Journal ArticleDOI
Volume holographic data storage at an areal density of 250 gigapixels/in.(2).
Geoffrey W. Burr,C. Michael Jefferson,Hans J. Coufal,M. Jurich,John A. Hoffnagle,Roger M. Macfarlane,Robert M. Shelby +6 more
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TLDR
One thousand volume holographic data pages, each containing 1x10(6)pixels , are stored in a common volume of LiNbO(3) :Fe by use of the 90 degrees geometry, resulting in a demonstrated areal density of 394pixels/mum (2) (254 Gp pixels/in).Abstract:
One thousand volume holographic data pages, each containing 1x10(6)pixels , are stored in a common volume of LiNbO(3) :Fe by use of the 90 degrees geometry. An effective transverse aperture of 1.6 mm x 1.6mm , realized by repetition of this experiment at each of the eight surrounding locations, results in a demonstrated areal density of 394pixels/mum (2) (254 Gpixels/in. (2)) . Short-focal-length Fourier optics provide a tightly confined object beam at the crystal; the reference beam is angle multiplexed. Data pages retrieved with a 1024 x 1024 CCD camera are processed to remap bad spatial light modulator pixels and to compensate for global and local pixel misregistration and are then decoded with a strong 8-bits-from-12-pixels modulation code. The worst-case raw bit-error rate (BER) before error correction was 1.1x10(-3) , sufficient to deliver a user BER of 10(-12) at an overall code rate of 0.61 user bits per detector pixel. This result corresponds to 1.08% of the well-known theoretical volumetric density limit of 1/lambda(3) .read more
Citations
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Journal ArticleDOI
Holographic Data Storage Systems
TL;DR: Fundamental issues underlying holographic data storage: grating formation, recording and readout of thick and thin holograms, multiplexing techniques, signal-to-noise ratio considerations, and read out techniques suitable for conventional, phase conjugate, and associative search data retrieval are discussed.
Journal ArticleDOI
Screening-photovoltaic bright solitons in lithium niobate and associated single-mode waveguides
Eugenio Fazio,F. Renzi,R. Rinaldi,Mario Bertolotti,Mathieu Chauvet,W. A. Ramadan,Adrian Petris,V.-I. Vlad +7 more
TL;DR: In this article, two-dimensional bright circular solitons are formed thanks to a strong static bias field, externally applied, opposite to the photovoltaic internal field, and the dynamics of the soliton formation is monitored and compared to a time-dependent numerical model.
Journal ArticleDOI
High-transfer-rate high-capacity holographic disk data-storage system.
Sergei S. Orlov,William Phillips,Eric S. Bjornson,Yuzuru Takashima,Padma Sundaram,Lambertus Hesselink,Robert Okas,Darren Kwan,Ray Snyder +8 more
TL;DR: In the demonstration system that is described, high-density holographic recording is achieved by use of high-resolution short-focal-length optics and correlation shift multiplexing in photopolymer disk media.
Patent
High density optical data storage
TL;DR: In this article, the first end of the array includes multiple optical fiber ends, each optical fiber end having an end face adapted for receiving light of a wavelength λ into the fiber for conveyance to the second end of a fiber array.
Journal ArticleDOI
High-density optical data storage
TL;DR: In this paper, the authors briefly address the historical development of optical data storage and some recent developments towards higher density such as nonlinear recording methods and systems with a numerical aperture larger than unity.
References
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Holographic data storage
J. Ashley,M.-P. Bernal,Geoffrey W. Burr,Hans J. Coufal,H. Guenther,John A. Hoffnagle,C. M. Jefferson,Brian Marcus,Roger M. Macfarlane,Robert M. Shelby,G. T. Sincerbox +10 more
TL;DR: An overview of the research effort on volume holographic digital data storage is presented, highlighting new insights gained in the design and operation of working storage platforms, novel optical components and techniques, data coding and signal processing algorithms, systems tradeoffs, materials testing and tradeoff, and photon-gated storage materials.
Journal ArticleDOI
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TL;DR: The capabilities of photorefractive crystals as media for holographic interconnections in neural networks are examined and optical architectures for implementing various neural schemes are described.