全息数据存储用光聚合物材料的优化研究进展

Jinxin Guo, M. R. Gleeson, J. Sheridan
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引用次数: 73

摘要

光聚合物是一种非常有趣的光学敏感记录介质,因为它们是一种廉价的自处理材料,能够捕获低损耗、高保真的3D照明模式的体积记录。我们编写本文的部分目的是为了能够认识到突出的问题,特别是全息数据存储介质中数据存储容量的限制。为了进一步提高数据存储能力和存储信息的质量,即材料的灵敏度和分辨率,深入了解这些材料以改进它们变得越来越重要。本文简要综述了用于全息数据存储(HDS)应用的光聚合物材料的优化。介绍了每项工作的主要贡献,并提出了许多改进不同光聚合物材料的建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Review of the Optimisation of Photopolymer Materials for Holographic Data Storage
Photopolymers are very interesting as optically sensitive recording media due to the fact that they are inexpensive, self-processing materials with the ability to capture low-loss, high-fidelity volume recordings of 3D illuminating patterns. We have prepared this paper in part in order to enable the recognition of outstanding issues, which limit in particular the data storage capacity in holographic data storage media. In an attempt to further develop the data storage capacity and quality of the information stored, that is, the material sensitivity and resolution, a deeper understanding of such materials in order to improve them has become ever more crucial. In this paper a brief review of the optimisation of photopolymer materials for holographic data storage (HDS) applications is described. The key contributions of each work examined and many of the suggestions made for the improvement of the different photopolymer material discussed are presented.
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