Microsystems & Nanoengineering (Mar 2021)
Optical spin-symmetry breaking for high-efficiency directional helicity-multiplexed metaholograms
Abstract
Holography: Metasurfaces based on asymmetrical spin-orbit interactions (SOIs) Metasurfaces are thin films composed of different elements that provide an efficient, miniaturized platform for nano-optics, and a metasurface based on asymmetrical SOIs has been developed that overcomes the limitations with metasurfaces using symmetrical SOIs. Owing to their ability to accommodate the wavefronts of light at the sub-wavelength scale, metasurfaces have found wide application in displays, communications, and data storage. However, metasurfaces based on symmetrical SOIs have limitations with holographic imaging. A team headed by Junsuk Rho at Pohang University of Science and Technology (POSTECH), South Korea has succeeded in designing a metasurface based on asymmetrical SOIs that operates in the visible light domain using low-loss dielectric materials. The team employed a simple, cost-effective fabrication method, and the design offers considerable potential for applications in such areas as asymmetric data inscription and smartphone displays.