Course summary

Quantum technologies are set to transform our modern world. Quantum computing, communication, and sensing will impact everything from cybersecurity to drug discovery. These technologies require us to use remarkable properties of Nature such as quantum entanglement and quantum superpositions in clever and creative ways. The MSc in Quantum Technologies at the University of Leeds will prepare you to play a leading role in this technological revolution by equipping you with deep theoretical foundations as well as practical, research-led training. In the course you'll study quantum computing, quantum information, quantum matter, and quantum simulation, while developing hands-on experience with quantum hardware and software tools. The programme is taught by experts actively advancing the field in areas such as quantum computing, quantum optics, topological quantum computing, and the simulation of quantum systems on quantum platforms. You'll be based in the state-of-the-art research and specialised facilities on campus, including the purpose-built Sir William Henry Bragg Building, which serves as the academic home for our MSc students. Here you'll have access to top-of-the-line laboratories and specialised teaching spaces, as well as the Bragg Centre for Materials Research, where scientists and engineers work together to address global challenges in technology, society and economy. Whether your future lies in academic research, the growing quantum tech industry, or science policy, this programme will equip you with the expertise and experience to succeed in this fast-evolving field. Why study at Leeds:

• Our dedicated Quantum Group at Leeds delivers the course, bringing their extensive experience and real-world impact to help shape the curriculum with the latest thinking in quantum technologies.

• Gain a range of fundamental ideas, skills and tools you’ll need for the future in this emerging field.

• Study in the  Sir William Henry Bragg building which provides an excellent base for interdisciplinary working with specialised labs, teaching spaces and group areas.

• Access the University’s state-of-the-art computational and simulation infrastructure, including high-performance computing resources and cloud-based quantum computing platforms.