Flat Pathways to Maximum Optical Chirality
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Gorkunov, Maxim
Antonov, Alexander
Muljarov, Egor
Kivshar, Yuri
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Institute of Electrical and Electronics Engineers Inc.
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Abstract
Dielectric metasurfaces with eigenstates designed to selectively couple to circularly polarized light offer a game-changing platform for advanced chiral metaphotonics. Current designs rely on breaking the mirror symmetry by variable height, elevation or tilt of subwavelength meta-atoms, which complicates their fabrication. We discuss novel strategies for achieving maximum optical chirality with metasurfaces composed of flat layers processed with conventional two-dimensional lithography. Apart from extrinsic-chiral arrangements, which owe their broken mirror symmetry to a sample tilt, various single- and multi-layer designs are capable of maximizing intrinsic chirality at the normal incidence. We reveal specific conditions, when even weak symmetry-breaking effect of a transparent substrate can lead to maximum chirality.
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2024 18th International Congress on Artificial Materials for Novel Wave Phenomena, Metamaterials 2024
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