Spectral Phase-Encoding Of Addresses For Optical Data Storage In Frequency Selective Media

H. Sõnajalg, A. Débarre, J. Le Gouët, I. Lorgeré, P. Tchénio
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Abstract

The persistent spectral hole burning property is known to add a fourth dimension to the optical data storage volume. Full advantage of the large capacity of such memories and of the intrinsic parallelism due to their optical nature can be taken in an application such as image storage. In this frame, the read-out operation has to be effected at video rate at least. This is not achieved by currently developed image-addressing methods. The present paper proposes a new procedure to overcome the so far encountered limitations.
频率选择介质中光数据存储地址的频谱相位编码
已知持续的光谱孔燃烧特性为光学数据存储体积增加了第四维。在图象存储等应用中,可以充分利用这种存储器的大容量和由于其光学性质所固有的并行性。在这个帧中,读出操作必须至少以视频速率进行。这是目前开发的图像寻址方法无法实现的。本文提出了一种新的程序来克服迄今为止遇到的局限性。
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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