Applied Sciences (Jan 2020)

Mid-Infrared Grayscale Metasurface Holograms

  • Kedi Wu,
  • Nicolas Kossowski,
  • Haodong Qiu,
  • Hong Wang,
  • Qijie Wang,
  • Patrice Genevet

DOI
https://doi.org/10.3390/app10020552
Journal volume & issue
Vol. 10, no. 2
p. 552

Abstract

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Optical metasurfaces composed of two-dimensional arrays of densely packed nanostructures can project arbitrary holographic images at mid-infrared frequency. Our approach employs silicon nanopillars to control light properties, including polarization-independent phase response working with high-transmission efficiency over the 2π-phase modulation range at wavelength 4.7 μm. We experimentally dispose nanopillars accordingly to phase-only profiles calculated using the conventional Gerchberg−Saxton algorithm and revealed the optical performances of our devices using a mid-infrared on-axis optical setup. The total efficiency of our reflection hologram reaches 81%. Our experimental results agree well with the image of the desired object, opening up new perspectives for mid-infrared imaging and displaying for military, life science and sensing application.

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