Astro(particle) physics and Cosmology
Table of contents
Coordinator: Prof. L. Mayer
This master’s program offers an advanced education in astrophysics and cosmology. After introductory lectures, practice sessions and labs, students begin with their master’s thesis that should take 9 months.
The following research groups offer master theses:
Experiment: Group Baudis
Mainly Theory: Groups Helled, Jetzer, Mayer, Moore, Saha, Teyssier and Yoo
Compulsory Modules
If 'Introduction to Astrophysics (AST241) ' was not attended in the BSc study, it is an additional compulsory module
Research Seminar
During their second and third semesters, students are required to attend at least one seminar per week http://www.ics.uzh.ch/en/seminars/
Core Elective Modules
- At least 18 ECTS credits must be earned from elective modules.
PHY 511 and AST 513 are recommended for concentration in cosmology. AST 514 and AST 243 are recommended for concentration in astrophysics.
Elective Modules
The remaining credits needed to fulfil the requirement of 90 credit points must be earned in elective modules. For instance, we recommend: ESC411 Computational Science I, QTF1 (PHY551) or specialized astrophysics modules that take place every year (for instance, Stellar Structure and Evolution).
Continuing from a BSc 180/150 major in Physics
Compulsory module: 'Introduction to Astrophysics (AST241) '
it is recommended to attend this course during BSc studies
Continuing from a BSc 120 major in Physics
Compulsory module: 'Introduction to Astrophysics (AST241) '
Course contents in the compulsory modules
PHY511 General Relativity
- repetition of special relativity
- principle of equivalence
- motion in the gravitational field, gravitational red-shift
- tensors in Riemann-Space
- covariant derivative, parallel transport
- Riemann tensor, Bianchi-Identities
- Einstein’s field equations
- Schwarzschild-solution
- precession of the perihelion, deflection of light
- geodesic precession
- gravitational waves
- black holes
- Friedman-Robertson-Walker universe
AST512 Theoretical Astrophysics
- radiative processes in the interstellar medium
- Star structure
- Star development
- Supernovae
- White dwarfs
- Neutron stars
- Black holes
- Planet formation
AST513 Theoretical Cosmology
- big bang and early universe
- nucleosynthesis
- inflation
- relativistic perturbation theory and growth of structure
- cosmic microwave background and large scale structure
- dark matter and dark energy
Study guide
The Guide to Physics Studies (PDF, 504 KB) provides comprehensive information about the Bachelor's and Master's programs.