Signals from outer space: discovery; the birth of high-energy physics; composition and spectra of cosmic radiation; overlap with conventional astronomy; primary and secondary cosmic rays; charged particles; photons; neutrinos; gravitational waves; hypothetical particles ("dark matter"); measurement methods of astro-particle physics: Installations on the surface of the earth, on balloons and in outer space; the earth's atmosphere serving as detector for particles; neutrino detectors in the MeV to EeV range; detectors for "dark matter"; large terrestrial installations (in the 10000 square-kilometer range on the earth's surface, as well as installations under water and in the ice of Antarctica); radio emission of highest-energy particles; installations on satellites and in space stations Physics aims of astro-particle physics: Tests of the Standard Model beyond energies that can be reached by accelerators; neutrino oscillations, measurements of properties and mass of neutrinos; search for particles which have not been discovered so far ("dark matter", supersymmetry etc.); CP-violation and antimatter; cosmology, relics of the Big Bang, the origin of the world
Target group and conditions of participation: Physicists, astronomers, astro-physicists and colleagues from other disciplines who are interested in astro-particle physics; basic knowledge in particle physics is useful but not required
Target group and conditions of participation: Physicists, astronomers, astro-physicists and colleagues from other disciplines who are interested in astro-particle physics; basic knowledge in particle physics is useful but not required