Professor Manuel Drees

I am Professor for Theoretical Particle and Astro-Particle Physics at the Rheinische Friedrich-Wilhelms-Universtät Bonn.

Lectures

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 (physics606)
Time and Place : Monday, 12:15 to 14:00, and Wednesday, 12:15 to 13:00, both times HS 1, PI (i.e., in the big lecture hall inside the PI).
First Lecture: October 7, 2024.
Last Lecture: January 29, 2025.
Tutorials:
First session: In the second week of classes.
The homework problems can be found
here, as well as on eCampus.
The figures shown on the projector during class can be found here.

The online material will (mostly) be provided via eCampus, so please register for this course on the eCampus system! (You need a login ID from our university for this end, which in turn you can get only after enrolling here.)

Only students who have done at least 50% of the homework of this class will be admitted to the final exam! The solution need not be perfected in order to be counted, but you must have made a serious attempt at least. Up to two people (but no more!) may sign one set of solutions. However, it is crucial that all students do in fact work on these problems themselves; otherwise the chance of passing the final exam is close to nil. Note also that you will be expected to present your solution to the other members in your tutorial group, at the request of the tutor.

First exam: Monday, February 10, 9:00 a.m. to 12:00 noon, Wolfgang Paul lecture hall.
Second exam: Thursday, March 27, 9:00 a.m. to 12:00 noon, Wolfgang Paul lecture hall.

The lecture is aimed at first year Master students, as well as advanced Bachelor students who have already taken the class on introductory quantum mechanics. Bonner Studierenden, die sich für Theorie interessieren, wird empfohlen, die AQT bereits im 5. Semester zu hören, sodass im 6. Semester die QFT1 belegt werden kann; dies erleichtert den Zugang zum Material der einführenden Theorie-Vorlesungen im Master Studium.

Outline:
1) Review of Quantum Mechanics
2) Transformations and Symmetries
3) Path integrals
4) Time dependent perturbation theory
5) Scattering theory
6) Second quantisation
7) Relativistic Quantum Mechanics

Literature:
Shankar, Principles of Quantum Mechanics , is a modern, single volume treatment, starting from the basics, with emphasis on the path integral formulation.
Schwabl, Advanced Quantum Mechanics, (auch auf Deutsch erhältlich) treats many-body systems and relativistic wave equations, but does not use the path integral. Time dependent perturbation theory and scattering theory are treated in the book Quantum Mechanics by the same author.
Volumes 3 and 4 of the series by Landau and Lifshitz give a very comprehensive treatment of the material, at a quite advanced level (but not using path integrals).
Schiff, Quantum Mechanics , is another, somewhat older, comprehensive treatment of the field, which however does not treat path integrals.
Relativistic Quantum Mechanics is also treated in the introductory chapters of many text books on quantum field theory.

Weekly Theoretical High Energy Physics seminar


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.
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