authors
- ALGORRI GENARO, JOSE FRANCISCO
- GARCIA CAMARA, BRAULIO
- CUADRADO, ALEXANDER
- SANCHEZ PENA, JOSE MANUEL
- VERGAZ BENITO, RICARDO
Selective Dielectric Metasurfaces Based on Directional Conditions of Silicon Nanopillars
Articles
Overview
published in
- Nanomaterials Journal
publication date
- July 2017
issue
- 7
volume
- 7
Digital Object Identifier (DOI)
full text
International Standard Serial Number (ISSN)
- 2079-4991
abstract
- Dielectric metasurfaces based on high refractive index materials have been proposed recently. This type of structure has several advantages over their metallic counterparts. In this work, we demonstrate that dielectric metasurfaces can be theoretically designed satisfying Kerker's zero-forward condition. This is the first time that a dielectric metasurface based on this principle has been designed. A selective dielectric metasurface of silicon nanopillars is designed to work at 632.8 nm. This structure could work both as a dielectric mirror and a reject band filter. Furthermore, by scaling up the structure, it could be possible to manufacture a terahertz (THz) dielectric mirror.
Classification
subjects
- Electronics
keywords
- nanophotonics; nanoparticles; metamaterials; silicon photonics