Astrophysics III : galaxy formation and evolution
PHYS-465
Summary: Galaxy formation & evolution is about studying how galaxies in our Universe come into existence, how they evolve and what shapes their properties. This course describes the observational facts of galaxies and the various processes of galaxy evolution as seen from theoretical/numerical models.
Content:
- Chapter 1 (Repetition of Astro-I): Introduction (galaxy definition, astronomical scales, observable quantities)
- Chapter 2: Brief review on stars
- Chapter 3: Radiation processes in galaxies and telescopes;
- Chapter 4: The Milky Way
- Chapter 5: The world of galaxies I
- Chapter 6: The world of galaxies II
- Chapter 7: Black holes and active galactic nuclei
- Chapter 8: Galaxies and their environment;
- Chapter 9: High-redshift galaxies
- Chapter 10:
- Cosmology in a nutshell
- Linear structure formation in the early Universe
- Chapter 11:
- Dark matter and the large-scale structure
- Cosmological N-body simulations of dark matter
- Chapter 12: Populating dark matter halos with baryons:
- Semi-empirical models
- Semi-analytical models
- Chapter 13: Modelling the evolution of gas in galaxies: Hydrodynamics
- Chapter 14:
- Gas cooling/heating
- Star formation
- Chapter 15: Stellar feedback processes
- Chapter 16: Black hole growth and AGN feedback
- Chapter 17: Success and challenges of modern simulations and future prospects
- Mock exam
Learning Prerequisites/Recommended courses:
- Bachelor in physics or mathematics
- Astrophysics I (but there will be some revision)
- Basics in Python programming
Learning Outcomes:
By the end of the course, the student must be able to:
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Teaching methods:
Ex cathedra and exercices supervised in classroom.
Assessment methods: oral exam (100%).
Bibliography:
- Extragalactic Astronomy and Cosmology (P. Schneider)
- Galaxy formation and evolution (Mo, van den Bosch & White)
- Galaxy formation (Longair)
Ressources en bibliothèque:
Lecture 1
- Introduction (galaxy definition, astronomical scales, observable quantities)
- Brief review on stars
Lecture 2
Finish Chapter 2 (see previous lecture)
Chapter 3:
- Radiation processes in galaxies
- Telescopes
In P. Schneider, Extragalactic Astronomy (2nd edition): chapter 1.1, 1.2.1, 1.3 and 3.5 (note that radiation processes are not really covered by this book, but I think the lecture material should be detailed enough).
Lecture 3
Chapter 4: the Milky Way
Chapter 5: The world of galaxies I:
- Galaxy surveys,
- Classification of galaxies
Reading: P. Schneider: 2.3, 2.6, 3.1
- Slides for Lecture3+4, Chapter 5 (File)
- Exercises 2 (File)
- Material for Exercise 2, Star spectra (File)
- Solutions to Exercises 2 (File)
- python code for exercises 2 (File)
Lecture 4
- Chapter 5 -- The world of galaxies I: Properties of Elliptical and Spiral galaxies (slides from previous week)
Lecture 5
- Chapter 6: The world of galaxies II
- Chapter 7: Black holes and AGN
Sections in P. Schneider/Extragalactic Astronomy: 5.1, 5.2, 5.3.1, 5.4
- Slides for Lecture 5 -- Chapter 6 (File)
- Slides for Lecture 5 -- Chapter 7 (File)
- Recap Quiz for Chapter 5 (File)
- Exercises 4 (File)
- SDSS data for Exercise 4 (File)
- Pieces of helpful python code for Exercise 4 (File)
- Solution to Exercises 4 (File)
- Python code for exercise 4 (File)
Lecture 6
- Chapter 7: Black holes and AGN (see slides from week ago)
- Chapter 8: Galaxies and their environment
- Chapter 9: Galaxies in the high-redshift Universe
Section in P. Schneider/Extragalactic Astronomy:
6.4.1, 6.5 (.1 and .3), 6.7 & 9.1, 9.2, 9.4, 9.6
- Recap Quiz Chap6+7 (File)
- Recap Quiz Chap6+7 with answers (File)
- Lecture slides for Chapter 8 (File)
- Lectures slides for Chapter 9 (File)
- Exercises 5 (File)
- Observational data for Exercises 5 (File)
- Solutions to Exercise 5 (File)
- python code (File)
Holiday!
