Quantum Field Theory (FYS610)
The course gives an introduction to quantum field theory.
Course description for study year 2024-2025. Please note that changes may occur.
Course code
FYS610
Version
1
Credits (ECTS)
10
Semester tution start
Spring
Number of semesters
1
Exam semester
Spring
Language of instruction
English
Content
NB! This is an elective course and may be cancelled if fewer than 10 students are enrolled by January 20th for the spring semester.
Path-integral formulation of quantum mechanics, quantum fields and particles, Lorentz symmetry, free boson and fermion fields, perturbation theory and Feynman diagrams, scattering amplitudes, gauge invariance, basic aspects of renormalization, spontaneous symmetry breaking and the Higgs mechanism, selected applications.
Learning outcome
After completing the course, the student should:
K: Understand the basic concepts of quantum field theory such as free boson and fermion fields, Feynman diagrams and scattering amplitudes, spontaneous symmetry breaking.
F1: Be able to determine the classical spectrum of simple field theories.
F2: Be able to compute scattering amplitudes for simple scattering processes.
G: Have a rudimentary insight in the role quantum field theory plays in our understanding of nature.
Required prerequisite knowledge
Recommended prerequisites
Exam
Form of assessment | Weight | Duration | Marks | Aid |
---|---|---|---|---|
Written exam | 1/1 | 4 Hours | Letter grades | Specified printed and hand-written means are allowed |
Written exam with pen and paper.