University of Glasgow: University Of Glasgow Launches Centre For Quantum Technology
Its researchers have harnessed quantum physics to develop exquisitely-sensitive gravity detectors the size of a golf ball, cameras which see inside the human body with new precision, and new forms of secure communication.
Now, the University of Glasgow is launching a dedicated facility for its quantum research and development projects – the Centre for Quantum Technology. A Fresnel Cone shapes light for improved microscopy. Image credit: Kevin Mitchell
The Centre aims to build on the University’s expertise and experience as one of the largest quantum centres in the UK, finding new economic and societal benefits for the country as well as consolidating its research and teaching base.
The Centre is being officially unveiled today (Wednesday 29 September) at a special event including a panel discussion during the SPIE Photonex + Vacuum Technologies conference, which is underway in Glasgow’s Scottish Event Campus (SEC).
The University is also opening applications for a million-dollar scholarship fund for graduate student recruitment, supported with funding from SPIE, the international society for optics and photonics.
The launch of the Centre is the latest development for quantum research at the University. It already leads QuantIC, the UK Quantum Technology Hub in Imaging, which was launched in 2014 as part of the £1bn UK National Technologies Programme. Glasgow researchers also contribute to the three other Quantum Technology Hubs launched at the same time, and are currently working with more than 50 industrial partners.
The University’s James Watt Nanofabrication Centre and its commercial arm, Kelvin Nanotechnology Ltd, have helped create many of the cutting-edge components which underpin new quantum technologies in areas including computing, imaging, communications and sensors.
Some of the technologies developed by University researchers include Wee-G, a gravitational sensor capable of mapping geological structures and providing advance warning if impending volcanic eruptions; endoscopes the width of a human hair which can provide new ways of imaging inside the body; and optical networks which use uncrackable quantum key distribution to make communications more secure.Creating an endoscope the width of a human hair. Image Credit: Kevin Mitchell
Professor Miles Padgett, the Centre’s director, is speaking at the Centre’s launch today. He said: “We’re proud to be officially launching the Centre for Quantum Technology at the SPIE Photonex + Vacuum Technologies conference today. Over the last decade, the University of Glasgow has grown a quantum research activity to become one of the largest quantum centres in the UK.
“The University is home to many of the leading engineers, physicists, and computing scientists working quantum research in the UK. The technology they are pioneering has wide-ranging applications across physical and biological sensing and imaging, secure communication and advanced computing.
“The Centre aims to further build on these strengths and develop new commercial partnerships, translate fundamental research into new products, and to attract and retain the best researchers and students to the city.
“To that end, we’re delighted to have the support of the SPIE Endowment Matching Program to help us encourage the next generation of quantum researchers in academia and in industry. We’re looking forward to welcoming the programme’s first inductees to our new Advanced Research Centre, set to open next year, which will be home to many of our quantum research projects.”
The University has received $500,000 (£425,000) from the SPIE Endowment Matching Program, which has been 100% matched by the University, creating a fund worth a total of $1m (£850,000).
The SPIE Early Career Researcher Accelerator Fund in Quantum Photonics supports two new schemes at the University. The first is an annual SPIE Early Career Researcher in Quantum Photonics Scholarship, awarded to an outstanding University of Glasgow graduate student who is in the process of completing their studies.
The second is the SPIE Global Early Career Research program to support outgoing and incoming placements at and from the University as part of its ongoing collaboration with leading quantum-photonics research groups across the globe. Each year, the program will pair several University early-career researchers with counterparts from outside laboratories for six-month-long shared projects.
When the program was announced, 2020 SPIE President John Greivenkamp said: “We are delighted to be participating in these exciting endeavours with the University of Glasgow. The interactive placements will offer transformative opportunities for the university’s academic and industry-based researchers, and, together with the annual scholarship, will develop well-prepared, knowledgeable early-career researchers who will drive the future of the quantum industry.”