Switchable Metasurface with VO2 Thin Film at Visible Light by Changing Temperature

We numerically demonstrated switchable metasurfaces using a phase change material, VO2 by temperature change. The Pancharatnam-Berry metasurface was realized by using an array of Au nanorods on top of a thin VO2 film above an Au film, where the optical property of the VO2 film is switched from the insulator phase at low temperature to the metal phase at high temperature. At the optimal structure, polarization conversion efficiency of the normal incident light is about 75% at low temperature while that is less than 0.5% at high temperature in the visible region (lambda similar to 700 nm). Various functionalities of switchable metasurfaces were demonstrated such as polarization conversion, beam steering, Fourier hologram, and Fresnel hologram. The thin-VO2-film-based switchable metasurface can be a good candidate for various switchable metasurface devices, for example, temperature dependent optical sensors, beamforming antennas, and display.

Automated summary

Researchers have successfully demonstrated switchable metasurfaces using phase change material VO2 by temperature change, showing various functionalities such as polarization conversion, beam steering, Fourier hologram, and Fresnel hologram. The thin-VO2-film-based metasurface has potential applications in temperature-dependent optical sensors and displays.