Advanced Lens Design for Bit-Wise Volumetric Optical Data Storage

Yan ZHANG; Tom D. MILSTER; Jai Soon KIM; Sang-Ki PARK

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Advanced Lens Design for Bit-Wise Volumetric Optical Data Storage

机译：用于逐位体积光学数据存储的高级镜头设计

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摘要

The storage capacity of a fluorescent bit-wise volumetric optical data storage system is limited by the inter-layer crosstalk and the maximum compensation range of spherical aberration induced by different layers inside the medium. Lens designs of far-field and near-field optical systems suitable for volumetric storage are presented. The maximum compensation range of each design is calculated. The storage densities of far-field and near-field confocal systems in terms of bits-in~(-2) are derived based on the maximum compensation ranges and appropriate data layer spacings that induce a -30 dB maximum level of inter-layer crosstalk. It is shown that an optimized near-field system is able to achieve 1.65 Tb-in~(-2) data density.

机译：荧光按位体积光学数据存储系统的存储容量受到层间串扰和介质内部不同层引起的球差的最大补偿范围的限制。介绍了适用于体积存储的远场和近场光学系统的镜头设计。计算每种设计的最大补偿范围。根据最大补偿范围和适当的数据层间隔（得出层间串扰的最大水平为-30 dB），得出bits-in〜（-2）表示的远场和近场共焦系统的存储密度。。结果表明，优化的近场系统能够实现1.65 Tb-in〜（-2）数据密度。

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来源
《Japanese Journal of Applied Physics. Part 1, Regular Papers & Short Notes》 |2004年第7b期|p.4929-4936|共8页
作者
Yan ZHANG; Tom D. MILSTER; Jai Soon KIM; Sang-Ki PARK;
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作者单位

Optical Sciences Center, University of Arizona, Tucson, Arizona 85721, U.S.A.;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
near-field optical storage; crosstalk; signal-to-noise ratio; volumetric data storage;

机译：近场光存储;串扰;信噪比;体积数据存储;

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1. Master and Slave Beam Servo Technique for Volumetric Bit-Wise Optical Data Storage [J] . Sang-Ki PARK, Tom D. MILSTER, Tim M. MILLER, Japanese Journal of Applied Physics. Part 1, Regular Papers & Short Notes . 2005,第5B期

机译：主和从光束伺服技术用于体积位明智的光学数据存储
2. Design and fabrication of a diffractive optical element for the objective lens of a small form factor optical data storage device [J] . Lim J, Jeong GB, Kim SM, Journal of Micromechanics and Microengineering . 2006,第1期

机译：用于小尺寸光学数据存储设备的物镜的衍射光学元件的设计和制造
3. OPTICAL DATA STORAGE: Holographic data storage uses volumetric crystal media [J] . Gail Overton Laser Focus World: The Magazine for the Photonics & Optoelectronics Industry . 2012,第2期

机译：光学数据存储：全息数据存储使用体晶介质
4. Simulation of a fluorescent bit-wise volumetric optical data storage system [C] . Y. Zhang, T. D. Milster Conference on Optical Data Storage; 20040418-20040421; Monterey,CA; US . 2004

机译：荧光按位体积光学数据存储系统的仿真
5. System and material aspects of volumetric bit-wise optical data storage. [D] . Zhang, Yan. 2004

机译：体积逐位光学数据存储的系统和材料方面。
6. Volumetric macro- and micro-scale assessment of crystalline lens opacities in cataract patients using long-depth-range swept source optical coherence tomography [O] . Ireneusz Grulkowski, Silvestre Manzanera, Lukasz Cwiklinski, 2018

机译：白内障患者晶状体混浊的宏观和宏观尺度评估采用深距离扫频光学相干断层扫描
7. System and material aspects of volumetric bit-wise optical data storage [O] . Zhang Yan 2004

机译：体积逐位光学数据存储的系统和材料方面
8. Research Studies on Advanced Optical Module/Head Designs for Optical Data Storage [R] . 1992

机译：用于光学数据存储的先进光学模块/头设计的研究

Advanced Lens Design for Bit-Wise Volumetric Optical Data Storage

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