Instructors: Univ.-Prof. Dr. Matthias Schott; Dr. Rainer Wanke
Event type:
Lecture/practice class
Displayed in timetable as:
08.128.738
Hours per week:
4
Credits:
6,0
Language of instruction:
Englisch
Min. | Max. participants:
- | -
Requirements / organisational issues:
This lecture is based on the lecture "Physics 5b (Nuclear- and Particlephysics)" and aims to provide a deeper understanding of the fundamental constituents of matter and their interactions.
Contents:
This lectures gives and introduction to the experimental (and some theoretical) aspects of the strong, weak and electroweak interactions. In particular, we discuss the major experiments that gave new insights in the fundamental principles of nature. The following topics are covered:
- kinematics of particle scatterings at high collisions
- calculation of cross-sections with Feynman rules
- symmetries and gauge principle
- precision tests of the standard model
- Higgs mechanism
- CP violation in the quark and the neutrino sector
- search for physics beyond the standard model
Recommended reading list:
Mark Thomson, 'Modern Particle Physics', Cambridge University Press
David Griffiths, 'Introduction to Elementary Particles', 2nd edition, Wiley, 2008
Francis Halzen and Alan D. Martin, 'Quarks and Leptons', Wiley, 1984
Donald H. Perkins, 'Introduction to High Energy Physics', 4th edition, Cambridge University Press, 2000
Christoph Berger, 'Elementarteilchenphysik', Springer, 2006
Peter Schmüser, 'Feynman-Graphen und Eichtheorien für Experimentalphysiker', Springer, 1995
Additional information:
Web-Site: http://mschott.web.cern.ch/mschott/Lectures.html
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