Nanomaterials (Dec 2022)

Three-Channel Metasurfaces for Multi-Wavelength Holography and Nanoprinting

  • Zuyu Li,
  • Yuhang Zhang,
  • Jiadong Yuan,
  • Yuhan Hong,
  • Hongzhan Liu,
  • Jianping Guo,
  • Qiaofeng Dai,
  • Zhongchao Wei

DOI
https://doi.org/10.3390/nano13010183
Journal volume & issue
Vol. 13, no. 1
p. 183

Abstract

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Metasurfaces, employed to simultaneously generate nanoprinting and holographic images, have been extensively explored recently. Among them, multi-wavelength multiplexing in a single metasurface is often accompanied by dispersion and crosstalk, which hinder the display of multicolor patterns. Here, we propose an efficient phase method to decouple the wavelength and realize a three-channel display operating at different wavelengths. Holographic images appear in the far field with the illumination of two different circularly polarized lights while a nanoprinting image is reconstructed by inserting an orthogonal optical path with the illumination of linear polarization light. The proposed metasurface is only composed of four types of unit cells, which significantly decreases the complexity of fabrication and improves the information capacity. Benefiting from its different decoding strategies and capability of multi-wavelength control, this approach may develop broad applications in information encryption, security, and color display.

Keywords