non-relativistic Quantum Field Theory.
    1.5 Relativistic Classical Field Theory. The Klein'Gordon field.

2. Field quantization
    2.1 Canonical Quantization. Scalar field theory.
    2.2 The Electromagnetic Field: classical equations. Normal modes.
    2.3 The Electromagnetic Field: Canonical Quantization. Polarization. Coherent states.
    2.4 Field Quantization in the presence of charges. Interactions. Quantum Electrodynamics. Single'photon events.

3. Applications
    3.1 Quantum effects in the vacuum. Casimir effect. Lamb shift.
    3.2 Anomalous magnetic moments.
    3.3 Scattering of light.
    3.4 Atomic transitions. Spontaneous and stimulated emission. Lasers.

4. More advanced topics
    4.1 Aspects of symmetry. The Brout'Englert'Higgs mechanism.
    4.2 Topological solutions.

Aims
Evaluation methods

  • Weekly assigment (60%) ' one problem sheet to be worked out and delivered within a week.

  • Final project & oral presentation (40%).

  • The final grade can be lifted to reflect class participation, improvement and effort.

Bibliography

Classical textbooks

  • W. Greiner, Field Quantization: Berlin, Springer Verlag 1996.

  • P. Lambropoulos, D. Petrosyan, Fundamentals of Quantum Optics and Quantum Information: Springer Science & Business Media, 2007.

  • F. Mandl, G. Shaw, Quantum Field Theory: John Wiley & Sons, 2013.

  • M. Peskin, D. Schroeder, An introduction to Quantum Field Theory: Addison-Wesley Publishing Company, 1995.

  • M. Srednicki, Quantum Field Theory, Cambridge University Press, 25 Jan 2007.

  • A. Zee, Quantum Field Theory in a Nutshell : Princeton University Press, 1 Feb 2010.

  • S. Weinberg, The Quantum Theory of Fields Vols. I,II : Cambridge University Press, 1996.

' Lecture notes 

Cycle et année
d'étude
> Master [60] in Physics
> Master [120] in Physics
> Master [120] in Physical Engineering
Faculty or entity
in charge
> PHYS


<<< Page précédente