Carbononics - Future of Microelectronics? |
TYPE | Colloquium |
Speaker: | Prof. Pawel Hawrylak |
Affiliation: | Quantum Theory Group Department of Physics, University of Ottawa, Ottawa ON Canada, K1N 6N5 |
Organizer: | David Gershoni |
Date: | 19.10.2015 |
Time: | 14:30 - 15:30 |
Location: | Lidow Rosen Auditorium (323) |
Abstract: | We describe here results of our recent theoretical work aiming at design of graphene nanostructures capable of realizing the three functionalities of a quantum circuit: electronics, photonics and spintronics, in a single material and at the nanoscale[1]. Integration of these different functionalities using graphene quantum dots may enable a unified approach to Information and Communication Technologies - carbononics. The design tools include size, shape, type of edge, sublattice symmetry, topology, number of layers and carrier density in graphene quantum dots[1-7]. In particular, engineering sublattice symmetry opens new opportunities in voltage and light control of magnetic moments, size engineering leads to optical gaps from THz to UV while shape engineering leads to a degenerate exciton spectrum allowing for the generation of entangled photon pairs via XX-X cascade[7]. Geometry and e-e interactions allow for the integration of topologically protected states of matter into carbononics[8-10]. The effect of replacing carbon atoms with W and S2 and resulting valley effects [11] , including possible broken symmetry Valley Polarized state will be given[11].
[1] A.D.Guclu, P.Potasz, M. Korkusinski and P.Hawrylak,”Graphene Quantum Dots”, Springer 2014. [2] A.D.Guclu,P. Potasz, O.Voznyy, M. Korkusinski, P. Hawrylak, Phys.Rev.Lett.103,246805 (2009). [3] A. D. Güçlü, P. Potasz and P. Hawrylak, Phys. Rev. B 84, 035425 (2011). [4] P. Potasz, A. D. Güçlü , A.Wojs and P. Hawrylak, Phys. Rev. B 85, 075431 (2012). [5] D.Guclu and P.Hawrylak, Phys. Rev. B87, 035425 (2013). [6] I.Ozfidan,M.Korkusinski, A.D.Güçlü,J.McGuire,P. Hawrylak,Phys. Rev. B. 89 085310 (2014) [7] I.Ozfidan, M. Korkusinski and P.Hawrylak, Phys.Rev.B91, 115314(2015). [8] D.Guclu, M.Grabowski and P.Hawrylak, Phys.Rev. B87, 035435 (2013). [9] Isil Ozfidan, M. Vladisavljevic, Marek Korkusinski, and Pawel Hawrylak (to be published). [10]Marek Korkusinski and Pawel Hawrylak, Nature Scientific Reports 4, 4903(2014). [11] T. Scrace, Y. Tsai, B. Barman, L. Schweidenback, A. Petrou, G. Kioseoglou, I. Ozfidan, M. Korkusinski, and P. Hawrylak, Nature Nanotechnology 10, 603 (2015) .
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