1 |
R. M. Shelby, J. A. Hoffnagle, G. W. Burr, C. M. Jefferson, M.-[, Bernal, H. Coufal, R. K. Grygier, H. Gunther, R. M. Macfalane, G. T. Sincerbox, "Pixel-matched holographic data storage with megabit pages," Optics Letters, Vol.22, Issue19, pp. 1509-1511, 1997.
DOI
ScienceOn
|
2 |
A. Adibi, J. Mumbru, K. Wagner, D. Psaltis, "Secondary Grating Formation by Readout at Bragg-Null Incidence," Applied Optics, Vol.38, Issue20, pp.4291-4295, 1999.
DOI
|
3 |
T. Yi, J. S. Zhang, Y. C. Zhu, Q. H. Gong, "Crosstalk Noise Reduction in Shift-Multiplexed Holographic Storage System Using Multiple Point Sources," Chinese Physics Letters, Vol.25, No.8, pp.2866-2869, Aug. 2008.
DOI
ScienceOn
|
4 |
M. Keskinoz and B. V. Kumar, "Efficient Modeling of Volume Holographic Storage Channels (VHSC)," Proceeding of SPIE, Vol.4090, pp.205-210, May 2000.
|
5 |
D. Park, and J. Lee, "Holographic Data Storage Channel Model with Intensity Factor," IEEE Transactions on Magnetics, Vol.45, No.5, pp.2268-2271, May 2009.
DOI
|
6 |
J. Kim, J. Lee, "Partial Response Maximum Likelihood Detections Using Two0Dimensional Soft Output Viterbi Algorithm with Two-Dimensional Equalizer for Holographic Data Storage," Japanese Journal of Applied Physics, Vol.48, No.3, Issue2, 03A033, 2009.
DOI
|
7 |
J. Kim, and J. Lee, "Two-Dimensional SOVA and LDPC Codes for Holographic Data Storage System," IEEE Transactions on Magnetics, Vol.45, No.5, pp.2260-2263, May 2009.
|
8 |
S. G. Srinivasa, "Constrained Coding and Signal Processing for Holography," Ph. D. dissertation, School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA, Aug. 2006.
|
9 |
F. Mok, G. Burr, D. Psaltis, "System Metric for Holographic Memory Systems," Optics Leters, Vol.21, Issue12, pp.896-898, 1996.
DOI
ScienceOn
|
10 |
Amnon Yariv, "Interpage and Interpixel Corss talk in Orthogonal (wavelength-multiplexed) Holograms," Optics Letters, Vol.18, Issue8, pp.652-654, 1993.
DOI
ScienceOn
|
11 |
D. Psaltis, M. Levene, A. Pu, G. Barbastathis, and K. Curtis, "Holographic storage using shift multiplexing," Optics Letters, Vol.20, Issue 7, pp.782-784, 1995.
DOI
ScienceOn
|
12 |
N. Kim, J. Lee, and J. Lee, "Rate 5/9 two-dimensional pseudobalanced code for holographic data storage systems," Japanese Journal of Applied Physics, Vol.45, No.2B, pp.1293-1296, 2006.
DOI
|
13 |
C. Chen, C. Fu, and T. Chiueh, "Low-Complexity Pixel Detection for Images with Misalignment and Interpixel Interference in Holographic Data Storage," Applied Optics, Vol.47, Issue36, pp.6784-6795, 2008.
DOI
|
14 |
F. H. Mok, "Angle-multiplexed storage of 5000 holograms in lithium niobate," Optics Letters, Vol.18, Issue11, pp.915-917, 1993.
DOI
ScienceOn
|
15 |
M. Keskinoz, and B. V. K. V. Kumar, "Discrete Magnitude-Squared Channel Modeling, Equalization, and Detection for volume Holographic Storage Channels," Applied Optics, Vol.43, Issue6, pp.1368-1378, 2004.
DOI
|
16 |
D. Psaltis, M. Levene, A. Pu, G. Barbastathis, "Holographic Storage using Shift Multiplexing," U.S. Patent 5,949,558, sep. 7, 1999.
|
17 |
A. Vardy, M. Blaum, P. H. Siegel, and G. T. Sincerbox, "Conservative Arrays: Multi-dimensional Modulation Codes for Holographic Recording," IEEE Transactions on Information Theory, Vol.42, No.1, Jan. 1996.
|