4.8 Article

Coherent Pixel Design of Metasurfaces for Multidimensional Optical Control of Multiple Printing-Image Switching and Encoding

期刊

ADVANCED FUNCTIONAL MATERIALS
卷 28, 期 51, 页码 -

出版社

WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.201805306

关键词

coherent pixels; metasurfaces; multidimensional optical control; printing-image switching

资金

  1. National Key R&D Program of China [2016YFA0301300]
  2. National Natural Science Foundation of China [61675237, 91750207, 11761141015, 11334015, 11761131001, 11674402]
  3. Guangdong Natural Science Foundation [2016A030312012, 2018A030313333]
  4. Guangdong Natural Science Funds for Distinguished Young Scholars [2017B030306007]
  5. Guangzhou Science and Technology Projects [201607020023, 201805010004]
  6. Pearl River S&T Nova Program of Guangzhou [201806010033]
  7. Guangdong Special Support Program [2017TQ04C487]
  8. fundamental research funds for the central universities [16lgjc85]

向作者/读者索取更多资源

Printing image based on metasurface has attracted enormous research interests due to its subwavelength resolution, full-color printing, and durable properties. Based on the spatially multiplexed pixels, the printing image using metasurface can be switched optically by altering the optical parameters, such as polarization and incident wavelength. However, such multiplexed pixel design has several problems, including the cross-talk among different wavelengths, limitation to linear polarizations, and incapability for incident-angle control. Here, a general method for pixel design, called the coherent pixel, which can overcome the problems and be used for multiple printing-image switching controlled by arbitrary optical parameters (arbitrary incident angle, polarization, and wavelength) is proposed. Based on this coherent pixel, metasurface devices with novel functionalities can be realized, such as incident-angle controlled and arbitrary polarization-controlled printing images, which are not feasible with previous conventional pixel design method. The suitability and superiority of the coherent pixel for encryption application is also discussed. Such printing-image switching controlled with arbitrary optical parameters should pave the way for various applications, including various functional switchable optical devices, image displays, and information encryption.

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