Image Transmission through Multimode Fiber and the Photorefractive Crystal

Photorefractive Materials, Effects, and Devices Pub Date : 1900-01-01 DOI:10.1364/pmed.1991.mc15
A. Gnatovskii, A. Volyar, N. Kukhtarev, S. Lapaeva
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Abstract

We describe the results of the image transmission through the multimode optical fiber and photorefractive crystal LiNbO3:Fe.Experiments were done with HeNe laser (λ =0.63μm), with multimode fiber of 70μm diameter, the aperture number 0.17 and 2m long. After passing an optical fiber light wave E1 were mixed with another coherent wave E2 at the photorefractive crystal. Amplitude mask was introduced in E2 wave and a dynamic hologram was recorded in the crystal through photogalvanṁc effect /1/.Retrieval of this hologram was done by another counterpropagating wave E3, which lead to difracted wave E4 conjugated to E1 with 1⊕% difraction efficiency after 3min. of hologram writing.
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多模光纤的图像传输和光折变晶体
描述了通过多模光纤和光折变晶体LiNbO3:Fe传输图像的结果。实验采用直径70μm、孔径0.17、长2m的多模光纤,波长λ =0.63μm的HeNe激光器。光波E1通过光纤后与另一相干波E2在光折变晶体处混合。在E2波中引入振幅掩模,通过photogalvanṁc效应/1/在晶体中记录动态全息图。利用另一个反传播波E3对该全息图进行反演,在3min后得到衍射波E4共轭到E1,衍射效率为1⊕%。全息书写。
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Photorefractive Materials, Effects, and Devices
Photorefractive Materials, Effects, and Devices
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