Spooky Action at a Distance: A Quantum Computing Research Collaboration Crosses the Atlantic
July 22, 2024 -- Researchers at MIT have recently signed a 4-year collaboration agreement with the Novo Nordisk Foundation Quantum Computing Programme (NQCP) at Niels Bohr Institute, University of Copenhagen, focused on accelerating quantum computing hardware research. The agreement means that both universities will set up identical quantum laboratories at their respective campuses in Copenhagen and Cambridge, facilitating seamless cooperation, as well as shared knowledge and student exchange.
“To realize the promise of quantum computing, we must learn how to build systems that are robust, reproducible, and extensible. This unique program enables us to innovate faster by exchanging personnel and ideas, running parallel experiments, and comparing results. Even better, we get to continue working with Professor Morten Kjaergaard, a rising star in the field, and his team in Copenhagen,” says William Oliver, Henry Ellis Warren (1894) Professor within the Department of Electrical Engineering and Computer Science (EECS), Professor of Physics, Associate Director of the Research Laboratory of Electronics (RLE), and the head of the Center for Quantum Engineering at MIT.
Oliver’s team will supervise the funded research, which will focus specifically on the development of fault-tolerant quantum computing hardware and quantum algorithms that solve life-science relevant chemical and biological problems. The agreement provides 18 million Danish kroner (approximately $2.55M) from the Novo Nordisk Foundation Quantum Computing Program to support MIT’s part in the research.
“A forefront objective in quantum computing is the development of state-of-the-art hardware with consistent operation,” said Maria Zuber, MIT’s Presidential Advisor for Science and Technology Policy, who helped facilitate the relationship between MIT and the Danish university. “The goal of this collaboration is to demonstrate this system behavior, which will be an important step in the path to practical application.”
“Fostering collaborations between MIT and other universities is truly essential as we look to accelerate the pace of discovery and research in fast-growing fields such as quantum computing,” adds Anantha Chandrakasan, chief innovation and strategy officer, dean of engineering, and the Vannevar Bush Professor of Electrical Engineering and Computer Science. “The support from the Novo Nordisk Foundation Quantum Computing Programme will ensure the world’s leading experts can focus on advancing research and developing solutions that have real-world impact.”
“This is an important recognition of our work at UCPH and NQCP. Prof. Oliver’s team at MIT is part of the international top echelon of quantum computing research,” said Morten Kjaergaard, Associate Professor of Quantum Information Physics and research group leader at the Niels Bohr Institute at UCPH. “This project enables Danish research in quantum computing hardware to learn from the best as we collaborate on developing hardware for next generation fault-tolerant quantum computing. I have previously had the pleasure of working closely with Prof. Oliver, and with this ambitious collaboration as part of our the Novo Nordisk Foundation Quantum Computing Programme, we are able to push our joint research to a new level.”
Peter Krogstrup, CEO of NQCP and Professor at Niels Bohr Institute, follows up, “We are excited to work with Will Oliver and his innovative team at MIT. It aligns very well with our strategic focus on identifying a path with potential to enable quantum computing for life sciences. The support aim to strengthen the already strong collaboration between Will and Morten’s team, a collaboration we hope to make an important part of the NQCP pathfinder phase over the coming years.”