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为了分析光致聚合材料记录的谱面全息图在再现过程中发生"擦除"现象,将谱面全息图看作由不同角谱的物光与参考光在光致聚合材料内形成的不同倾斜角度的光栅总和.使用二波耦合理论分析全息图像再现时,由于光致聚合材料发生形体收缩,不同倾斜程度的光栅发生不同程度的变形,产生不同程度的布拉格失配带来的衍射效率变化.理论分析表明,材料收缩越严重,全息图再现质量越差.实验证明了理论分析的正确性,并表明使用无收缩光致聚合材料可以消除这种"擦除"现象. 相似文献
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A novel photopolymer storage medium for holographic storage is presented. In particular, the refractive in-dex of the monomer methyl methacrylate is much lower than that of the binder epoxy resin solidified by m-xylylenediamine, and the material can be developed into samples with dimension stability and high optical quality and thickness of several millimetres or more. Some none-polymeric macromolecule impurity is uniformly mixed into the medium to aid the monomer diffusing and to enhance the diffraction efficiency. A holographic recording medium of 0.8 mm thickness has been fabricated, and relative theoretical analysis and experiments are presented. 相似文献
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An important issue in developing applications for photopolymers in holography is the effect of shrinkage on recording properties. In this paper, we introduce a model to describe real-time formation of a single grating in photopolymers at any geometrical angle, under the assumption that the shrinkage is in proportion to the polymerization. This model combines polymerization kinetics with the coupled-wave theory, explaining the shrinkage effect on the diffraction efficiency. The model is validated by comparing its predictions with the experimental results for a film of 99μm thickness. 相似文献
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基于斯特林制冷式4×288元光伏型碲镉汞二维探测器, 根据红外扫描成像系统原理, 设计了一个扫描型长波红外连续变焦光学系统。根据系统指标要求对光学指标进行分解计算及光学优化设计得到系统的光学参数和外形结构图, 并对扫描光学系统的冷反射进行分析优化。该光学系统采用三次成像的结构, 由变焦望远镜组、扫描摆镜、中继镜组、成像镜组4部分组成, 包含9片透镜和2片反射镜。为了降低校正色差成本, 系统使用了硫系玻璃镜片。光学仿真结果表明:系统在耐奎斯特频率处的全视场光学传递函数大于0.35, 全视场畸变小于2%。最后, 对系统进行了成像实验验证, 结果表明:该系统可以实现30.8~154 mm范围内连续变焦, 变焦过程中目标景物清晰, 细节分辨率高, 无冷反射现象出现, 该系统具有分辨率高、热灵敏度高、像质清晰等特点。 相似文献
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We introduce a model to describe real-time grating formation in holographic photochromic diarylethene-doped polymeric thin films. This model, which combines photochromic chemical reaction with the coupled-wave theory,indicates that the grating recording time depends on the molecular absorption coefficient of molecules and the quantum yield of the photochromic reaction at a certain holographic recording intensity. The model is validated by comparing its predictions with the experimental results in which photochromic molecule 1,2-bis(2-methyl-5-(4-formylphenyl)-3-thienyl) perfluorocyclopentene doped PMMA films were used. 相似文献
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