Year-1 students will commence their research projects, and in parallel will be taught in courses through SUPA on the Theoretical and Physical Foundations of QT.
SUPA Courses
Theoretical Foundations of Quantum Technologies
This course will provide the background theory relevant to Quantum Technologies.
Part I (3 lectures, Jonathan Pritchard) – Basic Atomic Physics: Historical introduction to atomic physics, Angular momentum; Atomic structure; Atom-light interactions.
Part II (3 lectures, John Jeffers) – Basic Photonic Quantum Optics: Field quantisation, single-mode fields and quantum states; beam splitters and interferometers; non-classical light and its generation.
Part III (3 lectures, Sarah Croke) – Applications of Quantum Information: Quantum key distribution, Quantum sensing; Qubits, classical and quantum gates; introduction to quantum algorithms.
Physical Systems for Quantum Technologies
This course will provide an introduction to physical systems and experimental techniques relevant to Quantum Technologies.
Part I (3 lectures, Paul Griffin) – Atoms: Laser cooling and atomic clocks; Atoms in optical lattices; Rydberg atoms in tweezers for quantum computation;
Part II (2 lectures, Sam Bayliss) Spin Qubits: Spin-light interfaces; Physical systems; Initialisation, readout and control of spin qubits; Applications to quantum sensing and quantum networks;
Part III (2 lectures, Alessandro Fedrizzi) – Photonics;
Part IV (2 lectures, Martin Weides) – Superconducting Qubits: Quantum circuits, materials and interfacing concepts.
Timetable
SUPA Rooms within Institutions
University of Strathclyde
813, John Anderson Building
University of Glasgow
255a, Kelvin Building
Heriot-Watt University
1.27, Earl Mountbatten Building