Combining classical and quantum computing opens door to new discoveries
Researchers have discovered a new and more efficient computing method for pairing the reliability of a classical computer with the strength of a quantum system.
Researchers have discovered a new and more efficient computing method for pairing the reliability of a classical computer with the strength of a quantum system.
Researchers have successfully transferred quantum coherence through photons scattered in free-space for the first time, enabling new research opportunities and applications in fields ranging from quantum communication to imaging and beyond.
Researchers studying two-dimensional crystalline materials have observed an electromagnetic effect, called the nonlinear anomalous Hall effect, of unprecedented size. Their finding opens the door to exploring other quantum materials using their techniques and hints at promising applications in spintronic devices.
Researchers from Canada and the United Kingdom will test a new approach for secure communication using satellite-based quantum technology.
Researchers have discovered the most precise way to control individual ions using holographic optical engineering technology.
The David Johnston Award for Scientific Outreach recognizes students dedicated to promoting public awareness of quantum research and science in the community. IQC is proud to announce this year's recipients, PhD students Andrew Cameron and Connor Kapahi.
More than sixty years after Richard Feynman delivered a seminal lecture that foreshadowed the development of nanotechnologies, Institute for Quantum Computing (IQC) and Department of Chemistry faculty member Jonathan Baugh and University of New South Wales Sydney faculty member Arne Laucht served as co-editors leading the publication of a roadmap that surveys major developments in the field of quantum nanotechnologies and explores exciting avenues for further development that will help usher in the next quantum revolution.
Two projects most recently supported by the Quantum Quest Seed Fund (QQSF) aim to make quantum concepts more easily understood. The goal of one project is to explain how differences in cultural background influence perception and acceptance to the basic principles of quantum physics, while the other aims to use interactive digital storytelling to advance quantum literacy.
The University of Waterloo’s Institute for Quantum Computing welcomes the federal budget commitment to investing in a national quantum strategy.