On the way to the quantum internet
Prof Tobias Heindel first came into contact with experimental physics in upper secondary school, when he worked on a project on fuel cells in the advanced physics course at Scheinfeld Gymnasium and was invited to present it in Erlangen at the ‘Long Night of Science’. The native of Middle Franconia recalls the enthusiasm he felt for the subject at that time. But he was also fascinated by nature and weather. Meteorology was on his list of possible career paths. However, when he graduated from high school as one of the best students in physics, his path was clear – he went on to study physics at the University of Würzburg, where he later earned his doctorate. In the meantime, his career has led him to Münster, where he recently accepted a position at the University. Tobias Heindel now heads the ‘Photonic Quantum Networks’ working group at the Department of Quantum Technology in the Faculty of Physics and conducts research on building blocks for the quantum internet and quantum communication.
Among other things, his work involves data encryption. Classical methods are based on complex mathematical calculations, which makes them vulnerable in principle. In practice, this is virtually impossible with good encryption, as the computing power of today’s computers is not yet sufficient for this. ‘But how long will that remain the case? The computing capacities of even conventional supercomputers are increasing rapidly,’ says Tobias Heindel. He and his team are working on communication systems of the future whose security is based on the laws of quantum physics. Individual ‘light particles,’ also known as photons or light quanta, form the basis of the encryption technology.
‘In conventional communication networks, light is also used for data communication, but with bright laser pulses that contain countless light particles,’ explains the physicist. Third parties could divert some of the photons unnoticed and thus ‘fish out’ information. A communication network can only become fully secure when individual photons are used for encryption. Tobias Heindel therefore uses so-called quantum light sources. These can be produced, for example, using semiconductor quantum dots or defects in atomically thin materials, allowing individual or multiple entangled light quanta to be generated and controlled at the touch of a button.
The 41-year-old is testing these future technologies in laboratory experiments and field trials. His team is currently working on several projects, including a quantum communication test track between Jena and Erfurt. Tobias Heindel also has big plans for Münster – he wants to work with other research groups to establish a quantum network that will extend from the Center for Nanotechnology (CeNTech) to the Center for Soft Nanoscience (SoN) at the University of Münster and on to the future physics building, the new ‘Institute Group 1’ (IG 1). His goal is to test the basic functions of a future quantum internet in a realistic test environment. This Münster quantum network is to become part of a pan-European fibre-optic network for quantum communication.
Speaking of which, Tobias Heindel is also keen on science communication. Together with Prof Doris Reiter from TU Dortmund University, he recently received the ‘IOP Lise Meitner Medal and Prize 2025’ from the British Institute of Physics. With this award, the judges recognised the ‘QuanTour’ project, in which a quantum light source travels through laboratories around the world. Its own Instagram channel with an accompanying podcast series and public events are helping to bring the topic of quantum physics and technologies to the attention of the broader public. ‘We want to make quantum technologies more accessible to society and, at the same time, show how collaborative science is today,’ says Tobias Heindel, describing his motivation. This is precisely what drives him to inspire young researchers to take an interest in his topics.
He currently commutes frequently between Münster and Berlin, where he has been leading a junior research group at the Technical University Berlin since 2018. However, he will soon be moving to the Münster region with his wife and three children, who are of nursery and primary school age. What is he looking forward to? ‘I find it exciting that I can help drive forward the development of the new Department of Quantum Technology. That’s something special. It’s not often that new structures are created in a department and you can help shape them,’ he says. As a fan of the North Sea, he is also pleased that the journey to his favourite island, Spiekeroog, will no longer take quite so long.
Author: Christina Hoppenbrock
This article was originally published in the University newspaper wissen|leben, no. 8, 10 December 2025.