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Hadronic Structure and Fundamental Symmetries

Prof. Stephan Paul

Research Field

Our group involved in a number of research projects dealing with high energy particle physics and neutron physics.

Address/Contact

James-Franck-Str. 1/I
85748 Garching b. München
+49 89 289 12572
Fax: +49 89 289 12570

Members of the Research Group

Professor

PhotoDegreeFirstnameLastnameRoomPhoneE-Mail
Photo von Prof. Dr. Stephan Paul. Prof. Dr. Stephan Paul 3263 +49 89 289-12571 E-Mail

Office

PhotoDegreeFirstnameLastnameRoomPhoneE-Mail
kein Photo vorhanden Karin Frank 3265 +49 89 289-12572 E-Mail

Scientists

PhotoDegreeFirstnameLastnameRoomPhoneE-Mail
kein Photo vorhanden M.Sc. Julien Beckers 3548 +49 89 289-12484 E-Mail
kein Photo vorhanden M.Sc. Christian Dreisbach 3273 +49 89 289-12575 E-Mail
kein Photo vorhanden M.Sc. Katarina Dugic +49 89 289-12675 E-Mail
kein Photo vorhanden M.Sc. Dominik Ecker 3558 +41 22 76 76466 E-Mail
kein Photo vorhanden M.Sc. Karl Eichhorn +49 89 289-12575 E-Mail
Photo von Dr. rer. nat. Jan Michael Friedrich. PD Dr. Jan Friedrich 3564 +41 75411 2863 E-Mail
kein Photo vorhanden Sergei Gerassimov +41 22 767 7773 E-Mail
kein Photo vorhanden Dr. Daniel Greenwald 3275 +49 89 289-12569 E-Mail
Photo von Dr. Erwin Gutsmiedl. Dr. Erwin Gutsmiedl 3271 +49 89 289-14464 E-Mail
kein Photo vorhanden M.Sc. Philipp Haas 3548 +49 89 289-12484 E-Mail
Photo von Peter Hinderberger M.Sc.. M.Sc. Peter Hinderberger 3276 +49 89 289-12379 E-Mail
kein Photo vorhanden M.Sc. Florian Kaspar 3558 +49 89 289-12592 E-Mail
kein Photo vorhanden M.Sc. Marcel Lesch +49 89 289-14356 E-Mail
Photo von Martin Losekamm M.Sc.. M.Sc. Martin Losekamm 3257 +49 89 289-12584 E-Mail
kein Photo vorhanden Dr. Thomas Pöschl 3574 +49 89 289-12588 E-Mail
kein Photo vorhanden M.Sc. Andrei Rabusov 3568 +49 89 289-12587 E-Mail
kein Photo vorhanden Dmitry Riabchikov 3568 +49 89 289-12587 E-Mail

Students

PhotoDegreeFirstnameLastnameRoomPhoneE-Mail
kein Photo vorhanden Anil Adigüzel E-Mail
kein Photo vorhanden B.Sc. Martin Bartl E-Mail
kein Photo vorhanden Jacqueline Dellith E-Mail
kein Photo vorhanden M.Sc. Katarina Dugic +49 89 289-12675 E-Mail
kein Photo vorhanden Lukas Grußbach E-Mail
kein Photo vorhanden Moritz Gundel E-Mail
kein Photo vorhanden Quentin Heinze E-Mail
kein Photo vorhanden Simon Helbing E-Mail
kein Photo vorhanden Nan-Hee Kang 3548 +49 89 289-12484 E-Mail
kein Photo vorhanden Juna Kreka E-Mail
kein Photo vorhanden Godo Kurten E-Mail
kein Photo vorhanden Marc-Philipp Tillschneider E-Mail