Lecture 7
Chapter 10:
- Basics of Cosmology
- Structure formation in the linear regime
- Power spectrum and transfer functions
- Generation of initial conditions for cosmological simulations
Sections in P. Schneider/Extragalactic Astronomy:
4.2, 4.3.2, 7.2, 7.4.1, 7.4.2, 7.5.1
- Slides for Chapter 10 (File)
- Recap Quizzz Chap 8+9 (File)
- Exercises 6 (File)
- Recap Quizzz Chapter 8+9 Solutions (File)
- Solutions to Exercise 6 (File)
- Linear perturbation of continuity equation (File)
Lecture 8
- Cosmological dark matter simulations
- Analysis and results of dark matter simulations
- Properties of dark matter halos
Chapters in P. Schneider/Extragalactic Astronomy:
7.5.3, 7.6, 7.8
For deepening your knowledge: Chapter in Mo, van den Bosch and White/Galaxy formation and Evolution:
7.3.1, 7.3.2, 7.3.3, 7.3.4; 7.5.1 - 7.5.3, C1.1 (very theoretical, but reading the text can be helpful)
- Slides for Chapter 11 (File)
- Recap Quiz Chap 10 (File)
- Recap Quiz Chap 10 solutions (File)
- Exercises 7 (File)
- Merger tree data for Exercises 7 (File)
- Solutions to Exercises 7 (File)
- Python script for Exercises 7 (File)
- Halo Catalogues at z=0, z=1 and z=2 (Folder)
Lecture 9
Chapter 12:
- Populating dark matter halos with galaxies
- Semi-empirical models
- Semi-analytical models
Book chapters in P. Schneider: Extragalactic astronomy:
10.1, 10.2, 10.4.4, 10.4.5, 10.4.6, 10.7
- Slides for Chapter 12 (File)
- Recap Quiz Chap 11 (File)
- Recap Quiz Chap 11 solutions (File)
- Exercises 8 (File)
- Material for Exercises 8 (Folder)
- Solutions to the Exercises 8 (File)
- Python code for exercises 8 (File)
Lecture 10
- Hydrodynamic simulations (grid codes, SPH codes, moving mesh codes)
- Gas cooling and heating]
P. Schneider/Extragalactic Astronomy: Sections 10.2, 10.6
Mo, van den Bosch, White/Galaxy formation and evolution: Sections C1.2 , (B -- on cooling processes, very detailed), 8.4.1, 8.4.2
- Slides for Chapter 13 (File)
- Recap Quiz Chap 12 (File)
- Recap Quiz Chap 12 solutions (File)
- Exercises 9 (File)
- Simulation data for Exercises 9 (File)
- Solutions to Exercises 9 (File)
- Python notebook for exercises 9 (File)
Lecture 11
- Gas cooling
- Star formation
Chapters in P. Schneider/Extragalactic astrophysics: 10.3.1, 10.4.4, 10.6.1, 10.6.2
Chapters in Mo, van den Bosch, White/Galaxy formation and evolution: sections 9.1-9.6
- Slides for Chapter 14 (File)
- Recap Quiz Chapter 13 (File)
- Recap Quiz Chapter 13 solutions (File)
- Exercises 11 (File)
- Exercises 11 solutions (File)
- Simulation data for Exercises 11 (File)
- python code for Exercises 11 (File)
Lecture 12 via zoom!
- Chapter 15: Stellar feedback
- Chapter 16: Black holes and AGN
Literature:
Naab & Ostriker+16: excellent review article on current state of the art in cosmological hydro sims and small-scale hydro simulations
Mo, van den Bosch & White/Galaxy formation and evolution: sections 10.5, 14.2.1, 14.4
- Recap quiz chapter 14 (File)
- Recap Quiz Chapter 14 solutions (File)
- Slides for Chapter 15 (File)
- Slides for Chapter 16 (File)
- Exercises 12 (File)
- Simulation data for Exercises 12 (Folder)
- Exercises 12 solutions (File)
- python notebook for exercises 12 (File)
Lecture 13
- Chapter 17: Success, Challenges and future prospects of cosmological simulations
- Literature: Somerville & Dave+15: excellent review article on current state of the art in cosmological hydro sims and SAMs
- Recap Quiz Chapter 15 (File)
- Recap Quiz Chapter 15 solutions (File)
- Slides for chapter 17 (File)
- Exercises 13 (File)
- Simulation data for Exercises 13 (File)
- Solutions to Exercises 13 (File)
- python notebook for exercises 13 (File)
Lecture 14
- Mock exam
- Your questions!
- Possible projects at GalSpec --> please contact me if interested !
- Recap Quiz Chap 16 (File)
- Recap Quiz Chap 16 solutions (File)
- Slides Mock exam (File)
- Mock exam solutions (File)
- Projects GalSpec (File)