SI2390 Relativistic Quantum Physics

SI2390 Relativistic Quantum Physics

"Relativistic Quantum Physics" is a course where important theories for elementary particle physics and symmetries are learned. During the course, it will be illustrated how relativistic symmetries and gauge symmetries can restrict "possible" theories. The course will give an introduction to perturbation theory and Feynman diagrams. The problem with divergencies will be mentioned and the concepts for regularization and renormalization will be illustrated.

Credits: 7.5     Level: 2     Grading: A, B, C, D, E, Fx, F

Time: Period 3 (Lectures 36h, which will be given in English.)

Lecturer and examiner:
Prof. Tommy Ohlsson
Telephone: 08-55378161     E-mail: see bottom of page


After completion of the course you should be able to:


I. Relativistic quantum mechanics

Tensor notation. The Lorentz and Poincaré groups. Casimir operators. Irreducible representations of particles. The Klein-Gordon equation. The Dirac equation. The structure of Dirac particles. The Dirac equation: central potentials. The Weyl equation.

II. Introduction to relativistic quantum field theory

Neutral and charged Klein-Gordon fields. The Dirac field. The Majorana field. Maxwell's equations and quantization of the electromagnetic field. Introduction to Yang-Mills theory. Asymptotic fields: LSZ formulation. Perturbation theory. Introduction to quantum electrodynamics. Interacting fields and Feynman diagrams. Elementary processes of quantum electrodynamics. Introduction to regularization, renormalization, and radiative corrections.


The following courses are mandatory: The following course is recommended:



Hand in assignments (INL1; 4.5 hp) and an oral exam (TEN1; 3 hp).


The examination of the course will be a combination of homework problems and an oral examination. There will be three sets of homework problems during the course. These will be distributed and should be handed in according to the following scheme:
Homework problemsOutIn
Set #1Lecture 5 (January 26, 2016)February 9, 2016
Set #2Lecture 11 (February 9, 2016)February 23, 2016
Set #3Lecture 17 (February 29, 2016)March 14, 2016
The oral examinations will take place after the last lecture of the course. Each examination will take approximately half an hour. The time for the examination will be agreed upon between the student and the examiner, but the student is obliged to take contact with the examiner.


The different grades are: A, B, C, D, E, Fx, and F. The grades will be awarded according to the following scheme:
GradeHomework problemsOral examination
F< 40% of all problems correctFailed
Fx< 40% of all problems correctPassed
Fx≥ 40% of all problems correctFailed
E≥ 40% of all problems correctPassed
D≥ 60% of all problems correctPassed
C≥ 70% of all problems correctPassed
B≥ 80% of all problems correctPassed
A≥ 90% of all problems correctPassed
For PhD students, the different grades are: U (fail) and G (pass).

Required reading

The course literature consists of one book (mainly):

Additional reading

Further recommended reading:
Senast uppdaterad: 2015-11-24