Course summary
The so-called “2nd Quantum Revolution” promises novel, revolutionary approaches to sensing, metrology, computation, cryptography and communication by not only utilising but tailoring quantum dynamics. The importance is recognised by all major global funders who have set up dedicated programmes to support this rapidly evolving field and there is a fast industrial uptake. The UK has invested £1 billion since 2014 in the UK National Quantum Technologies Programme in a collaboration between industry, academia and government. The Department of Physics is involved in all four UK Quantum Hubs and numerous UKRI and Innovate UK grants. As a result, we cover a wide range of quantum technologies based on cold atoms, photonic devices and semiconductor structures. Quantum computing and simulation aims to transform the way that calculations are performed across many areas of science and industry. We do internationally leading research to develop quantum algorithms for real-world applications, and we lead national networks and projects closely aligned with local and national high-performance computing clusters, and with Strathclyde experiments building next-generation prototypes for neutral atom quantum computers and simulators developed through an EPSRC Prosperity Partnership with M Squared Lasers. This programme provides you with the skills to participate in the second quantum revolution with control of quantum features enabling novel functionalities for industrial products and advanced research.
Modules
Compulsory modules: Physics Skills; Topics in Quantum Physics; Topics in Photonics: Laser & Nonlinear Optics; Advanced Topics in Quantum Physics – Quantum Technologies; Advanced Topics in Quantum Optics; Project. Elective modules: Advanced Nanoscience 1: Imaging & Microscopy; Experimental Laboratories; Topics in Atomic, Molecular and Nuclear Physics.
Assessment method
The assessment of most taught modules is based on a written examination and continuous coursework (about 20%), and, in some modules, an oral examination. The final project is assessed predominantly by a report supplemented by a talk, an oral examination (viva) and an assessment of the performance and engagement during the project by the supervisor.
How to apply
International applicants
This course has a subject classification which requires students whose nationality is outside the European Economic Area (EEA) or Switzerland to have an ATAS certificate, irrespective of country of residence at the point of application.
Further information can be found on the UK Government's website: www.gov.uk/academic-technology-approval-scheme
Entry requirements
Minimum second-class (2.2) Honours degree, or overseas equivalent, in Physics (including Mathematics and Physics, Theoretical Physics). Applicants from an engineering discipline, computer science or engineering physics must have had sufficient exposure to courses in quantum mechanics. Contact us about your application and the possibility of conversion courses. You must have an English language minimum score of IELTS 6.0 (with no component below 5.5).
Fees and funding
Tuition fees
No fee information has been provided for this course
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
Sponsorship information
www.strath.ac.uk/studywithus/scholarships/
Provider information
University of Strathclyde
McCance Building
16 Richmond Street
Glasgow
G1 1XQ