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402-0394-00L 10 Credits MSC D-PHYS , D-MATH

Theoretical Cosmology

Lecturers & Examiners: Prof. Dr. Leonardo Senatore
VVZ CR n/a

Last Updated: 2026-06-03 00:42:16

Abstract

This is the second of a two course series which starts with "General Relativity" and continues in the spring with "Theoretical Cosmology", where the focus will be on applying general relativity to cosmology as well as developing the modern theory of structure formation.

Objective

Learning the fundamentals of modern physical cosmology. This entails understanding the physical principles behind the description of the homogeneous Universe on large scales in the first part of the course, and moving on to the inhomogeneous Universe model where perturbation theory is used to study the anisotropies of the Cosmic Microwave Background and the development of structure through gravitational instability in the second part of the course. Modern notions of dark matter and dark energy will also be introduced and discussed.

Content

The course will cover the following topics: - Homogeneous cosmology - Thermal history of the universe, recombination and nucleosynthesis - Dark matter and Dark Energy - Inflation - Cosmological Perturbation theory - Model of structure formation and initial conditions from Inflation - Cosmic microwave background anisotropies - Large scale structure and cosmological probes

Resources

Literature

The main of reference is: S. Dodelson and F. Schmidt: Modern Cosmology Other suggested textbooks: H.Mo, F. Van den Bosch, S. White: Galaxy Formation and Evolution S. Carroll: Space-Time and Geometry: An Introduction to General Relativity Other reference books: S. Weinberg: Gravitation and Cosmology V. Mukhanov: Physical Foundations of Cosmology E. W. Kolb and M. S. Turner: The Early Universe N. Straumann: General relativity with applications to astrophysics A. Liddle and D. Lyth: Cosmological Inflation and Large Scale Structure

Learning Materials (Links)

General Information

Language
English
Levels
MSC
Frequency
Yearly recurring

Examination

Type
session examination
Mode
oral 30 minutes

Course Components

Type Title Time & Place Hours
lecture Theoretical Cosmology
  • Thu 09:45-11:30 (HPV G 4)
  • Fri 13:45-15:30 (HPV G 5)
4 h weekly
exercise Theoretical Cosmology
Exercises start in the second week of the semester.
  • Tue 09:45-11:30 (HIT F 31.1)
  • Wed 15:45-17:30 (HIT K 52)
  • Thu 07:45-09:30 (HIT H 51)
2 h weekly

Offered In

  • Mathematics Master
    • Application Area (Only necessary and eligible for the Master degree in Applied Mathematics. One of the application areas specified must be selected for the category Application Area for the Master degree in Applied Mathematics. At least 8 credits are required in the chosen application area. Credits from other application areas cannot be recognised for further application areas.)
      • Theoretical Physics (In the Master's programme in Applied Mathematics 402-0204-00L Electrodynamics is eligible as a course unit in the application area Theoretical Physics, but only if 402-0224-00L Theoretical Physics wasn't or isn't recognised for credits (neither in the Bachelor's nor in the Master's programme). For the category assignment take contact with the Study Administration Office ( ) after having received the credits.)
  • Physics Master
    • Core Courses (One Core Course from Physics Bachelor (BSc Regulation 2021) is eligible as an elective. To assign a category, leave the option "no category" and contact the Study Administration ( ) once you have received the credits.)
  • High-Energy Physics (Joint Master with IP Paris)