V. K. Kozin, I. V. Iorsh, O. V. Kibis, I. A. Shelykh
Published 2017-11-05Version 1
We demonstrate theoretically that a strong high-frequency circularly polarized electromagnetic field can turn a two-dimensional periodic array of interconnected quantum rings into a topological insulator. The elaborated approach is applicable to calculate and analyze the electron energy spectrum of the array, the energy spectrum of the edge states and the corresponding electronic densities. As a result, the present theory paves the way to optical control of the topological phases in ring-based mesoscopic structures.
Proposal for an on-demand source of polarized electrons into the edges of a topological insulator
Tunneling through ferromagnetic barriers on the surface of a topological insulator
Accumulative magnetic switching of ultra-high-density recording media by circularly polarized light
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