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首页> 外文期刊>Applied optics >Design approaches with a lenslet array and a single, high-numerical-aperture annular-field objective lens for optical data storage systems that incorporate large numbers of parallel read-write-erase channels
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Design approaches with a lenslet array and a single, high-numerical-aperture annular-field objective lens for optical data storage systems that incorporate large numbers of parallel read-write-erase channels

机译:具有小透镜阵列和单个高数值孔径环形场物镜的设计方法,用于光学数据存储系统,该系统包含大量并行读写读写通道

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摘要

To achieve very high data rates (>10~(9) bits/s) in optical data storage systems it is necessary to employ a large number of laser beams for parallel read-write-erase operations. Bringing all these beams to diffraction-limited focus with a high-numerical-aperture objective lens (while maintaining focus and tracking) requires techniques that are fundamentally different from those that are currently practiced in the field of optical data storage. We present two possible solutions to the problem of designing an objective lens for such systems, one involving an array of high-quality lenslets and the other based on a single, high-numerical-aperture annular-field-of-view conventional lens. Both approaches have advantages and disadvantages, on which we elaborate in the course of our discussions.
机译:为了在光学数据存储系统中实现非常高的数据速率(> 10〜(9)bits / s),必须采用大量激光束进行并行读写擦除操作。使用高数值孔径的物镜将所有这些光束聚焦到衍射受限的焦点上(同时保持聚焦和跟踪),要求的技术与光学数据存储领域目前实际应用的技术根本不同。对于这种系统的物镜设计问题,我们提出了两种可能的解决方案,一种涉及高质量小透镜阵列,另一种基于单个高数值孔径环形视场常规透镜。两种方法都有其优点和缺点,我们在讨论过程中会详细说明。

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