Wavefront compensation method using novel index in holographic data storage

被引:3
|
作者
Ishii, Norihiko [1 ]
Muroi, Tetsuhiko [1 ]
Kinoshita, Nobuhiro [1 ]
Kamijo, Koji [1 ]
Shimidzu, Naoki [1 ]
机构
[1] NHK Japan Broadcasting Corp, Sci & Technol Res Labs, Setagaya Ku, Tokyo 1578510, Japan
来源
JOURNAL OF THE EUROPEAN OPTICAL SOCIETY-RAPID PUBLICATIONS | 2010年 / 5卷
关键词
holographic data storage; adaptive optics; wavefront compensation; photopolymer; IMAGE; FOCUS; DEPTH;
D O I
10.2971/jeos.2010.10036s
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Photopolymer media that uses holographic data storage generally causes volume shrinkage. This volume shrinkage distorts the recorded interference fringes. We propose an adaptive optics using novel index to compensate this distortion. The SNR value is improved from 2.1 dB to 3.4 dB in the worst part of a reproduced image and the peak intensity and the full width of the half maximum of an angle are improved by 6% and 10%, respectively. These results prove that adaptive optics using this novel index worked effectively. [DOI: 10.2971/jeos.2010.10036s]
引用
收藏
页数:6
相关论文
共 50 条
  • [21] A recognition method in holographic data storage system by using structural similarity
    Chen, Yu-Ta
    Ou-Yang, Mang
    Lee, Cheng-Chung
    OPTICS AND PHOTONICS FOR INFORMATION PROCESSING VII, 2013, 8855
  • [22] Holographic data storage using photopolymer
    Hsu, KY
    Lin, SH
    PHOTOREFRACTIVE FIBER AND CRYSTAL DEVICES: MATERIALS, OPTICAL PROPERTIES, AND APPLICATIONS IX, 2003, 5206 : 142 - 148
  • [23] Holographic data storage using bacteriorhodopsin
    Gary, C
    OPTICAL DATA STORAGE '97, 1997, 3109 : 188 - 191
  • [24] Holographic data storage using photopolymer
    Hsu, KY
    Lin, SH
    Whang, WT
    Chen, WZ
    PHOTOREFRACTIVE FIBER AND CRYSTAL DEVICES: MATERIALS, OPTICAL PROPERTIES, AND APPLICATIONS V, 1999, 3801 : 66 - 74
  • [25] A novel Photopolymer material for holographic data storage
    Liu, GD
    He, QS
    Jin, HZ
    Wu, MX
    Jin, GF
    Shi, MQ
    Wu, FP
    Li, MZ
    Wang, EJ
    ADVANCED OPTICAL STORAGE TECHNOLOGY, 2002, 4930 : 88 - 92
  • [26] Holographic data storage using bacteriorhodopsin
    Gary, C
    Timucin, D
    ODS - 1997 OPTICAL DATA STORAGE TOPICAL MEETING, CONFERENCE DIGEST, 1997, : 62 - 63
  • [27] Wavefront error analysis and compensation in a digital holographic microscope
    Kim, Moonseok
    Hong, Sukjoon
    Soh, Kwangsup
    Shin, Sanghoon
    Son, Jung-Young
    Lee, Jaesung
    Kim, Jaisoon
    THREE-DIMENSIONAL IMAGING, VISUALIZATION, AND DISPLAY 2010 AND DISPLAY TECHNOLOGIES AND APPLICATIONS FOR DEFENSE, SECURITY, AND AVIONICS IV, 2010, 7690
  • [28] Adaptive Compensation of Wavefront Aberrations Using the Method of Moments
    Volotovskiy, S.
    Khorin, P.
    Dzyuba, A.
    Khonina, S.
    OPTICAL MEMORY AND NEURAL NETWORKS, 2024, 33 (SUPPL2) : S359 - S375
  • [29] Compensation and improvement of intensity and distribution in reconstructed image using adaptive optics in holographic data storage
    Muroi, Tetsuhiko
    Sekiguchi, Sayaka
    Kinoshita, Nobuhiro
    Ishii, Norihiko
    Shimidzu, Naoki
    Kamijo, Koji
    Booth, Martin
    Juskaitis, Rimas
    Wilson, Tony
    JAPANESE JOURNAL OF APPLIED PHYSICS, 2008, 47 (07) : 5900 - 5903
  • [30] Image compensation using wavelet transform for tilt servo control in holographic data storage system
    Kim, Jang Hyun
    Yang, Hyunseok
    JAPANESE JOURNAL OF APPLIED PHYSICS, 2015, 54 (09)
12345