Jie Ou scite author profile

Jie Ou

3Publications

13Citation Statements Received

71Citation Statements Given

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University of South China

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Near-infrared dual-wavelength plasmonic switching and digital metasurface unveiled by plasmonic Fano resonance

Luo

et al. 2020

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Plasmonic Fano resonance (FR) that contributes to multitudinous potential applications in subwavelength nanostructures can facilitate the realization of tunable wavelength selectivity for controlling light–matter interactions in metasurfaces. However, the plasmonic FR can be generated in metasurfaces with simple or complex geometries, and few of them can support flexible amplitude modulation and multiwavelength information transfer and processing. Here, we study the near-infrared plasmonic FR in a hybrid metasurface composed of concentrically hybridized parabolic-hole and circular-ring-aperture unit cells, which can induce polarization-dependent dual-wavelength passive plasmonic switching (PPS) and digital metasurface (DM). It is shown that the designable plasmonic FR can be realized by changing the geometric configurations of the unit cells. In particular, owing to the polarization-dependent characteristic of FR, it is possible to fulfill a compact dual-wavelength PPS with high ON/OFF ratios in the related optical communication bands. Moreover, such PPS that manipulates the amplitude response of the transmitted spectrum is an efficient way to reveal a 1-bit DM, which can also be rationally extended to a 2-bit DM or more. Our results suggest a pathway for studying polarization-dependent PPS and programmable metasurface devices, yielding possibilities for subwavelength nanostructures in optical communication and information processing.

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Near- and mid-infrared plasmonic Fano resonances induced by different geometric configurations in subwavelength nanostructures

Luo

et al. 2020

Physica E: Low-dimensional Systems and Nanostructures

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Whispering-gallery mode resonance-assisted plasmonic sensing and switching in subwavelength nanostructures

Luo

et al. 2020

J Mater Sci

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Jie Ou

Near-infrared dual-wavelength plasmonic switching and digital metasurface unveiled by plasmonic Fano resonance

Near- and mid-infrared plasmonic Fano resonances induced by different geometric configurations in subwavelength nanostructures

Whispering-gallery mode resonance-assisted plasmonic sensing and switching in subwavelength nanostructures

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