Other Staff

PhotoDegreeFirstnameLastnameRoomPhoneE-Mail
kein Photo vorhanden Thomas Deuschle +49 89 289-14262 E-Mail
kein Photo vorhanden PD Dr. Boris Grube 3574 E-Mail
kein Photo vorhanden Dr. Bernhard Ketzer E-Mail
Photo von Igor Konorov. Igor Konorov 3573 +49 89 289-12574 E-Mail
Photo von PD  Dr. Oliver Kortner. PD Dr. Oliver Kortner +49 89 323 54-240 E-Mail
kein Photo vorhanden Dr. Fabian Michael Krinner 3276 E-Mail
kein Photo vorhanden Thomas Lierenfeld E-Mail
kein Photo vorhanden Andrei Maltsev E-Mail
kein Photo vorhanden Felix Mindl E-Mail
kein Photo vorhanden Dr. Rüdiger Picker E-Mail
kein Photo vorhanden Uwe Reichwald E-Mail
kein Photo vorhanden Dennis Salazar E-Mail
kein Photo vorhanden Dr. Wolfgang Schott 3271 +49 89 289-12567 E-Mail
kein Photo vorhanden Dr. Hadwig Sternschulte E-Mail
kein Photo vorhanden Rainer Stoepler +49 89 289-14272 E-Mail
kein Photo vorhanden Prof. Dr. Till von Egidy E-Mail
kein Photo vorhanden M.Sc. Stefan Wallner 3279 E-Mail

Teaching

Course with Participations of Group Members

Titel und Modulzuordnung
ArtSWSDozent(en)Termine
Experimentalphysik für Maschinenwesen
eLearning-Kurs
Zuordnung zu Modulen:
VO 3 Friedrich, J. einzelne oder verschobene Termine
Kern-, Teilchen- und Astrophysik für Lehramt
eLearning-Kurs
Zuordnung zu Modulen:
VO 4 Paul, S. einzelne oder verschobene Termine
Happy Hour der Kern- und Teilchenphysik
eLearning-Kurs LV-Unterlagen
Zuordnung zu Modulen:
HS 2 Paul, S.
Mitwirkende: Greenwald, D.
einzelne oder verschobene Termine
Übung zu Experimentalphysik für Maschinenwesen
eLearning-Kurs
Zuordnung zu Modulen:
UE 2 Eichhorn, K. Mindl, F.
Leitung/Koordination: Friedrich, J.
Termine in Gruppen
Übung zu Kern-, Teilchen- und Astrophysik für Lehramt
eLearning-Kurs
Zuordnung zu Modulen:
UE 2
Leitung/Koordination: Paul, S.
Termine in Gruppen
Repetitorium zu Happy Hour der Kern- und Teilchenphysik
Zuordnung zu Modulen:
RE 2
Leitung/Koordination: Paul, S.
Seminar zu aktuellen Forschungsthemen in der Teilchenphysik (für Mitarbeiter und Studenten)
LV-Unterlagen
Zuordnung zu Modulen:
SE 2 Märkisch, B. Paul, S. einzelne oder verschobene Termine

Offers for Theses in the Group

Development and Integration of Algorithms for Scientific Satellites

The Laboratory for Rapid Space Missions at the Origins Cluster of Excellence focuses on the development of scientific instruments for compact satellite platforms, called CubeSats. These nanosatellites enable the fast and modular deployment of complete, autonomous satellite systems at low cost. 

Our research includes detectors to measure antimatter flux in low orbits, where scientific success relies on finding suitable algorithms and hardware platforms to filter and classify particle events. In addition, satellite-based science oftentimes requires precise determination of pointing direction, for which we are developing our own star tracker. We offer opportunities in the fields of data processing, machine learning and hardware design, which could include the following tasks:

  • Simulation and modeling of particle fluxes
  • Data processing for our antimatter detector, including neural networks, particle filters, and conventional classification approaches
  • Image processing and optical engineering for attitude determination with our star tracker
  • Identification of suitable hardware architectures and integration of your own software
  • Work with VHDL, TensorFlow, Python, Zemax, Geant4, Altium Designer

What we expect from you:

