Centre for Quantum Technology
Our Centre for Quantum Technology is advancing the UK’s lead in quantum technology while training the future experts in the field.
Holography ‘quantum leap’ could revolutionise imaging
Thu, 04 Feb 2021 16:00:00 GMT
New funding
- Engineering Precision Medicine for the 21st Century; Engineering and Physical Sciences Research Council (EPSRC), £595k (2023-28). Principal Investigator: Prof Daniele Faccio
- EPSRC Hub for Quantum Computing and Simulation; Engineering and Physical Sciences Research Council (EPSRC), £120k (2023-28).
- Opto-Spintronic interfaces for next generation quantum networks - (SpinNet); Engineering and Physical Sciences Research Council (EPSRC), £202k (2022-24).
- Near-term quantum algorithms for gravitational wave data analysis; Engineering and Physical Sciences Research Council, £105k (2022-23).
- Altnaharra: Cryoelectronics for Quantum Circuits; Innovate UK, £980k (2022-25).
- Acousto-activated sonoluminescent drug delivery for future precision medicine; Engineering and Physical Sciences Research Council, £99K (2022-23).
Research news
- UofG partners with Oxford Instruments Nanoscience on quantum computing
- UofG supports major quantum technology effort to solve universe's mysteries
- UofG lends support to transatlantic quantum collaboration
- Six UofG academics recognised in Queen's birthday honours
- Two UofG engineers win prestigious research chairs
- Gravitational wave discovery shows merger of two black holes with unequal masses
Recent publications
- Manipulation and certification of high-dimensional entanglement through a scattering medium. PRX Quantum (2023)
- Pixel super-resolution using spatially entangled photon pairs, Nature Communications (2022)
- Advances in Magnetics Roadmap on Spin-Wave Computing, IEEE (2022)
- Asymmetric Reflection Induced in Reciprocal Hyperbolic Materials, ACS Photonics (2022)
- Amplitude and frequency sensing of microwave fields with a superconducting transmon qudit, Nature (2020)
- Properties and Astrophysical Implications of the 150 M ⊙ Binary Black Hole Merger GW190521. Astrophysical Journal Letters (2020)
- GW190521: A Binary Black Hole Merger with a Total Mass of 150M. Physical Review Letters (2020)
Glasgow is an international centre of excellence in quantum and nanoscience, translating our fundamental understanding of these phenomena into world-changing technologies.
On the smallest possible scale, we study and control particles of matter and light to understand the building blocks of the universe. We engineer complex combinations of materials over length scales, from nanometres to centimetres, with reproducibility that enables low-cost components with the highest levels of functionality and energy efficiency. On the largest scale, we use our expertise to open new windows to the universe through the detection of gravitational waves.
We lead the UK’s Quantum Technology Hub in imaging; host the James Watt Nanofabrication Centre, the UK’s leading facility; and are members of a world-leading international Max-Planck Partnership in Measurement and Observation at the Quantum Limit.
We are training the next generation of nano/quantum scientists and engineers through our Doctoral Training Programme in Sensor Systems, and our Innovation Centre, CENSIS, pioneers new sensor systems for industry.
We are leaders in the nano and quantum world.
Meet our academic ambassadors
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