A selection of my works related to physics.
In this work, we demonstrate how precision interferometrycan benefit from the use of Bose-Einstein condensed sources when the state of the art is challenged. We contrast systematic and statistical effects induced by Bose-Einstein condensed sources with thermal sources in three exemplary science cases of Earth- and space-based sensors.
- Master's ThesiS
- DOI: 10.1140/epjd/s10053-021-00069-9
- Presented at Moriond-Conference, 2021
During my Bachelor’s thesis with Prof. D. Giulini I have investigated the possibility of testing the Einstein Equivalence Principle (EEP) as the foundation of General Relativity with Quantum Clocks. With a focus laid on testing the universality of the gravitational redshift (UGR), the local position invariance (LPI) and local lorenze invariance (LLI), too, were investigated.
- Bachelor's Thesis
- PresEnted at QMSM-Conference, 2019
As a research assistant in the group of E. M. Rasel, I have contributed to a damping model, which is implemented at the Very Long Baseline Atom Interferometry (VLBAI) facility in Hannover. To stabilize the retro-reflecting mirror of the atom interferometer, a system is required that both records spurious vibrations and actively counters them with actuators. Information on the work I contributed to can be found below.
DOI: 10.1063/1.5141340
DOI: 10.1007/s00190-020-01451-y
As a student, I have developed a new idea of how to integrate organic light emitting devices into nano structures. The main idea is to use self organizing nano structures as a matrix to form OLEDs within the nano structures and create a display with extremely high resolution.
- "Jugend forscht" project
- Patent DE102015101809.8A
For a status update on my current research, please use the contact form to reach me.