Observational High-Energy Astrophysics

This course provides a survey of observational methods towards the universe and its objects. Telescopes, experiments, and their methods are discussed per messenger type, and application towards their characteristic astrophysical studies is discussed. In particular, we address:

• astrophysics quests and cosmic messengers
• cosmic matter and its observables
• radiation processes
• instruments, telescopes, experiments: from radio to gamma rays, neutrinos, cosmic rays, meteorites, gravitational waves
• stars: formation, evolution, explosions and compact remnants
• compact objects: accretion, magnetars, bursts, mergers
• interstellar medium: cold gas and dust, hot and relativistic plasma, cosmic rays
• galaxies of different types, with their characteristic objects and sources
• literature and databases on the astronomical window/discipline and projects

After passing of the module, students are able to

• associate physical processes in cosmic objects to their specific observational method(s)
• understand the design and the critical components of telescopes, from radio through IR and optical to x- and gamma radiation, as well as the instruments for cosmic dust, cosmic rays, gravitational waves, and neutrinos
• describe the evolution of normal and exotic stars, from formation through different phases until their remnants
• explain the physics of different, sometimes violent, energy release processes in cosmic objects
• assess the observability gaps in view of standard theories describing the universe

No preconditions in addition to the requirements for the Master’s program in Physics.

Presentation (slides), board teaching, short contributions from students

Longair: High-Energy Astrophysics, Cambr. Univ. Press

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.