(Newswire) The UK-Canada Quantum Technologies Competition today announced the winners of the competition run jointly by UK Research and Innovation (UKRI) and the Natural Sciences and Engineering Research Council of Canada (NSERC).
The eight winning projects will share grants of £2m from the UK and C$4.4 million total investments from Canada under the bilateral initiative.
The UK-Canada quantum technologies competition will result in the first industry-led partnership between any two countries to develop quantum technologies.
It follows an agreement signed between the two nations in 2017 to share quantum expertise through academic and business collaborations.
The eight projects, all of which have a UK business lead and a Canadian academic lead, as well as research organizations and other company and government partners from both countries, include:
Reference-Frame Independent Quantum Communication for Satellite-Based Networks (ReFQ)
UK business lead: Craft Prospect Ltd: Canadian academic lead: University of Waterloo. This project brings together experts from Canada and UK to demonstrate the use of quantum technology for protecting commercial and national communications networks. This project will implement a new approach and protocol that improves the integration and alignment of a quantum transmitter on a satellite. The UK-CAN QKD (Quantum Key Distribution) technology developed in this project is targeted to fly onboard Canada’s Quantum Encryption and Science Satellite (QEYSSat), thereby extending the scope of the mission and demonstrating links to ground stations on both sides of the Atlantic.
Advanced Manufacturing Toolkit for Quantum Sensing and Quantum Computing
UK business lead: Oxford Instruments Nanotechnology Tools Ltd: Canadian academic lead: Université de Sherbrooke. Academic and industrial partners from Canada and the United Kingdom are joining forces to create an advanced manufacturing toolkit for quantum sensing and quantum computing. It will address the need to produce robust, reliable and scalable microelectronic circuits, which lie at the heart of quantum technologies, for their commercial exploitation and large-scale deployment. The systems developed in this project will include atomically precise superconducting thin films and defects in diamond.
Scanning Probe Fabrication and Readout of Atomically Precise Silicon Quantum Technologies
UK business lead: Nanolayers Research Computing Ltd: Canadian academic lead: McGill University. This project uses artificial intelligence to control an atomic resolution microscope to fabricate and identify silicon qubits, which may pave the way to silicon-based quantum computers. Silicon is an attractive material for quantum computing, as it provides for very long coherence times (i.e. quantum instead of classical properties persist for relatively long times). Furthermore, the vast experience of the semiconductor industry can be harnessed for future scale up.