Metasurface-Based Holographic Display With All-Dielectric Meta-Axilens

In a classical metasurface-based holographic display system, a clear holographic reconstruction image can be obtained only in the back-focal-plane of the lens. However, when the receiving plane deviates from the focal plane, the reconstructed holographic image suffers from degradations that limit th...

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Veröffentlicht in:	IEEE photonics journal 2021-10, Vol.13 (5), p.1-5
Hauptverfasser:	Shen, Chuan, Xu, Rulin, Sun, Jiali, Wang, Zhuang, Wei, Sui
Format:	Artikel
Sprache:	eng
Schlagworte:	Display devices Focal plane holographic display Holographic optical components Holography Image degradation Image quality Image reconstruction Information storage Lenses meta-axilens Metasurface Metasurfaces Optical components Optical diffraction Optical imaging Optical sensors Wave fronts
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creator	Shen, Chuan Xu, Rulin Sun, Jiali Wang, Zhuang Wei, Sui
description	In a classical metasurface-based holographic display system, a clear holographic reconstruction image can be obtained only in the back-focal-plane of the lens. However, when the receiving plane deviates from the focal plane, the reconstructed holographic image suffers from degradations that limit the quality of the images. Hence, we propose a novel metasurface-based holographic display to realize clearly continuous imaging within the specified position range by superimposing the meta-axilens phase. It can effectively relieve the alignment requirements of the imaging system. Firstly, the parameters and properties of all-dielectric meta-atom is analyzed. Then we compare and demonstrate two sets of metasurface-based optical elements (meta-axicon, meta-lens, and meta-axilens), made by silicon meta-atoms working at 610 nm. Furthermore, we show that the metasurface hologram with the axilens phase can form a series of the relatively clear holographic images away from the focal plane. Our proposal suggests a method to reconstruct holographic wavefront in different planes simultaneously, and one can find their application domain, such as 3D biological imaging, spectroscopy, optical information storage, and encryption.
doi_str_mv	10.1109/JPHOT.2021.3107442
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subjects	Display devices Focal plane holographic display Holographic optical components Holography Image degradation Image quality Image reconstruction Information storage Lenses meta-axilens Metasurface Metasurfaces Optical components Optical diffraction Optical imaging Optical sensors Wave fronts
title	Metasurface-Based Holographic Display With All-Dielectric Meta-Axilens
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