Cornell University
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The entanglement advantage
Sensing networks achieve greater precision through quantum entanglement: Researchers show how to create quantum-entangled networks of atomic clocks and accelerometers — and they demonstrate the setup’s superior, high-precision performance. Read More
In the News
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U.S. Department of Energy announces first-of-its-kind collaboration for quantum technology demonstrations in space
From the U.S. Department of Energy: The U.S. Department of Energy announces the first round of participants dedicated to the Quantum & Space Collaboration, which has garnered an array of participants, including Q-NEXT partner Infleqtion. Read More
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Quantum capital of the world: emerging field that could solve ‘unsolvable’ problems
From WGN News: Chicago is aiming to become the quantum capital of the world. Public and private investment, workforce efforts, tech startups, and collaboration across academia, government and industry are all helping position Illinois as a leader in the quantum revolution. The WGN news piece… Read More
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Fact Sheet: Biden-Harris administration announces 31 regional tech hubs to spur American innovation, strengthen manufacturing and create good-paying jobs in Every Region of the Country
From the White House: President Biden and Secretary of Commerce Gina Raimondo announce the designation of 31 communities across the country as Regional Innovation and Technology Hubs (Tech Hubs) through the Department of Commerce Economic Development Administration. The 31 Tech Hubs focus on developing and… Read More
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The consequences of removing the world largest dam, and building a quantum computer using sound waves
From the Science Podcast: University of Chicago's Andrew Cleland discusses his work on using the phonon as the basis of quantum computing. Read More
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Run Superstaq to boost quantum computing performance — with Infleqtion
From the Post-Quantum World podcast: Host Konstantinos Karagiannis chats with Infleqtion's Pranav Gokhale about improving the performance of quantum computing programs by orders of magnitude by modifying just one layer of the computing stack. Read More