Switchable polarization manipulation, optical logical gates and conveyor belt based on U-shaped VO2 nanoholes

Abstract

Based on U-shaped plasmonic nanoholes in an Au-VO2-Au film, we propose to achieve several switchable functions at the telecom wavelength by transition from the VO2 semiconductive state to the metallic state. The first is the polarization manipulation of four different polarization states (x\&y-polarization, LCP, and RCP). An array of U-shaped holes constitutes of the high efficiency SPP splitter, and thus the spin-encoded optical logical gates can be achieved. Furthurmore, we prove that a nano-optical conveyor belt can be build up with such U-shaped holes, making the transport of nanoparticles over the film efficiency by transforming between two spin states periodically, and the transport direction switchably along with the VO2 phase.