Description
Innovative X-ray optics paves the way for cutting-edge imaging techniques. Designing and fabricating optical elements requires high precision and careful modeling. Novel additive manufacturing techniques such as 3D printing based on two-photon polymerization enable quick and flexible manufacturing of complex-shaped optics. Offered design freedom helps create various optics and waveguides, allowing for achromatic focusing and X-ray guiding.
The student will work on:
- Designing and modeling optical elements through scripting
- Printing the microstructures in the cleanroom environment
- Testing the x-ray optical elements in the laboratory X-ray setup
| Field | A4: Development of experimental techniques (methodology oriented) |
|---|---|
| DESY Place | Hamburg |
| DESY Division | FS |
| DESY Group | FS-ML |
Primary authors
Jan Lukas Dresselhaus
(FS-ML (Multilayer))
Margarita Zakharova
(FS-ML (Multilayer))
Sasa Bajt
(FS-ML (Multilayer))
Sasa Bajt
