Course summary and goals
This course aims to make you familiar and comfortable with the main concepts of particle physics, providing a clear connection between the theory and relevant experimental results, including the most recent ones from modern particle physics experiments.
The spring semester is devoted to the quantum chromodynamics, weak interactions, Higgs mechanism, and physics beyond the standard model. We will look in more details into the following topics:
- Quantum chromodynamics (QCD)
- Weak interaction
- Neutrinos and neutrino oscillations
- CP violation and weak interaction of hadrons
- Electroweak unification
- Precision tests of standard model
- Higgs boson: theory and discovery
- Dark matter and BSM theories
At the end of the course you should be able to operate with the main concepts, describe processes in particle physics with the help of Feynman diagrams and solve related exercises.
Organisation and timing
Each week there will be the following materials and activities:
- live/zoom lecture with Q&A and dedicated discussion related to this material
- live/zoom exercise class with several exercises to solve and to go through with the help of a TA
Course teachers
- Lecturers: Prof. Lesya Shchutska and Dr. Jan Steggemann
- Teaching assistant: Dr. Federico Redi
Assessment
At the oral exam you will need to solve a randomly picked exercise (25'), then discuss the solution and related questions with the lecturer (25').
Reading list
The course closely follows the book by Mark Thomson, "Modern Particle Physics" (2013), which is available at EPFL library.For the summaries, most recent reviews and technical information, please use the Particle Data Group (PDG) website https://pdg.lbl.gov/.
Other resources
The videos of the lectures and class recordings if necessary will be available on the SWITCHtube channel.
- Professor: Lesya Shchutska
- Teacher: Federico Leo Redi
- Teacher: Jan Steggemann
