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).