Quantum Theory Group
- NSERC STRATEGIC grant: electron spin based Quantum Circuits in 2D Materials (QC2DM), (2018-2021).
- NSERC Discovery Grant: Synthetic many-body systems in artificial materials,2019-2024
- uOttawa Research Chair in Quantum Theory of Materials, Nanostructures and Devices, (2019-2024)
- NRC IoT Challenge Program: Polarisation-resolved single photon sensors using quantum circuits in 2D materials, (2022-2025)
- NRC Applied Quantum Computing Challenge Program: Advancing design of quantum computing devices based on topological quantum matter using noisy intermediate scale quantum computers, 2023-2025.
- NSERC Quantum Alliance Consortium (co-PI): Programmable quantum simulators based on 2D materials(PQS2D)
- NSERC Create on Quantum Materials. (Co-PI )
- B. Jaworowski and P. Hawrylak, ”Quantum bits with macroscopic topologically protected states in semiconductor devices”, Special Issue, Quantum Physical Informatics, D.Ferry, Editor, Applied Science 2019, 9, 474; doi:10.3390/app9030474
- P. Hawrylak, F. Peeters and K. Ensslin, "Carbononics – integrating electronics, photonics and spintronics with graphene quantum dots," Physica Status Solidi 10, 3-121 (2016).
- A.D. Guclu, P.Potasz, M.Korkusinski and P.Hawrylak, "Graphene Quantum Dots", Springer 2014.
- C-Y. Hsieh, Y.P. Shim. M. Korkusinski and P. Hawrylak, "Physics of triple quantum dot molecule with controlled electron numbers", Rep. Prog. Phys. 75, 114501 (2012).
- M. Korkusinski and P. Hawrylak, "Coded qubits based on electrons spin", in "Semiconductor quantum bits", World Scientific, 2008 ; O.Benson and F.Henneberger, Editors.
- P. Hawrylak and M. Korkusinski, "Electronic and optical properties of self-assembled quantum dots" in "Single quantum dots: Fundamentals, Applications, and New Concepts", P. Michler, Editor, Topics in Applied Physics,Vol.90, pp25-92 ,Springer-Verlag,(2003).
- Lucjan Jacak, Pawel Hawrylak, and Arek Wojs, "Quantum Dots", Springer Verlag (1998).
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