Physics Colloquium
The physics colloquium takes place in presence (except for possibly international guests).
The lectures are designed for a broad audience (also outside the Department of Physics). As far as possible, they will be designed in such a way that students who have not yet covered the contents of the solid state and particle physics lectures of the fifth semester can follow. The lectures will be followed by a discussion with the respective speaker. 45 minutes are allotted for the lecture, and 30 minutes for the subsequent discussion.
The lectures will start at 16:00 and will take place in Lecture Hall Building II, Lecture Hall 2.
Upcoming events in the Physics Colloquium
Correlated electrons in moiré materials - from unconventional superconductivity to the chiral phase transition
Lecture in the colloquium of Prof. Dr. Laura Classen
Challenges of multi-scale X-ray imaging: optics, wavefield, reconstruction, and biomedical applications
Lecture in the colloquium of Prof. Dr. Tim Salditt
![3D visualisation of human neuronal tissue reconstructed by multi-scale X-ray phase contrast tomography. Neuronal cell nuclei are shown in yellow for the granule neurons in the dentate gyrus region of the hippocampus. Blood vessels are shown in red. By changing the X-ray optical magnification in the multi-scale recordings, one can zoom into regions-of-interest (red ovals). In these scans the resolution is high enough to resolve sub-structures of the nucleus, associated with different DNA packing regimes. Adapted from [6]](/storages/physik/_processed_/e/4/csm_Kolloquium_Salditt_36a52dbf5b.png)
Colloquium of Dr. Daniel Rösch
Lecture in the colloquium of Dr. Daniel Rösch
Previous events in the Physics Colloquium
Terahertz Quantum Physics in 2D Materials
Lecture in the colloquium of Prof. Dr. Andrei Pimenov
![Band structure of 2D semimetal based on HgTe quantum well. Experimental points are obtained from the analysis of the cyclotron resonance in the quasi-classical approximation. Solid lines are predictions of the kp theory with no free parameters. Splitting of the conduction (e1,2) and valence (h1) band is due to the quantum confinement. [J. Gospodaric, AP, et al., PRB 104, 115307].](/storages/physik/_processed_/b/5/csm_Kolloquium_Pimenov_0f1fcfbc15.png)
Research data management
Lecture in the colloquium of Dr. Olaf Kletke
Development of new radiation instrumentations for medical and radiation protection applications – the experience at the Centre for Medical Radiation Physics
Lecture in the colloquium of Prof. Dr. Marco Petasecca
Initialzündung: Prof. Stefan W. Hell zu Gast an der TU Dortmund
Siebter Vortrag der Reihe „Initialzündung“ gehalten von Prof. Stefan W. Hell
Member Assembly DGSP with lecture by Zeki Seskir
DGSP Member Assembly and lecture by Zeki Seskir "Technology Assessment for Quantum Technologies: Is it too early to prepare social impact of QT?"
Computational Physics as a Bridge Between Biology and Patient Care
Festive colloquium for the opening of the RTG 3043