All-medium metasurface color printing and holographic encryption co-modulation method

A technology of color printing and modulation method, applied in the direction of instruments, etc., can solve the problems of difficult processing, complicated design, insufficient controllability, etc., and achieve the effect of simple and fast processing, high information capacity, and strong controllability

Active Publication Date: 2019-11-12
BEIJING INSTITUTE OF TECHNOLOGYGY
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Obviously, the design and processing of the basic modulation unit composed of integrated structures of this kind of metasurface are relatively complicated and inefficient.
[2]Yoon,G.,Lee,D.,Nam,K.T.&Rho,J."Crypto-Display"in Dual-Mode metasurfaces by simultaneous control of phase and spectral responses[J].ACSNano,2018,12:6421-6428 .Different structural colors were modulated by using two dielectric nanoantennas in the color printing mode, but the structure was not optimized for the metasurface hologram mode, resulting in the two dielectric nanoantennas corresponding

Method used

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  • All-medium metasurface color printing and holographic encryption co-modulation method
  • All-medium metasurface color printing and holographic encryption co-modulation method
  • All-medium metasurface color printing and holographic encryption co-modulation method

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Embodiment 1

[0031] Based on the simultaneous modulation of spectral and spatial information on the all-dielectric metasurface, the metasurface color printing technology and wavelength-multiplexed metasurface holograms are integrated into a single-layer all-dielectric metasurface.

[0032] like figure 1 As shown, this embodiment includes the following steps:

[0033] Step 1: Use a variety of dielectric nanoantennas with spectral responses corresponding to different structural colors as basic components to construct an all-dielectric metasurface, and arrange different dielectric nanoantennas into different spatial regions according to the color printing target pattern, thereby Realize color printing on ultra-fine surface.

[0034] At the same time, in order to independently modulate the spatial phase information while modulating the spectral information, the geometric phase modulation principle is used to realize the phase modulation, and the azimuth angle of the dielectric nanoantenna is ...

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Abstract

The invention relates to an all-medium metasurface color printing and holographic encryption co-modulation method, which belongs to the technical field of micro-nano optics. The method uses an amorphous silicon-coupled polar antenna and an amorphous silicon nanorod antenna with different spectral responses to spatially arrange a color-printed target pattern on the metasurface, the in-plane azimuthis used at the same time to take a pixel as a unit to code the spatial phase distribution of a metasurface hologram corresponding to a different wavelength, the metasurface color printing technologyand a wavelength-multiplexed metasurface hologram set are integrated in a single-layer all-medium metasurface. The all-medium metasurface is rendered as a micro-color image under the illumination of white light. Different holographic reconstruction images are reconstructed in a far field under irradiation of coherent monochromatic lasers with specific wavelengths, and the information capacity is extremely high. The invention also provides a method of hiding secret information, which has great potential in many fields such as data storage, holographic display, information encryption, and forgery prevention.

Description

technical field [0001] The invention relates to a metasurface wavefront modulation method, in particular to a method for co-modulating all-dielectric metasurface color printing and holographic encryption, and belongs to the technical fields of micro-nano optics, structural color printing, holographic display, and information encryption applications. Background technique [0002] Metasurfaces are usually composed of periodic, quasi-periodic, or randomly arranged metal or dielectric nanoantenna arrays with subwavelength dimensions, which can perform high-resolution modulation of the amplitude and phase of the light field on a subwavelength scale, and are used in data storage, information processing, Beam shaping, micro-nano holography, polarization control and other fields have great potential. Among them, micro-nano holography, which combines holographic principles with metasurfaces, is a cutting-edge hot field. This technology can promote the miniaturization of holographic d...

Claims

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Application Information

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IPC IPC(8): G03H1/22G03H1/00
CPCG03H1/0011G03H1/22G03H2001/0088
Inventor 黄玲玲魏群烁王涌天李晓炜巴苏德布塞恩伯恩哈德雷尼克托马斯赞特格拉夫
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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