KVL / Klausuren / MAP 1.HS: 16.10  2.HS: 11.12  Zw.Sem.: 19.02  Beginn SS: 16.04

40468 Einführung in die Elementarteilchenphysik  VVZ 

Mo 15-17
wöch. NEW 15 3'101 (24) Christophe Grojean
Di 13-15
wöch. NEW 14 1'09 (30) Christophe Grojean
Mo 17-19
wöch. NEW 15 3'101 (24) Christophe Grojean, Ayan Paul
Lern- und Qualifikationsziele
Knowledge of the basics of the standard model of elementary particle physics
Very good knowledge of basic courses in theoretical physics, including quantum theory. Good knowledge of the introductory course "Kern- And elementary particle physics "
Gliederung / Themen / Inhalte
Recap on special relativity and classical and quantum mechanics
Symmetries and Lie groups
Gauge symmetries
Spontaneous symmetry breaking and Higgs mechanism
Electroweak Theory
Quantum electrodynamics
Feynman diagrams
Quantum corrections
Electroweak precision tests
Elements of collider physics
LHC physics
Zugeordnete Module
P23.1 Pe23.1
Umfang, Studienpunkte; Modulabschlussprüfung / Leistungsnachweis
6 SWS, 8 SP/ECTS (Arbeitsanteil im Modul für diese Lehrveranstaltung, nicht verbindlich)
Module completion test / performance verification
UE: to be decided
Christophe Grojean, Christophe.Grojean@physik.hu-berlin.de, room 1'410
K. Huang. Quarks, Leptons and Gauge Fields. World Scientific
M.E. Peskin, D.V. Schröder. An Introduction to Quantum Field Theory. Addison-Wesley
L.H. Ryder. Quantum Field Theory. Cambridge Univ. Press
F. Halzen, A.D. Martin. Quark and Leptons. John Wiley & Sons
H. Georgi. Weak interactions and modern particle theory. Dover
R. Barbieri. Ten lectures on ElectroWeak interactions. arXiv:0706.0684[hep-ph]
M.D. Schwartz. Quantum Field Theory and the Standard Model. Cambridge U. press
Siehe auch:
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