Highly photorefractive hybrid liquid crystal device for a video-rate holographic display | Zendy

Xiao Li | Zendy; Yan Li | Zendy; Ying Xiang | Zendy; Na Rong | Zendy; Pengcheng Zhou | Zendy; Shuxin Liu | Zendy; Jiangang Lü | Zendy; Yikai Su | Zendy

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Highly photorefractive hybrid liquid crystal device for a video-rate holographic display

Author(s) -

Xiao Li,

Yan Li,

Ying Xiang,

Na Rong,

Pengcheng Zhou,

Shuxin Liu,

Jiangang Lü,

Yikai Su

Publication year - 2016

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.24.008824

Subject(s) - holography , photorefractive effect , materials science , optics , optoelectronics , holographic display , grating , liquid crystal , diffraction efficiency , doping , photosensitivity , physics

In this paper, we demonstrate a dynamic holographic display in a quantum dot (ZnS/InP) doped liquid crystal device, where one of the interior cell surfaces is covered by a ZnSe layer. Such a hybrid device shows substantially improved photorefractive sensitivity of 2.2 cm 3 /J, which is almost 300 times larger than that in ZnS/InP doped liquid crystal device without the ZnSe layer. The holographic grating can form at intensities as low as ~0.8 mW/cm 2 , and exhibit a fast optical response of several to tens of milliseconds. Exploiting the superior performances of photosensitivity and fast response of this device, we obtain dynamic holographic videos of red, green, and blue colors, as well as a reconstructed image of high gray-scale fidelity.

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