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A kind of preparation method of color holographic polymer dispersed liquid crystal grating

A technology for dispersing liquid crystals and polymers, applied in the direction of diffraction gratings, optics, optical components, etc., can solve the problems that the exposure of 632.8nm red laser and 441.6nm blue laser cannot be realized, and the chromatic aberration of the display system cannot be solved, and achieve high repetition rate, Solve the effect of chromatic aberration

Active Publication Date: 2018-06-26
UNIV OF SHANGHAI FOR SCI & TECH +1
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Problems solved by technology

[0007] Although we have proposed the use of electronically controlled holographic polymer dispersed liquid crystal gratings to achieve stereoscopic display functions, but the usual gratings are only exposed to 532nm green lasers, and cannot realize the exposure of 632.8nm red lasers and 441.6nm blue lasers, so it cannot solve the problem of display systems. Existing chromatic aberration problem

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  • A kind of preparation method of color holographic polymer dispersed liquid crystal grating
  • A kind of preparation method of color holographic polymer dispersed liquid crystal grating
  • A kind of preparation method of color holographic polymer dispersed liquid crystal grating

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Embodiment Construction

[0046] Such as figure 1 Shown is the optical path diagram prepared by holographic polymer dispersed liquid crystal grating, and the preparation steps of holographic polymer dispersed liquid crystal grating to realize the beam splitting function of stereoscopic display images are as follows:

[0047] 1. Construct multiple laser beams into one optical path: build He-Ne laser 101 (wavelength 632.8nm), beam splitting prisms 201, 203 coaxially in sequence, and keep them level with the platform, and then semiconductor-pumped solid-state laser 102 ( wavelength is 532nm), He-Cd laser 103 (wavelength is 441.6nm) is respectively placed on one side of two beam splitting prisms 201, 202, and the two beams of laser light are shot on the beam splitting prisms 201, 202 respectively, and the directions of the two beams of laser light and He The output laser direction of the Ne laser 101 is vertical, carefully adjust the positions of the lasers 101, 102, 103 and the beam splitting prisms 201, ...

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Abstract

The invention relates to a method for preparing a color holographic polymer dispersed liquid crystal grating. According to the method, a multi-band exposure light path is set up, a reflection type liquid crystal spatial light modulator is adopted, different pictures with black and white strips are loaded on the reflection type liquid crystal spatial light modulator, and different sub-gratings are prepared; in this way, the devices of the light path do not need to be moved at all during exposure, convenience and fastness are realized, and repeatability is high; besides, due to the fact that exposure is conducted by means of RGB laser light and exposure angle remains unchanged, red light, green light and blue light on a displayer can be emitted at the same emergent angle based on the holographic recording and reconstruction principle, and chromatism-free stereo display image beam splitting is achieved; the polymer dispersed liquid crystal material adopted is a multi-light initiator and assisted initiator concurrent material, and the polymer dispersed liquid crystal material obtained finally can achieve exposure at multiple bands including red light 632.8 nm, green light 532 nm and blue light 441.6 nm. The left eye and right eye image beam splitting function is achieved in stereo display. The method has the advantages that image beam splitting effect is good and chromatism is completely avoided.

Description

technical field [0001] The invention relates to a stereoscopic display technology, in particular to a method for preparing a color holographic polymer dispersed liquid crystal grating for realizing the beam splitting function of a stereoscopic display image. Background technique [0002] The distance between the pupils of the human eyes in the horizontal direction is about 65mm. Therefore, when observing the same object, there will be two slightly different viewing angles. Due to optical projection, the image points with different distances from the observer fall on the retinas of the left and right eyes correspondingly. This horizontal disparity on the retinas of the two eyes is called binocular parallax, which forms stereoscopic vision in the human brain through the fusion of neural networks. [0003] At present, most stereoscopic display systems obtain stereoscopic vision based on the mechanism of binocular perception of stereoscopic information. Early stereoscopic displ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G02F1/1334G02B5/18G02B27/22
CPCG02B5/1857G02B30/27G02B2005/1804G02F1/13342
Inventor 王康妮郑继红高辉陆飞跃李道萍桂坤陈轶阳王青青郑拓庄松林
Owner UNIV OF SHANGHAI FOR SCI & TECH
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