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.
If you are new to all things quantum, you may want to see our Quantum computing 101 page. It will provide you with a quickstart guide on quantum computing to help you understand some of the research that happens at IQC.
- Feb. 21, 2017
IQC PhD student Hemant Katiyar led the first experiment to violate the Leggett-Garg inequality on a three-level quantum system, demonstrating the possibility of larger violations than previously thought possible.
- Jan. 23, 2017
IQC postdoctoral fellow Katanya Kuntz led the discovery of a new technique for measuring the length of an optical cavity, without any initial calibration.
- Dec. 22, 2016
Institute for Quantum Computing researchers first to demonstrate an uplink to an airborne quantum satellite receiver prototype for secure quantum communication
- Feb. 27, 2017
Harnessing quantum entanglement
Laura Mancinska, University of Bristol
The phenomenon of entanglement is one the key features of quantum mechanics. It can be used to attain functionality lying beyond the reach of classical technologies. In practice, however, finding the best way of harnessing entanglement for a given task is extremely challenging and one is often forced to resort to ad hoc methods. The mathematical structure of entanglement- enabled strategies is poorly understood and many basic questions remain open. This lack of understanding has prevented us from fully exploiting the advantages that entanglement can offer for operational tasks.
- Feb. 27, 2017
Progress and challenges in designing a universal Majorana quantum computer
Torsten Karzig, Microsoft Research Station Q
I will discuss a promising design proposal for a scalable topological quantum computer. The qubits are envisioned to be encoded in aggregates of four or more Majorana zero modes, realized at the ends of topological superconducting wire segments that are assembled into superconducting islands with significant charging energy. Quantum information can be manipulated according to a measurement-only protocol, which is facilitated by tunable couplings between Majorana zero modes and nearby semiconductor quantum dots.
- Feb. 28, 2017
This is the second of the Intellectual Property (IP) Management Lunch and Learn Lecture Series. We are bringing in thought leaders in the protection and management of intellectual property, including many years of experience in relevant areas of information technology.
This session will be led by Jeff Wong.
- Nov. 8, 2016
On August 30, Martin Laforest wrote a blog post about how to create a 4,000 square foot museum exhibition about an invisible science. That exhibition, QUANTUM: The Exhibition, came to life at THEMUSEUM for an invitation-only premiere on October 13, 2016 and then for the general public the next day.
- Oct. 11, 2016
On Tuesday, June 7, 24 students attending the Undergraduate School on Experimental Quantum Information Processing (USEQIP) at the Institute for Quantum Computing (IQC) used the IBM Quantum Experience to test algorithms that they were learning about in the classroom. Former IQC PhD student, Dr. Sarah Sheldon, now a research staff member at the IBM T.J. Watson Research Center, introduced the students to the platform, assisted them in working through examples and described the inner workings of IBM’s quantum processor.
- Sep. 27, 2016
Sep. 19 - Sep. 21, 2016