Dr. rer. nat. Florian Schaff
- Phone
- –
- Room
- –
- florian.schaff@tum.de
- Links
-
Page in TUMonline
- Group
- Biomedical Physics
Courses and Dates
| Title and Module Assignment | |||
|---|---|---|---|
| Art | SWS | Lecturer(s) | Dates |
|
Biomedical Physics 1 eLearning course Assigned to modules: |
|||
| VO | 2 |
Pfeiffer, F.
Assisstants: Schaff, F. |
Thu, 12:00–14:00, virtuell |
|
Biomedical Physics 2 eLearning course Assigned to modules: |
|||
| VO | 2 |
Pfeiffer, F.
Wilkens, J.
Assisstants: Schaff, F. |
Thu, 14:00–16:00, virtuell |
Offered Bachelor’s or Master’s Theses Topics
- Advanced processing algorithms for X-ray dark-field CT reconstruction
- suitable as
- Master’s Thesis Condensed Matter Physics
- Master’s Thesis Nuclear, Particle, and Astrophysics
- Master’s Thesis Biophysics
- Master’s Thesis Applied and Engineering Physics
- Master’s Thesis Biomedical Engineering and Medical Physics
- Supervisor: Franz Pfeiffer
- Quantitative X-ray dark-field imaging
This project will focus on methods to extract quantitative structural parameters from grating-based X-ray dark-field imaging that enable hardware independent studies in medical and material science applications.
The project will mainly involve experimental (laboratory) work, and image processing (primarily in Python).
Character of thesis work: experimental physics (50%) & image processing (50%)
For more information, please contact: Florian Schaff (florian.schaff@tum.de) or Franz Pfeiffer (franz.pfeiffer@tum.de)
- suitable as
- Master’s Thesis Condensed Matter Physics
- Master’s Thesis Nuclear, Particle, and Astrophysics
- Master’s Thesis Biophysics
- Master’s Thesis Applied and Engineering Physics
- Master’s Thesis Biomedical Engineering and Medical Physics
- Supervisor: Franz Pfeiffer
- X-ray diffraction imaging at a compact synchrotron source
This project will focus on investigating the potential X-ray diffraction imaging at a compact synchrotron source. The student will design, conduct and evaluate experiments at the world's first X-ray source of its kind, the Munich Compact Light Source.
The project will mainly involve experimental (laboratory) work, and image processing (primarily in Python).
Character of thesis work: experimental physics (50%) & image processing (50%)
For more information, please contact: Florian Schaff (florian.schaff@tum.de) or Franz Pfeiffer (franz.pfeiffer@tum.de)
- suitable as
- Master’s Thesis Condensed Matter Physics
- Master’s Thesis Nuclear, Particle, and Astrophysics
- Master’s Thesis Biophysics
- Master’s Thesis Applied and Engineering Physics
- Master’s Thesis Biomedical Engineering and Medical Physics
- Supervisor: Franz Pfeiffer