Femtosecond laser plasmonic nano-printing metasurfaces for multiple-dimensional manipulation of light fields

Huachao Cheng; Sheng Liu; Sheng Liu; Peng Li; Peng Li; Feng Liu; Xuetao Gan; Xuyue Guo; Shuxia Qi; Jinzhan Zhong; Jianlin Zhao; Jianlin Zhao

doi:10.1364/OL.455328

Optics Letters
Vol. 47,
Issue 9,
pp. 2290-2293
(2022)
•https://doi.org/10.1364/OL.455328

Femtosecond laser plasmonic nano-printing metasurfaces for multiple-dimensional manipulation of light fields

Huachao Cheng, Sheng Liu, Peng Li, Feng Liu, Xuetao Gan, Xuyue Guo, Shuxia Qi, Jinzhan Zhong, and Jianlin Zhao

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Huachao Cheng, Sheng Liu, Peng Li, Feng Liu, Xuetao Gan, Xuyue Guo, Shuxia Qi, Jinzhan Zhong, and Jianlin Zhao, "Femtosecond laser plasmonic nano-printing metasurfaces for multiple-dimensional manipulation of light fields," Opt. Lett. 47, 2290-2293 (2022)

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Abstract

Metasurfaces enable the multidimensional manipulation of light fields in a subwavelength scale. However, the low-cost preparation of large-area metasurfaces is still a challenge. In this Letter, we first, to the best of our knowledge, use the laser plasmonic nano-printing technique to efficiently manufacture metasurfaces with multidimensional manipulation capability. By utilizing a phase-polarization mapping method, we fabricated a silicon-based metasurface for color display, and indium tin oxide-based metasurfaces for decoupled near- and far-field holographic displays. This flexible and efficient laser plasmonic nano-printing method has great potential in the preparation of large-area metasurfaces, and is of great significance to promote the practical application of metasurfaces.

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