Professor Manuel Drees
I am Professor for Theoretical Particle and Astro-Particle
Physics at the Rheinische Friedrich-Wilhelms-Universtät Bonn.
SS 04: Theoretical Astro-Particle Physics
WS 04/05: Theoretical Particle Physics 1
SS 05: Theoretical Particle Physics 2
Seminar on Advanced Topics in
Particle and Quantum Field Theory
WS 05/06: On sabbatical leave
SS 06: Astro-Particle Physics (together with
Prof. Peter Schneider)
Seminar on Relativistic Quantum Field Theory (together with
Prof. Hans-Peter Nilles).
WS 06/07: Theoretische Physik 1
SS 07: Theoretische Physik 2b
WS 07/08: Collider Physics
SS 08: Astro-Particle Physics (together with
Prof. Uli Klein)
WS 08/09: Theoretical Particle Physics 1
SS 09: Theoretical Particle Physics 2
WS 09/10: Collider Physics
SS 10: Theoretical Astroparticle Physics;
Seminar on Astroparticle Physics (together with Prof. Marek Kowalski).
WS 10/11: On sabbatical leave
SS 11: Theoretische Physik 1
Seminar on Astroparticle Physics (together with Prof. Marek Kowalski).
WS 11/12: Theoretische Physik 2
SS 12: Theoretical Astroparticle Physics
WS 12/13: Theoretical Particle Physics 1
SS 13: Theoretical Particle Physics 2
Seminar on Astroparticle Physics (together with Prof. Marek Kowalski).
WS 13/14: Physics of the Higgs Particle
SS 14: Theoretische Physik 3: Quantenmechanik
WS 14/15: Advanced Quantum Theory
Seminar on Hunting Physics beyond the Standard Model (with Profs. Dreiner,
Hanhart, Krewald, Luu and Wirzba)
SS 15: Theoretical Astroparticle Physics
WS 15/16: Theoretical Particle Physics 1
SS 16: Theoretical Particle Physics 2
WS 16/17: Theoretical Astroparticle Physics
SS 17: Theoretische Physik 1
Seminar on Quantum Field Theory (with profs. Dreiner and Nilles)
WS 17/18: Theoretical Particle Physics 1
SS 18: Theoretical Particle Physics 2
Seminar on Evidence for Physics beyond the SM (with profs. Dreiner and Nilles)
WS 18/19: Theoretical Particle Physics 1
SS 19: Theoretical Astroparticle Physics
WS 19/20: Theoretische Physik 2
SS 20: Theoretical Particle Physics 2
Seminar on Advanced Topics in
Quantum Field Theory (with profs. Dreiner and Kubis)
WS 20/21: Theoretical Particle Physics 1
SS 21: Advanced Theoretical Particle Physics
WS 21/22: Advanced Quantum Theory
SS 22: Theoretical Astroparticle Physics
Seminar on Advanced Topics in
Quantum Field Theory (with prof. Duhr and Dr. Loebbert)
WS 22/23: Advanced Topics in Astroparticle Theory
SS 23: Theoretische Physik 1
WS 23/24: Theoretical Particle Physics 1
SS 24: Advanced Theoretical Particle Physics
WS 24/25: Advanced Quantum Theory
SS 25:
Theoretical Astroparticle Physics
- Time and Place:
Thursday, 10:15 to 12:00, lecture hall, PI;
Friday, 12:15 to 13:00, lecture hall, PI.
- First Lecture: April 10, 2025.
- Last Lecture: July 18, 2025.
- Tutorials:
Time and Place: To be determined
Tutors: Wenbin Zhao (Wegelerstr.10, room 2.021; tel. 3718, e-mail
wenbin.zhao "at" uni-bonn.de) and Chenhuan Wang (Wegelerstr.10,
room 2.021, tel. 3718, e-mail s6cnwang `at' uni-bonn.de.
The homework problems can be downloaded
here.
The figures shown on the projector during class can be
found here.
Only students who have done at least 50% of the homework of this
class will be permitted to take the final exam! In order to
check this, the tutor will pass a list at the beginning of each
tutorial, in which the students will indicate which problem(s) they
solved. The tutor will use this list to call someone to the board,
to present the solution. The solution need not be entirely correct
to be counted towards the 50%, but you must have made a serious
attempt at solving the problem.
If desired, students can also
hand their written solutions to the tutor, asking for it to be
corrected. This may be of interest to you if your solution differs
from the one being presented, and you wish to know whether your
solution is also ok.
This lecture deals with particle physics aspects relevant for our (tentative)
understanding of the Universe, in particular of the very early universe,
i.e. the era up to and including Big Bang nucleonsynthesis.
The lecture is aimed at students interested in experimental and/or theoretical
(astro-)particle physics. Prior knowledge of relativistic quantum mechanics,
and the Standard Model of particle physics will be assumed. I will occasionally
use results from Quantum Field Theory, but one should be able to follow this
class without having taken lectures in Quantum Field Theory first. (Of course,
everybody interested in particle theory should take the QFT classes, too!)
Similarly, I will use some results from General Relativity (chiefly, the
Friedman Robertson Walker metric) without derivation. Prior knowledge of
popular extensions of the Standard Model - in particular, Supersymmetry - is
helpful but not essential.
The following topics will be covered:
1) Introduction: the evolution of the universe in 30 minutes
2) Friedman-Robertson-Walker metric
3) Thermodynamics in an expanding universe
4) Big Bang Nucleosynthesis as a laboratory for New Physics
5) How Dark Matter may have been made
6) Baryogenesis: making baryons
7) Inflation: basics and simple models
8) Inflation: quantum fluctuations as seed for structure formation
9) Inflation: reheating the Universe
Particle physics aspects of today's universe will not be
covered.
Literature:
M.E. Turner and E.W. Kolb, The Early Universe, is still the standard
text, written from a particle physics oriented perspective.
Drees, Godbole and Roy, Theory and Phenomenology of Sparticles, gives an
in-depth treatment of supersymmetry, with emphasis on phenomenological
aspects, and a lengthy chapter on cosmological aspects.
**************End: Theoretical astroparticle physics *********** -->
Master and Doctoral Theses
Please contact me directly regarding possible topics.
I expect a Master thesis to contain new, previously unknown, scientific
results. So far nearly all Bonn Diploma and Master theses in my group have led
to journal publications. While I am (nearly) always available for questions and
discussions, I generally encourage students to work as independently as
possible. This means that I do not require regular progress reports; I
expect students who have some questions to come to me on their own
initiative.
Also, students who have their own idea about a topic for a Master thesis
are very welcome, if it falls in my area of expertise.
If you are interested, please contact me directly for further information. I
also encourage you to talk to some of the other members
of my group before committing yourself.
Group Homepage