Fakultät > Vorlesungen > Sommersemester 2017 > Standard Model of Particle Physics

Standard Model of Particle Physics

Sommersemester 2017
Link zum LSF
48 Teilnehmer/innen

Content

 

 

 

Quark Mixing and CKM Mechanism

Date

Content

 Material 
19.04. Introduction  Slides
21.04. From Theory to Feynman Rules

 

Script TP  		 
26.04. From Theory to Feynman Rules

 

  
28.04.

From Theory to Feynman Rules

    
03.05. From the matrix element to the measurement

Notes

Slides
05.05.

e+-e- scattering

  
10.05. e+e- annihilation experiments

Notes

Slides		  
12.05. e+e- annihilation experiments

Slides
17.05. Phenemenology of Weak Iteraction

Slides
19.05.

Phenemenology of Weak Interaction

Slides

Notes		  
24.05.

Massive Gauge Bosons - Sigma Model I  

26.05. Massive Gauge Bosons - Sigma Model II
31.05. Experimental Tests of the SM Slides
02.06. Experimental Tests of the SM Slides
07.06. Higgs Boson in the Standard Model     
09.06. Higgs Boson in the Standard Model   
14.06.

Experimental Obervation of the Higgs Boson

 Slides

 
16.06. More on the Higgs Boson  
21.06.

Quark Mixing and CKM Mechanism

 Slides notes  
23.06.

Quark Mixing and CKM Mechanism

 Slides  
28.06. Quark Mixing and CKM Mechanism Slides  
30.06. Theory of QCD  
05.07. Theory of QCD  
07.07.

Theory of QCD            

 
12.07. Experimental tests of QCD Slides
14.07. Experimental tests of QCD Slides
19.07. Limits of the Standard Model
21.07. Limits of the Standard Model

Übungsgruppen

Literature

The following books are recommended

  • Aitchison, Hey: Gauge Theories in Particle Physics
  • Nachtmann: Elementarteilchenphysik. Phänomene und Konzepte
  • Perkins: Introduction to High Energy Physics
  • Byckling, Kajantie: Particle Kinematics
  • Berger: Elementarteilchenphysik
  • Halzen, Martin: Quarks and Leptons
  • Schmüser: Feynman Graphen für Experimentalphysiker
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Standard Model of Particle Physics
Sommersemester 2017
Plehn, Hansmann-Menzemer
Link zum LSF
48 Teilnehmer/innen
Termine