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W2968803334 abstract "Nonlinear holography enables optical beam generation and holographic image reconstruction at new frequencies other than the excitation fundamental frequency, providing pathways toward unprecedented applications in optical information processing and data security. So far, plasmonic metasurfaces with the thickness of tens of nanometers have been mostly adopted for realizing nonlinear holograms with the potential of on-chip integration but suffering from low conversion efficiency and high absorption loss. Here, we report a nonlinear transition metal dichalcogenide (TMD) hologram with high conversion efficiency and atomic thickness made of only single nanopatterned tungsten disulfide (WS2) monolayer, for producing optical vortex beams and Airy beams as well as reconstructing complex holographic images at the second harmonic (SH) frequency. Our concept of nonlinear TMD holograms paves the way toward not only the understanding of light-matter interactions at the atomic level but the integration of functional TMD-based devices with atomic thickness into the next-generation photonic circuits for optical communication, high-density optical data storage, and information security." @default.
W2968803334 created "2019-08-22" @default.
W2968803334 creator A5006889441 @default.
W2968803334 creator A5054080435 @default.
W2968803334 creator A5056768459 @default.
W2968803334 date "2019-08-16" @default.
W2968803334 modified "2023-10-03" @default.
W2968803334 title "Atomically Thin Nonlinear Transition Metal Dichalcogenide Holograms" @default.
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W2968803334 doi "https://doi.org/10.1021/acs.nanolett.9b02740" @default.
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