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Welcome to the Institute for Quantum Computing

The Institute for Quantum Computing (IQC) is a scientific research institute at the University of Waterloo. The research happening at IQC harnesses the quantum laws of nature in order to develop powerful new technologies and drive future economies.

Faculty Positions Open NowIQC in the news

What is quantum computing? Start with our Quantum computing 101 page. It's a quickstart guide on quantum computing to help you understand some of the research that happens at IQC.

Delivering on the quantum promise: The Transformative Quantum Technologies (TQT) program at the University of Waterloo aims to advance the use of quantum mechanics from laboratory curiosity to an impactful device. 

  1. Oct. 29, 2018New methods to produce and detect optical and matter-wave spin-orbit statesPoincare and Bloch sphere isomorphism

    Researchers at the Institute for Quantum Computing (IQC) in collaboration with researchers at the National Institute for Standards and Technology (NIST) have developed a highly robust method for structuring light and matter waves, enhancing the powerful probing ability of neutrons.

  2. Oct. 18, 2018Constant-time quantum computers more powerful than classical counterpartsScientists prove there are certain problems that require only a fixed circuit depth when done on a quantum computer no matter ho

    Quantum computers can solve a linear algebra problem faster than classical computers, according to a new study published in Science. The finding proves that constant-depth quantum circuits are more powerful than their classical counterparts, and provides a new sense of how quantum technology will be a key to more powerful computing.

  3. Oct. 17, 2018Generating multiphoton entanglement on a superconducting chip

    A step further for secure quantum communication and scalable quantum computing

    A team of researchers at the Institute for Quantum Computing (IQC) generated three-photon entanglement on a superconducting chip using a new, scalable technique.

    The experiment, published in Physical Review Applied, could lead to advances in quantum communication protocols like secret sharing and in quantum computing power.

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  1. Dec. 13, 2018Applied Mathematics Colloquium: Quantum Universe

    Neil Turok, Perimeter Institute

    Observations reveal the cosmos to be astonishingly simple, and yet deeply puzzling, on the largest accessible scales. Why is it so nearly symmetrical? Why is there a cosmological constant (or dark energy) and what fixes its value? How did everything we see emerge from a singular “point” in the past?

  2. Dec. 14, 2018RAC1 Journal Club/Seminar Series

    Wavelength selective thermal emitters using nitride quantum wells and photonic crystals

    Dr. Dongyeon Daniel Kang, Kyoto University

    Wavelength selective thermal emitters are highly desired for the development of the compact/energy-efficient spectroscopic sensing systems capable of detecting various gases such as COx, CH4, and NOx, which are strongly needed in environmental science, medical care, and other industrial applications. In addition, for the latter applications, dynamic control of thermal emission intensity is important for such emitters because synchronous detection can increase the signal-to-noise ratio significantly.

  3. Jan. 11, 2019RAC1 Journal Club/Seminar Series

    Crafting high-dimensional tools for photonic quantum networks with tailored nonlinear optics

    John Donohue, Institute for Quantum Computing

    The time-frequency degree of freedom of light offers an intrinsically high-dimensional encoding space which is naturally compatible with waveguide devices and fiber infrastructure. However, coherent manipulation and measurement the information-carrying modes presents a challenge due to the sub-picosecond timescales inherent to downconversion-based photon sources. In this talk, I will discuss methods based on ultrafast pulse shaping and sum-frequency generation to address these temporal modes.

All upcoming events

Meet our people

Kevin Resch

Interim Director, Faculty, Deputy Director, Academic, Professor

Contact Jeannie Bairos for all Director's office business.

Kevin Resch received the BSc (Hon.) degree in Chemical Physics from Queen’s University, Kingston, Canada, in 1997. He received the MSc and PhD degrees in Physics from the University of Toronto, Canada, in 1998 and 2002 respectively. His Masters and Doctoral theses were based on experimental quantum optics and completed under the supervision of Aephraim Steinberg.

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