Small but large - Our perspective on single organic molecules for quantum science applications
Together with a colleague at the Max Planck Institute for the Structure and Dynamics of Matter in Hamburg, we discussed the physics behind single-molecule host-guest systems and put forward strategies to use them for applications in different aspects of quantum science.
New preprint on enhanced chiral optical forces via electric-dipole interactions
Together with colleagues at the University of Strathclyde in Glasgow, we analyzed a scheme to detect chiral optical forces on molecules. The force, resulting from electric-dipole interactions of chiral molecules with a set of electromagnetic and static fields, is expected to be orders of magnitude stronger than chiral forces from "traditional" schemes based on higher-order (such as the cross terms of electric-dipole and magnetic-dipole) interactions.
A comprehensive study on a tapered Paul trap: from design to potential applications
Check out the Article Here: https://iopscience.iop.org/article/10.1088/2058-9565/ad8512
New article appears on the Arxiv
A Comprehensive Study on A Tapered Paul Trap: From Design to Potential Applications
Check out here: https://arxiv.org/abs/2404.10415
New semester -- New faces
We are delighted to welcome Delia, Kathrin, Theo, Hudson, and Hazem to our team.
Fang and Max join our team in Bonn from January 1st.
We are delighted to welcome Tianyu Fang and Max Masuhr to start in our team in Bonn.
Max Masuhr defended his master's thesis
Congratulations, Max!