Quantum2025

Quantum technologies are enabling completely new applications in secure data communication (e. g. quantum kryptography) , sensor technology, metrology and simulation, and at the same time open up new questions for research. We will have a look inside the quantum labs and show what quantum researchers are currently working on and what stimulates their interests.

Quantum physics is an important topic in schools, because it has had a lasting impact on our view of modern physics. For teaching, modern quantum science and technologies can provide further momentum to strengthen public insight and broad education in the natural sciences in general.

Fundamental concepts of quantum theory are a challenge to philosophical interpretations of quantum theory even today, and they also challenge art, literature, and music to deal with its irritating aspects. We plan to make the variety of expressions of the phenomenon 'quantum' tangible through exhibitions, concerts, theater and readings. 

Quantum technology not only promises further developments of already known methods and processes, it also raises expectations of revolutionary changes: Quantum computing is supposed to solve complex problems that conventional computers fail at; quantum networks lend physical rather than algorithmic security to the architecture of our IT world. What should we prepare for as a society? What consequences will companies and public institutions, employ-ees and decision-makers have to bear?

A theory like quantum mechanics does not just come to mind on e. g. a simple trip for curing diseases. Rather, it was a long road that led from insight about the limitations of classical mechanics at microscopic, atomic scales to establishing this novel theory. It was stimulated by experiments that showed surprising quantum properties of nature and proceeded hand in hand with intense analysis and discussion by physicists at different intellectual centers of physical research on more adequate mathematical concepts. Cooperation and exchange were central to the success of a long development of theories and applications in quantum physics. But is it really different today?