Optical Correlation System Based on Photorefractive Polymer and Polysilane Phase Mask

Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals Pub Date : 2001-10-01 DOI:10.1080/10587250108030050

Tetsuo Sato, N. Nagayama, M. Yokoyama

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引用次数: 3

Abstract

Abstract Modification of the refractive index of polysilanes due to the UV-photodecomposition and its application to phase mask were investigated. From the wavelength dependence of UV-photodecomposition in the poly[methyl(phenyl) silane] (PMPS) film, the refractive index was found to be effectively lowered by eliminating phenyl side-group with shorter wavelength UV light. It was also confirmed that the phase difference information could be recordable by utilizing such refractive index changes in PMPS films. Utilizing the 4-f matched-filter architecture based on the four-wave mixing with photorefractive polymers as the optical correlator, the occurrence of large correlation signal was successfully observed only when the image written in the PMPS phase mask was coincident with the phase difference pattern on the PMPS film as a reference. This result indicates that the polysilane films with UV-photodecomposition pattern can be useful for the phase difference mask in the optical correlation system.

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基于光折变聚合物和聚硅烷相掩膜的光学相关系统

摘要研究了紫外光分解对聚硅烷折射率的影响及其在相掩膜中的应用。从紫外光对聚甲基(苯基)硅烷(PMPS)薄膜光分解的波长依赖性来看，用较短波长的紫外光去除苯基侧基可以有效降低薄膜的折射率。还证实了利用PMPS薄膜的折射率变化可以记录相位差信息。利用基于光折变聚合物的四波混频的4-f匹配滤波器结构作为光学相关器，仅当写入PMPS相位掩模的图像与作为参考的PMPS膜上的相位差模式一致时，才成功地观察到大相关信号的出现。这一结果表明，具有紫外光分解模式的聚硅烷薄膜可用于光学相关系统的相位差掩膜。

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Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals

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