  • Capability for independent and self-reliant work
  • Motivation, creativity and general interest in data processing and machine learning
  • Hands-on mentality and ability to work in a small, interdisciplinary team
  • Experience in one or more of the above-mentioned programming languages appreciated

Are you interested in working in an exciting and challenging environment with state-of-the-art technologies? Let’s have a talk!

suitable as
  • Master’s Thesis Nuclear, Particle, and Astrophysics
Supervisor: Stephan Paul
Development and Integration of Algorithms for Scientific Satellites

The Laboratory for Rapid Space Missions at the Origins Cluster of Excellence focuses on the development of scientific instruments for compact satellite platforms, called CubeSats. These nanosatellites enable the fast and modular deployment of complete, autonomous satellite systems at low cost. 

Our research includes detectors to measure antimatter flux in low orbits, where scientific success relies on finding suitable algorithms and hardware platforms to filter and classify particle events. In addition, satellite-based science oftentimes requires precise determination of pointing direction, for which we are developing our own star tracker. We offer opportunities in the fields of data processing, machine learning and hardware design, which could include the following tasks:

  • Simulation and modeling of particle fluxes
  • Data processing for our antimatter detector, including neural networks, particle filters, and conventional classification approaches
  • Image processing and optical engineering for attitude determination with our star tracker
  • Identification of suitable hardware architectures and integration of your own software
  • Work with VHDL, TensorFlow, Python, Zemax, Geant4, Altium Designer

What we expect from you:

  • Capability for independent and self-reliant work
  • Motivation, creativity and general interest in data processing and machine learning
  • Hands-on mentality and ability to work in a small, interdisciplinary team
  • Experience in one or more of the above-mentioned programming languages appreciated

Are you interested in working in an exciting and challenging environment with state-of-the-art technologies? Let’s have a talk!

suitable as
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Stephan Paul
Development of a Star Tracker for Compact Scientific Satellites

The Laboratory for Rapid Space Missions at the ORIGINS Cluster of Excellence develops scientific instruments for small-satellite missions. For the ComPol mission, which measures the polarization of X-rays emitted by the Cygnus X-1 binary system, a highly precise real-time determination of the satellite’s attitude is essential. 

To achieve this, we aim to develop our own star-tracking system and tune the tracker’s properties exactly to the observed area in terms of source spectrum, light intensity, geometry, and spatial restrictions. Star trackers are very common instruments in satellite technology that compare an observed star formation with a database to calculate the exact spatial orientation of the satellite. 

Your objectives include the optical design, assembly, calibration, and testing of a prototype system, the analysis of test data, and assistance with the mechanical layout, hardware design, and integration of a flight system. You will gain skills in optical engineering, including knowledge of the Zemax simulation software, programming and data analysis with Python, mechanical design, and general satellite technology at the interface between science and engineering. If successful, the system you design will be part of future missions to the ISS or on satellites!

We expect a high degree of self-responsibility, motivation, creativity, and a good share of curiosity. We offer work in a small, interdisciplinarian team, a broad combination of topics, and enough freedom for self-development and your own ideas. Knowledge of one or more of the above-mentioned fields is highly welcome, but not required.



Primary point of contact: Peter Hinderberger (peter.hinderberger@tum.de)

 
suitable as
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Stephan Paul

Current and Finished Theses in the Group

Measuring the Weinberg Angle at the Belle II Experiment
Abschlussarbeit im Masterstudiengang Physik (Kern-, Teilchen- und Astrophysik)
Themensteller(in): Stephan Paul
Production and test of RPC prototypes
Abschlussarbeit im Masterstudiengang Physics (Applied and Engineering Physics)
Themensteller(in): Oliver Kortner
Studies and Simulations of the elastic muon-electron scattering in the AMBER Pilot-Run
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Jan Friedrich
Mirroring Methods and Light Yield in Scintillating Fibers for the AMBER Experiment
Abschlussarbeit im Bachelorstudiengang Physik
Themensteller(in): Jan Friedrich
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