Browsing by Author "Landais, Pascal"
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Publication Open Access Reprogrammable metasurface design for NIR beam steering and active filtering(Institute of Physics Publishing Ltd., 2024-07-24) Hajian, Hodjat; Proffit, Matthieu; Özbay, Ekmel; Landais, Pascal; Bradley, A. LouiseReprogrammable metasurfaces enable active modulation of light at subwavelength scales. Operating in the microwave, terahertz, and mid-infrared ranges, these metasurfaces find applications in communications, sensing, and imaging. Electrically tunable metasurfaces operating in the near-infrared (NIR) range are crucial for light detection and ranging (LiDAR) applications. Achieving a NIR reprogrammable metasurface requires individual gating of nano-antennas, emphasizing effective heat management to preserve device performance. To this end, here we propose an electrically tunable Au-vanadium dioxide (VO2) metasurface design on top of a one-dimensional Si-Al2O3 photonic crystal (PC), positioned on a SiC substrate. Each individual Au-VO2 nano-antenna is switched from an Off to ON state via Joule heating, enabling the programming of the metasurface using 1-bit (binary) control. While operating as a nearly perfect reflector at lambda(0)=1.55 mu m, the materials, thickness, and number of the layers in the PC are carefully chosen to ensure it acts as a thermal metamaterial. Moreover, with high optical efficiency (R similar to 40% at lambda(0)), appropriate thermal performance, and feasibility, the metasurface also enables broadband programmable beam steering in the 1.4-1.7 mu m range for a wide steering angle range. This metasurface design also offers active control over NIR light transmittance, reflectance and absorptance in the wavelength range of 0.75-3 mu m. These characteristics render the device practical for LiDAR and active filtering.