Date	Time	Title
8. Oktober	09:00 - 10.30	Vorbesprechung, Lesson 1
15. Oktober	09:00 - 10.30	Lesson 2
5. November	09:00 - 10.30	Lesson 3
12. November	09:00 - 10.30	Lesson 4
19. November	09:00 - 10.30	Lesson 5
26. November	09:00 - 10.30	Lesson 6
3. Dezember	09:00 - 10.30	Lesson 7
10. Dezember	09:00 - 10.30	Lesson 8
17. Dezember	09:00 - 10.30	Lesson 9
7. Januar	09:00 - 10.30	Lesson 10
14. Januar	09:00 - 10.30	Lesson 11
21. Januar	09:00 - 10.30	Lesson 12
28. Januar	09:00 - 10.30	Lesson 13

ETP-WS09-Lesson01.pdf	480 K
ETP-WS09-Lesson02.pdf	488 K
ETP-WS09-Lesson03.pdf	646 K
ETP-WS09-Lesson04.pdf	1.7 M
ETP-WS09-Lesson05.pdf	3.6 M
ETP-WS09-Lesson06.pdf	3.7 M
ETP-WS09-Lesson07.pdf	4.5 M
ETP-WS09-Lesson08.pdf	4.9 M
ETP-WS09-Lesson09.pdf	6.1 M
ETP-WS09-Lesson10.pdf	211 K

ETP-WS09-Lesson11.pdf	209 K
ETP-WS09-Lesson12.pdf	234 K
ETP-WS09-Lesson13.pdf	183 K

Content

1.     Introduction
   1.1.    Orders of magnitude and units
   1.2.    Relativistic kinematics
   1.3.    The Standard Model
       1.3.1. Constituents
       1.3.2. Interactions
       1.3.3. Limitations of the Standard Model
   1.4.    Fermions and bosons
   1.5.    Particles and Antiparticles
   1.6.    Helicity
   1.7.    Lepton flavours
   1.8.    Quark flavours

2.    Tools
   2.1.    Accelerators
       2.1.1. Electrostatic accelerators
       2.1.2. Linear accelerators
       2.1.3. Particle deflection in a magnetic field
       2.1.4. Cyclotron
       2.1.5. Synchrotron
       2.1.6. Synchrotron radiation
       2.1.7. Storage rings
   2.2.    Passage of radiation through matter
       2.2.1. Overview on detection of radiation
       2.2.2. Charged particles in matter
       2.2.3. Absorption vs. energy loss
       2.2.4. Energy loss formular: Bethe-Bloch
       2.2.5. Cerenkov radiation / Transition radiation (future, RPP)
       2.2.6. Energy loss of electrons and positrons, Bremsstrahlung
           2.2.6.1. Collisional losses
           2.2.6.2. Bremsstrahlung
           2.2.6.3. Radiation length
       2.2.7. Interaction of photons
           2.2.7.1. Photoelectric effect
           2.2.7.2. Compton scattering
           2.2.7.3. Pair production
           2.2.7.4. Total absorption coefficient
       2.2.8. Interactions of neutrons
           2.2.8.1. Slowing down (moderation)
   2.3.    Detectors
       2.3.1. General characteristics
       2.3.2. Scintillation counters
       2.3.3. Semiconductor detectors
       2.3.4. Bubble chambers
       2.3.5. Spark chambers
       2.3.6. Gaseous ionisation detectors
           2.3.6.1. Gaseous propotional counter
           2.3.6.2. Gas amplification
           2.3.6.3. Multi wire propotional chamber (MWPC)
           2.3.6.4. Drift chamber
           2.3.6.5. Time projection chamber
       2.3.7. Calorimetry

Literaturliste

W.R. Leo, Techniques for Nuclear and Particle Physics Experiment, Springer 1994, ISBN: 978-3540572800

K. Kleinknecht, Detektoren für Teilchenstrahlung, Teubner 2005, ISBN: 978-3835100589

K. Wille, The Physics of Particle Accelerators. An Introduction, Oxford University Press 2001, ISBN: 978-0198505495

D.H. Perkins, Introduction to High Energy Physics, Cambridge University Press 2000, ISBN: 978-0521621960