High Speed Time-Frequency Domain Holographic Storage

X. Shen, Y. Bai, R. Kachru
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Abstract

Image storage in coherent time-domain optical memory (CTDOM) has been demonstrated successfully by using high-power pulsed lasers.1-2 Like photochemical hole burning3 and photorefractives,4 this time-domain approach to image storage has the potential of offering ultrahigh storage density and fast data access time. Unlike other optical memories, CTDOM is capable of providing ultrahigh image transfer rates and offers features such as in-memory image processing.5 However, difficulties arise in using the conventional time-domain approach to image storage, namely multiple images per frequency channel. For example, existing image composers such as an electronically-addressed spatial light modulators (SLM) do not have switching times fast enough to accommodate the required recording speeds (≳ MHz). High-power pulsed lasers are needed to make retrieved images detectable by electronic cameras. In addition, features such as random frame (or page) access and variable playback speed are not available with the conventional approach.
高速时频全息存储
利用高功率脉冲激光器成功地实现了相干时域光存储器(CTDOM)中的图像存储。1-2像光化学烧孔法和光折射法一样,这种时域图像存储方法具有提供超高存储密度和快速数据访问时间的潜力。与其他光学存储器不同,CTDOM能够提供超高的图像传输速率,并提供内存图像处理等功能然而,使用传统的时域图像存储方法,即每个频率通道多幅图像,会出现困难。例如,现有的图像编码器,如电子寻址空间光调制器(SLM)的切换时间不够快,无法适应所需的记录速度(≥MHz)。高功率脉冲激光器需要使电子摄像机检测到检索到的图像。此外,诸如随机帧(或页面)访问和可变播放速度等特性在传统方法中是不可用的。
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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