Litcius/Paper detail

Full-space metasurface holograms in the visible range

Guoxing Zheng, Nan Zhou, Liangui Deng, Gongfa Li, Jin Tao, Zile Li

2021Optics Express63 citationsDOIOpen Access PDF

Abstract

Conventional metasurface holography is usually implemented in either transmission space or reflection space. Herein, we show a dielectric metasurface that can simultaneously project two independent holographic images in the transmission and reflection spaces, respectively, merely with a single-layer design approach. Specifically, two types of dielectric nanobricks in a nanostructured metasurface are employed to act as half-wave plates for geometric phase modulation. One type of nanobrick is designed to reflect most of incident circularly-polarized light into reflection space, enabled with magnetic resonance, while another type of nanobrick transmits it into transmission space, without resonance involved. By controlling the orientation angles and randomly interleaving the two types of nanobricks to form a metasurface, a full-space metasurface hologram can be established. We experimentally demonstrate this trans-reflective meta-holography by encoding the geometric phase information of two independent images into a single metasurface, and all observed holographic images agree well with our predictions. Our research expands the field-of-view of metasurface holography from half- to full-space, which can find its markets in optical sensing, image displays, optical storages and many other potential applications.

Topics & Concepts

HolographyOpticsReflection (computer programming)Transmission (telecommunications)InterleavingDielectricPhysicsHolographic displayPhase (matter)OptoelectronicsComputer scienceTelecommunicationsProgramming languageOperating systemQuantum mechanicsMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesAntenna Design and Analysis