The MRes is an exit point from the PhD in Quantum Engineering and may be awarded to students who leave the PhD following successful completion of the first year of study, comprising the mandatory units outlined below.
Students who have previously taken the units Quantum Information Theory (MATHM5610) and/or Quantum Computation (MATHM0023) will be required to choose alternative units. Students who have covered the same material elsewhere may choose to take alternative units, subject to approval by the QE-CDT.
Unit name | Unit code | Credit points | Status | Teaching Block |
---|---|---|---|---|
Quantum Information Theory | MATHM5610 | 10 | Mandatory | TB-1A |
Quantum Optics | PHYSM0019 | 10 | Mandatory | TB-1 |
Quantum Device Engineering | EENGM0010 | 15 | Mandatory | TB-4 |
Quantum Computation | MATHM0023 | 10 | Mandatory | TB-2C |
Quantum Platforms | PHYSM0020 | 15 | Mandatory | TB-4 |
Topics in Quantum Engineering | PHYSM0022 | 20 | Mandatory | TB-4 |
Quantum Engineering Team Project | PHYSM0021 | 10 | Mandatory | TB-4 |
Quantum Engineering Cohort Project | PHYSM0016 | 10 | Mandatory | TB-4 |
Quantum Engineering Individual Project A | PHYSM0017 | 40 | Mandatory | TB-4 |
Quantum Engineering Individual Project B | PHYSM0018 | 40 | Mandatory | TB-4 |
Quantum Engineering (MRes) | 180 |
The assessment of the taught component of a doctoral degree is governed by the Regulations and Code of Practice for Taught Programmes and is assessed separately from the research project. Progression to the research project may be dependent on the successful completion of the taught component - please refer to the relevant handbook for the structure of the particular programme.
The pass mark set by the University for any level 7(M) unit is 50 out of 100.
It may be possible to exit the programme with a taught award. For detailed rules on progression please see the Regulations and Code of Practice for Research Programmes and the relevant faculty handbook.