Origin and evolution of the universe  

This course introduces the theoretical underpinnings and the observational evidence for modern cosmology. After you learn what evidence exists for the hot Big Bang model, you study the basics of relativistic cosmology. We then discuss the physical processes occurring in the early universe, such as inflation, Big Bang nucleosynthesis and recombination. Finally, you will study the origin of large-scale structure, and use this to interpret the observations of the Cosmic Microwave Background. During the exercise classes, you will apply the material covered in the lectures in more involved calculations. This course covers the following topics: Relativistic cosmology (Friedmann equation, distances, basic parameters) Thermal history of the Universe Inflation Big Bang nucleosynthesis Recombination Basics of structure formation Interpretation of the Cosmic Microwave Background Outcome: How galaxies and the large-scale structures in which they are embedded form is a fundamental question in extra-galactic astronomy. It is an area that has seen tremendous progress, but is still constantly challenged by ever-improving observational data. This course introduces you to this fascinating subject and the underlying physics, starting from how small density perturbations grow into dark matter haloes, to how baryons cool and form the galaxy population we observe today. It will cover the main theoretical treatment of perturbations, as well as how to interpret the main observational probes of large-scale structure. Physical concepts are derived from basic principles where possible. The emphasis is on intuitive rather than mathematically rigorous derivations. Topics that will be covered include: Linear growth of density perturbations Free streaming Transfer functions and the matter power spectrum Non-linear spherical collapse Jeans smoothing Radiation drag Statistical cosmological principle Clustering and biasing Halo mass functions and Press-Schechter theory Scaling laws and virial relations Cosmic web Redshift-space distortions Radiative cooling and its importance Angular momentum and its influence Reionization The Gunn-Peterson effect The thermal history of the intergalactic medium Feedback processes Halo models, semi-empirical models, and simulations
Presential
English
Origin and evolution of the universe
English

Funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or HaDEA. Neither the European Union nor the granting authority can be held responsible for them. The statements made herein do not necessarily have the consent or agreement of the ASTRAIOS Consortium. These represent the opinion and findings of the author(s).