Future graduate students

Join us for casual conversations with researchers at the Institute for Quantum Computing (IQC).

Professor David Gosset - Tuesday, November 24, 7:00 p.m.

For our fourth Fireside Chat, we welcome Professor David Gosset of the Institute for Quantum Computing and the University of Waterloo's Department of Combinatorics & Optimization.

David Gosset joined the Institute for Quantum Computing (IQC) as an Associate Professor in the Department of Combinatorics and Optimization at the University of Waterloo on August 1, 2018.

Join us for casual conversations with researchers at the Institute for Quantum Computing (IQC).

Kristine Boone, PhD candidate - Tuesday, October 20, 7:00 p.m.

For our third Fireside Chat, we welcome Kristine Boone for a conversation about working on the boundary of research and industry.

Tune in live on YouTube.

From Laser Cooling to Quantum Chemistry

Lasers are used in factories for burning through metal and in movies for blowing up space ships. But in the lab, we use them to cool atoms down to within one billionth of a degree of absolute zero.

Join us for casual conversations with researchers at the Institute for Quantum Computing (IQC).

Shayan Majidy, PhD candidate - Tuesday, September 29, 7:00 p.m.

This month, we welcome PhD student Shayan Majidy for a conversation about life as a graduate student, and what it's like to share quantum and science with a young audience.

Colloquium featuring Carl Alexander Miller - QuICS and NIST

How can two parties carry out a fair coin flip across a noiseless quantum channel? In 2007, Carlos Mochon proved a tantalizing result: he showed that fair quantum coin flipping is possible in principle, but he used a protocol that required a huge (exponential) number of communication rounds. In the twelve years since, despite some continued deep theoretical work on the problem, no improvements to the efficiency of Mochon's protocol have been made.

Dr. John Donohue is a quantum physicist and science communicator, currently acting as the Scientific Outreach Manager at the Institute for Quantum Computing and University of Waterloo. He holds a PhD in Physics and Quantum Information, and has conducted research in quantum optics in Canada and Germany. At IQC, John works to break down quantum mechanics to its essence, through classes, workshops, activities, and exhibits. John is interested in how to “count” light by measuring photons, the individual and indivisible particles that make it up.

Security in the Quantum Future

Quantum theory is quickly becoming quantum technology.

The goal of the IQC Workshop on Quantum Illumination is to bring together a wide range of participants from these various domains to discuss the state of the art in laboratory research, the range of possible applications, and paths toward those applications.

Topological Insulator-Superconductor Heterostructures and Devices

Lin Li, IQC

 A 3D topological insulator (TI) has a fully gapped insulating bulk state but a conducting surface. Such conducting “surface” states are formed with helical Dirac fermions, with spin-momentum strictly locked by spin-orbital coupling. When coupled to a conventional s-wave superconductor (S), the surface state behaves just like the desired p-wave superconductor. It has been predicted that Majorana zero-modes obeying non-Abelian statistics can appear in such a system.