Multiplexing of Holograms Based on Spatial Separation

Бюллетень науки и практики Pub Date : 2023-10-15 DOI:10.33619/2414-2948/95/01

K. Zhumaliev, Yu. Ismanov, S. Alymkulov

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Abstract

The analysis of multiplexing methods using spatial separation has been carried out. It is shown that space division multiplexing is possible when there is no Bragg sampling action. The action of the Bragg sampling, its features for the cases of thin-layer flat holograms and in a sufficiently thick medium of volume holograms are considered separately. Among the methods of multiplexing using spatial selection, the methods of fractal type multiplexing and rotational multiplexing are considered. Fractal-type multiplexing allows, when used simultaneously with angular-type multiplexing, up to 6000 holograms to be recorded in one area, while the total volume of the storage medium remains the same. Rotational multiplexing is a special case of fractal type multiplexing. This type of multiplexing is especially effective for storing holograms in rather thin-layer media. Similar to fractal-type multiplexing, in this type of multiplexing, more than one hologram is simultaneously reconstructed by the required reference wave. However, only the result of the reconstruction of one hologram turns out to be unbiased and is fixed by the CCD matrix. The difference between this method and fractal-type multiplexing is that the offset in rotational multiplexing is the result of rotation of the storage medium.

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基于空间分离的全息图复用

对基于空间分离的多路复用方法进行了分析。结果表明，在没有布拉格采样的情况下，空分复用是可行的。分别考虑了Bragg采样的作用及其在薄层平面全息图和在足够厚的体全息图介质中的特征。在空间选择复用方法中，考虑了分形复用方法和旋转复用方法。当分形型多路复用与角型多路复用同时使用时，一个区域最多可记录6000张全息图，而存储介质的总体积保持不变。旋转复用是分形复用的一种特殊情况。这种类型的多路复用对于在相当薄的层介质中存储全息图特别有效。类似于分形多路复用，在这种类型的多路复用中，多个全息图被所需的参考波同时重建。然而，只有一个全息图的重建结果是无偏的，并且被CCD矩阵固定。该方法与分形多路复用的区别在于旋转多路复用中的偏移量是存储介质旋转的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Бюллетень науки и практики

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