Researchers Test New Approach to Quantum-secured Communication in Space
May 18, 2021 | University of WaterlooEstimated reading time: 1 minute
Researchers from Canada and the United Kingdom will test a new approach for secure communication using satellite-based quantum technology.
Led by Thomas Jennewein, a faculty member in the Department of Physics and Astronomy and the Institute for Quantum Computing, researchers at the University of Waterloo are developing the Quantum Encryption and Science Satellite (QEYSSat), with a quantum key distribution payload that will allow the transmission of unbreakable keys for securing information.
The Waterloo team, which is leading the project, will closely collaborate with its Canadian partners Honeywell, the Canadian Space Agency, and researchers at the University of Calgary on demonstrating a novel quantum protocol onboard the QEYSSat mission.
U.K. aerospace company CraftProspect will collaborate with researchers at Strathclyde University and the University of Bristol to develop an integrated quantum transmitter.
By sending secret keys to ground stations on both sides of the Atlantic, the project will serve as a proof of concept for a global communications network secured by the laws of quantum physics. The first prototypes of the UK systems have been delivered and are now undergoing integration testing in Canada.
“It is crucial that we combine expertise from both sides,” Jennewein said. “Our U.K. partners are contributing their quantum key distribution source, while we will work with our Canadian partners to integrate that source into the QEYSSat optical payload.”
The researchers at Waterloo and Strathclyde will also collaborate on theoretical analysis and modelling of the quantum system, as well as developing secure communication protocols for the new quantum transmitter.
The project will receive up to £300,000 from Innovate U.K., part of U.K. Research and Innovation, and up to $400,000 from the Natural Sciences and Engineering Research Council of Canada as one of eight winners of the UK-Canada Quantum Technologies Competition announced in November.
The competition is part of an initiative to bring together industry, government and academia to accelerate the development of quantum technologies.
“This project will not only expand the capabilities of the QEYSSat mission, but of satellite-based quantum technologies in general,” Jennewein said.
Suggested Items
Terran Orbital’s GEOStare SV2 Captures 3 Years of Success in High-Resolution Imaging
05/17/2024 | BUSINESS WIRETerran Orbital Corporation, a global leader in satellite-based solutions primarily serving the aerospace and defense industries, celebrates the 3rd anniversary of its successful GEOStare SV2 mission. Launched on May 15, 2021, from NASA’s Kennedy Space Center in Florida, GEOStare SV2 has surpassed expectations, delivering exceptional results for commercial satellite imagery.
Terran Orbital Joins the Mobile Satellite Services Association (MSSA)
05/16/2024 | BUSINESS WIRETerran Orbital Corporation, a global leader in satellite-based solutions primarily serving the aerospace and defense industries, announced its membership in the Mobile Satellite Services Association (MSSA).
Un-Jammable Quantum Tech Takes Flight to Boost UK’s Resilience Against Hostile Actors
05/13/2024 | BUSINESS WIRERedwire Announces Development of New European-Built Very Low Earth Orbit (VLEO) Spacecraft Platform called Phantom
05/13/2024 | BUSINESS WIRERedwire Corporation, a leader in space infrastructure for the next generation space economy, announced Phantom, a new European Very Low Earth Orbit (VLEO) spacecraft platform.
Space Tech Startup Xona Raises $19M Series A for its Cutting-Edge Satellite Navigation Service
05/08/2024 | PRNewswireXona - a company developing a network of small satellites to provide high-precision navigation services - announced an oversubscribed $19 million Series A funding round led by Future Ventures and Seraphim Space. New investors NGP Capital, Industrious Ventures, Murata Electronics, Space Capital, and Aloniq also joined the round.