Issue 11, 2020

Polarization-dependent asymmetric transmission using a bifacial metasurface

Abstract

One of the most important research topic in optics and photonics is the design of metasurfaces to substitute conventional optical elements that demonstrate unprecedented merits in terms of performance and form factor. In this context, full-space control of metasurfaces that makes it possible to manipulate scattered light in transmission and reflection spaces simultaneously, is proposed as the next-generation scheme in optics, with a potential for applications such as 360° holographic images and novel optical systems. However, previously designed metasurfaces lacked functionality because the desired operation occurs under preconditioned light; therefore, they are difficult to use in real applications. Here, we present a design method that enables polarization-dependent full-space control, in which two independent and arbitrary phase profiles can be addressed to each space. Upon introducing a phase gradient value to realize the critical angle condition, conversion of transmissive into reflective operation is realized. Then, rectangular nanopillars are utilized to facilitate polarization beam splitting with the desired phase. Three samples were fabricated and measured based on the proposed scheme.

Graphical abstract: Polarization-dependent asymmetric transmission using a bifacial metasurface

Supplementary files

Article information

Article type
Communication
Submitted
25 May 2020
Accepted
04 Sep 2020
First published
07 Sep 2020
This article is Open Access
Creative Commons BY license

Nanoscale Horiz., 2020,5, 1487-1495

Polarization-dependent asymmetric transmission using a bifacial metasurface

J. Sung, G. Lee, C. Choi, J. Hong and B. Lee, Nanoscale Horiz., 2020, 5, 1487 DOI: 10.1039/D0NH00319K

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