Optical reflective metasurfaces based on mirror-coupled slot antennas

Sven Ebel, Yadong Deng, Mario Hentschel, Chao Meng, Sören im Sande, Harald Giessen, Fei Ding*, Sergey I. Bozhevolnyi

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Abstract

Electrically connected optical metasurfaces with high efficiencies are crucial for developing spatiotemporal metadevices with ultrahigh spatial and ultrafast temporal resolutions. While efficient metal–insulator–metal (MIM) metasurfaces containing discretized meta-atoms require additional electrodes, Babinet-inspired slot-antenna-based plasmonic metasurfaces suffer from low efficiencies and limited phase coverage for copolarized optical fields. Capitalizing on the concepts of conventional MIM and slot-antenna metasurfaces, we design and experimentally demonstrate a new type of optical reflective metasurfaces consisting of mirror-coupled slot antennas (MCSAs). By tuning the dimensions of rectangular-shaped nanoapertures atop a dielectric-coated gold mirror, we achieve efficient phase modulation within a sufficiently large range of 320 deg and realize functional phase-gradient metadevices for beam steering and beam splitting in the near-infrared range. The fabricated samples show (22 % ± 2 % ) diffraction efficiency for beam steering and (17 % ± 1 % ) for beam splitting at the wavelength of 790 nm. The considered MCSA configuration, dispensing with auxiliary electrodes, offers an alternative and promising platform for electrically controlled reflective spatiotemporal metasurfaces.
OriginalsprogEngelsk
Artikelnummer016005
TidsskriftAdvanced Photonics Nexus
Vol/bind2
Udgave nummer1
Antal sider9
ISSN2791-1519
DOI
StatusUdgivet - 2. jan. 2023

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