Particle Physics with Cosmic and Terrestric Particle Colliders

This module provides an introduction to modern experimental astro-particle and particle physics. It covers:
- The connections of particle and astro-particle physics
- Experimental methods and detectors in astro-particle physics
- Precision tests of the Standard Model of particle physics
- Cosmic acceleration mechanisms
- The physics of charged and neutral cosmic rays and the search for the sources of the highest energy particles in the universe
- Dark Matter and Dark Energy
- Gravitational Waves
- Atmospheric, solar and cosmic neutrinos

After successful participation in this module, the student is able to
1) Understand the concepts of modern astro-particle physics experiments
2) Discuss the physics of the Standard Model
3) Explain the acceleration mechanisms for highly energetic particles in cosmic objects
4) Discuss the latest results both from studies of high- and ultra-high energy charged and neutral cosmic rays as well as from neutrino physics
5) Understand the evidence for Dark Matter and Dark Energy, and the experimental strategies to study them

Introductory lecture in Nuclear, Particle, and Astrophysics (KTA at TUM or equivalent)

Presentation & black board

web-site for lecture, additional literature

Will be announced in the lecture.

In an oral exam the learning outcome is tested using comprehension questions and sample problems.

In accordance with §12 (8) APSO the exam can be done as a written test. In this case the time duration is 60 minutes.