Quantum technologies and engineering
Quantum technologies and engineering (QuTeE) focuses on modelling and control techniques to engineer quantum devices and processes.
We work on techniques to design, control and optimise the behaviour of quantum processes based on methods to model and simulate quantum systems, characterise their behaviour by parameter and model learning, and visualise and analyse measurement signals. Particular application areas we pursue are related to:
- spin dynamics
- quantum spin networks
- magnetic resonance imaging and spectroscopy
- spintronics and semiconductor devices
- chemical synthesis.
Priority area leader
Dr Frank Langbein
Senior Lecturer
Related projects
| Title | Holder | Source | Value (£Ks) |
|---|---|---|---|
| Data-driven simulation of quantum spin network devices | Dr F Langbein | Ser Cymru NRN Swansea | 59.4 |
| Optimal control technologies in quantum information processing | Dr F. Langbein | European Commission (FP7) | 15.6 |
| Watermarking geometric models | Dr FC Langbein & Dr AD Marshall | Auckland University | 61.1 |
| Detection of design intent in complex approximate geometric models | Dr FC Langbein | EPSRC | 123.64 |
| Theory and algorithms for geometric constraint systems | Mr FC Langbein | Nuffield Foundation | 6.0 |
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