R. Sokhoyan, M. Grajower, E. Feigenbaum, S. Elhadj, H. Atwater
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Electrically controlled active metasurfaces for free space optical communications
Active metasurfaces designed to operate at optical frequencies are a new class of flat optical elements that can dynamically control the wavefront of the reflected or transmitted light at a subwavelength scale. Here, we estimate the feasibility of using gate-tunable conducting oxide metasurfaces as electrically steerable apertures for free space optical communications. Our optical link budget analysis shows that for pulse energies of 1 mJ, free space optical communication at distances of 100000 km is possible. We further elaborate our analysis by adopting a system design approach and refining our optical link budget analysis.
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