PhD Thesis - Kent Fisher
Kent Fisher of the Department of Physics and Astronomy is defending his thesis:
Photons & Phonons: A room-temperature diamond quantum memory
Kent is supervised by Professor Kevin Resch.
Kent Fisher of the Department of Physics and Astronomy is defending his thesis:
Photons & Phonons: A room-temperature diamond quantum memory
Kent is supervised by Professor Kevin Resch.
Join us for a night of film and science. The Institute for Quantum Computing has partnered with the Centre for Quantum Technologies in Singapore to host a festival for quantum-inspired films. The screening of the top 10 short films will be followed by a lecture by Senior Manager, Scientific Outreach, Martin Laforest about the applications of quantum devices. He will delve into what we know quantum devices will be used for (that will affect everyone) and where researchers are hoping they will be used in the future.
Paulina Corona Ugalde of the Department of Physics and Astronomy is defending her thesis:
Experimental Prospects for Detecting the Quantum Nature of Spacetime
Paulina is supervised by IQC associate Robert Mann
Sascha Agne of the Department of Physics and Astronomy is presenting his thesis:
Exploration of Higher-Order Quantum Interference Landscapes
Sascha is supervised by IQC faculty member Thomas Jennewein.
Morgan Mastrovich, Master's Student
Hear Raymond Laflamme, founding director of the Institute for Quantum Computing and John von Neumann Chair in Quantum Information and Edwin Outwater, Music Director Laureate of the Kitchener-Waterloo Symphony, as they have a conversation about the making of Does God Play Dice (Quantum Etude).
Radio host Mike Farwell will moderate this conversation about their collaboration that integrated quantum physics and music to create a surprisingly random performance piece. You’ll even have the to watch highlights of the April 20 performance.
As we approach the development of a quantum computer with tens of
well-controlled qubits, it is natural to ask what can be done with
such a device. Specifically, we would like to construct an example of
a practical problem that is beyond the reach of classical computers,
but that requires the fewest possible resources to solve on a quantum
computer. We address this problem by considering quantum simulation of
spin systems, a task that could be applied to understand phenomena in
The toric code is a topological quantum error correcting code, and an example of a stabilizer code, defined on a two-dimensional spin lattice. It also represents the simplest example of topological order -- Z2 topological order that was first studied in the context of Z2 spin liquid. I will talk about our recent progress in the search for a toric code topological order in the kagome antiferromagnetic spin system.
Candidate: Zimeng Wang
Three coupled harmonic oscillators with an interaction given by the trilinear Hamiltonian $a^{\dagger} b c + a b^{\dagger} c^{\dagger}$ can describe a wide range of physical processes. In this talk I will show how we implement the trilinear Hamiltonian utilizing a chain of three $^{171}$Yb$^+$ ions in a linear Paul trap.