@article{b0dfe3222bd64cfaac1b5ed7c49156c0,
title = "Optical reflective metasurfaces based on mirror-coupled slot antennas",
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.",
author = "Sven Ebel and Yadong Deng and Mario Hentschel and Chao Meng and Sande, {S{\"o}ren im} and Harald Giessen and Fei Ding and Bozhevolnyi, {Sergey I.}",
year = "2023",
month = jan,
day = "2",
doi = "10.1117/1.apn.2.1.016005",
language = "English",
volume = "2",
journal = "Advanced Photonics Nexus",
issn = "2791-1519",
publisher = "SPIE - International Society for Optical Engineering",
number = "1",
}