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HL: Fachverband Halbleiterphysik
HL 30: Invited talk Fomin
HL 30.1: Hauptvortrag
Mittwoch, 3. April 2019, 12:15–12:45, H33
Topology−driven excitonic Aharonov−Bohm effect in core−multishell nanowires — •Vladimir M. Fomin1, Pierre Corfdir2, Oliver Marquardt3, Ryan B. Lewis2, Chiara Sinito2, Manfred Ramsteiner2, Achim Trampert2, Uwe Jahn2, Lutz Geelhaar2, and Oliver Brandt2 — 1Institute für Integrative Nanowissenschaften, Leibniz IFW Dresden, Dresden D-01069, Germany — 2Paul-Drude-Institut für Festkörperelektronik, Leibniz-Institut im FVB, D-10117 Berlin, Germany — 3Weierstraß-Institut für Angewandte Analysis und Stochastik, Leibniz-Institut im FVB, D-10117 Berlin, Germany
The physics of quantum rings is a heuristically unique playground for topology-driven quantum-mechanical effects [1]. A novel insight in this field is achieved by extending the paradigm of topology-controlled properties from quantum rings onto a broad class of doubly-connected nanoarchitectures. Core-multishell GaAs/AlAs nanowires are shown to be an excellent platform for investigations of the Aharonov−Bohm effect of neutral and charged excitons [2]. The controlled fabrication of nearly perfect quantum rings in core-multishell GaAs/AlAs nanowires is ensured by combining all-binary radial heterostructures with axial crystal-phase quantum structures. Excitonic phase coherence is predicted theoretically and observed through the Aharonov−Bohm oscillations in the photoluminescence spectra in quantum rings with circumferences as large as 200 nm. [1] V. M. Fomin (Ed.), Physics of Quantum Rings, 2nd Edition (Springer International Publ., Cham, 2018), 586 p. [2] P. Corfdir et al., Adv. Mater. 31, 1805645 (2019).