MoOCl2 shows intrinsic plasmon-polariton canalization at the low-loss Drude crossing point, remaining directional over a broad window and tunable by thickness into the 4.5-6 μm range.
Nature Communications15(1), 9727 (2024)
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Ultrathin MoOCl2 flakes achieve deep-subwavelength broadband achromatic quarter-wave retardation in visible and near-infrared bands.
citing papers explorer
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Intrinsic plasmon canalization in the biaxial van der Waals crystal MoOCl$_2$
MoOCl2 shows intrinsic plasmon-polariton canalization at the low-loss Drude crossing point, remaining directional over a broad window and tunable by thickness into the 4.5-6 μm range.
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Deep-Subwavelength and Broadband Quarter-Wave Retardation in Ultrathin Hyperbolic MoOCl2
Ultrathin MoOCl2 flakes achieve deep-subwavelength broadband achromatic quarter-wave retardation in visible and near-infrared bands.