Berlin Quantum is a flagship initiative that positions Berlin at the forefront of quantum technologies. By bringing together leading research institutions, universities, startups, industry partners, and public stakeholders, Berlin Quantum accelerates the development of quantum computing, sensing, communication, and related applications. The initiative fosters research-to-market transfer, supports startup formation, strengthens talent development, and enhances the international visibility of Berlin’s rapidly growing quantum ecosystem.
Our welcome reception will follow in the evening, providing an excellent opportunity to continue discussions and exchange ideas about Berlin and the unique opportunities it offers — especially in the field of quantum technologies.

After completing his master’s degree in physics at Technische Universität Berlin, he joined the Fraunhofer Heinrich Hertz Institute (HHI) in 2013 and obtained his Ph.D. in 2018.

At Fraunhofer HHI, he has been engaged in the research and development of hybrid and heterogeneous photonic integrated circuits, with a focus on polymer-based, SiN, and compound semiconductor platforms for communication, sensing, and quantum technology applications. In addition to his research activities, he has been involved in the acquisition and management of numerous national and European research projects as well as industrial collaborations.

After serving as a project manager and senior project manager, he was appointed Head of the Hybrid PICs group at Fraunhofer HHI, where he currently leads a multidisciplinary research team covering the full workflow from design and simulation to fabrication, characterization, and system-level 3 von 3 integration. He is (co-)author of more than 100 papers and conference contributions and inventor of several patents.

Fraunhofer IPMS is developing dedicated, phase-shifting, diffractive MEMS tilting mirror spatial light modulators (SLMs) for use in neutral atom quantum computers. This MEMS SLM technology opens up new dimensions in terms of precision and scalability.

It enables access to the UV spectral range with high single pixel resolution and minimized inter pixel crosstalk, as well as switching speeds in the megahertz regime for agile control of individual addressing beams. 

Fraunhofer IPMS covers the entire value chain from design and pilot fabrication through to characterization and system integration. 

This talk will present recent developments in high precision MEMS based SLMs at Fraunhofer IPMS and show how they can serve as a key enabling component for quantum applications such as neutral atom quantum computing, quantum communication and cryptography, and vortex beam generation. 

Further information: 
https://www.ipms.fraunhofer.de/de/applications/Quantum-Technologies/Quantum-Computing/SMAQ.html