Master Track in Quantum Technology
- Quantum sensing promises improved sensors and measurement principles.
- Quantum simulations exploit highly controllable, man-made quantum systems to unveil certain properties of matter.
- Quantum communications ensures inherently secure encryption methods.
- Quantum computing promises unprecedented capabilities for certain computational tasks.
Much of our current technology, from semiconductor electronics to lasers, has emerged from what is sometimes referred to as the “first quantum revolution”, i.e., the understanding of the properties of matter based on the laws of quantum mechanics. More recently, elusive concepts of quantum mechanics such as superposition and entanglement ‑ which have long been regarded as puzzling curiosities of quantum mechanics with no practical purposes ‑ have become the keystones of a number of technological applications fostering the notion of a "second quantum revolution".
These applications go from quantum sensing, to quantum simulations, to quantum communications, and, last but not least, to quantum computing. The latter represents a paradigm shift in computing more fundamental than the evolution from the abacus to today’s supercomputers, and promises unprecedented capabilities for certain computational tasks. All together, these different applications form the field of quantum technology.
We are now witnessing an exciting phase where quantum technology is moving from the mere academic research environment to be a primary topic of interest for industry and society. Much of this development has be driven by major investments by private companies (e.g. Google, Microsoft, IBM, INTEL,…) and by national and international funding agencies (see e.g. the European FET Flagship Program on Quantum Technologies). The consequence is that there is an increasing demand for a specialized quantum-savvy workforce.
A novel Master study track
To respond to this need, the Physics Department of the RWTH Aachen University is offering a novel Master study-track on Quantum Technology, starting from the winter semester 2019/20. This study track has been developed in collaboration with the Faculty for Electrical Engineering, and will include theoretical and experimental courses alike, and a new, dedicate lab course where to put theory into practice. Students will be also offered cutting-edge research projects and an industrial tie-up for internships.
The study track is also one of the strategic measures of the Cluster of Excellence ML4Q in the field of teaching, and it greatly profit from the close collaborations with experts from Cologne and Bonn Universities.