Dynamic information storage or retrieval – Specific detail of information handling portion of system – Radiation beam modification of or by storage medium
Reexamination Certificate
2001-06-08
2004-05-18
Hindi, Nabil (Department: 2655)
Dynamic information storage or retrieval
Specific detail of information handling portion of system
Radiation beam modification of or by storage medium
C369S112220
Reexamination Certificate
active
06738337
ABSTRACT:
TECHNICAL FIELD
The invention relates to the field of the information storage.
BACKGROUND ART
At present, most of storage devices, such as magnetic discs, compact discs, etc., record data in a two-dimensional manner, with a lower storage capacity being from about 10 GB up to about 35 GB and a slower access rate being not more than 1 MB/s, so as to be not by far able to satisfy the needs for information storage, information transmission, and information processing in the future. The data storage of a high density has been all along an indispensable key field in the development of the information technology and the computer technology. By the year of 2005 when the network of new kind and the multimedia of third generation appear, for any computer, at least 100 GB of the external storage capacity and at least 40 MBps of the data transfer rate will be demanded. But unfortunately, existing various kinds of external storage devices can not satisfy these demands, even DVD compact disc systems which have just entered markets are far away from this object. The only way solving these problems is to use new principles, new technologies, and new materials in order to develop a storage technology and system of a new generation having a high density and a high speed.
The three-dimensional storage technology based on the holographic storage have a number of good properties such as a large capacity of data storage, a short access time and a high data transfer rate. The three-dimensional holographic storage technology records and read information as two-dimensional holographic pages, and data are record in parallel through the volume of the crystal rather than localized on a surface or thin film as in traditional storage. In this way, a high-density (in the order of 10
13
bit/cm
3
or greater) information storage could be realized by this kind of three-dimensional optical storage, with a high data transfer rate being equal or more than 10
9
bits/s and a readout time for one data page (up to 10
6
bits per page) being smaller than 100 &mgr;s. At present, however, in many prior three-dimensional storage configurations, so called 90°-configuration is widely used and the green light is used as the readout beam. Therefore it is difficult to guarantee against the fixing time and it is not ease to miniature the system.
DISCLOSURE OF THE INVENTION
An object of the invention is to provide a three-dimensional optical storage systems, which could realize a high-density information storage with a short writing and read access time, and to resolve the problem of the information fixing time to meet the ever-increasing need for the information storage of multimedia data and to adapt to the future need of a high-speed information development.
The only-readable three-dimensional optical storage of the invention consists of two systems: one is the writing system which includes a computer, a beam splitter, a precise rotary table, a light-source for writing, lenses, a spatial light modulator, a spatial filter, mirrors, a photorefractive crystal (such as doped or doubly doped LiNbO
3
or LiTaO
3
) and a charge-coupled device (CCD); another one is the readout system which includes a computer, a precise rotary table, a slit, a phase-mismatch adjustor, a light source for readout, a photorefractive crystal (such as doped or doubly doped LiNbO
3
or LiTaO
3
), lenses and CCD. The photorefractive crystal used in the readout system is the one in which the information has been recorded by way of the writing system.
The intersect angle 2 &thgr; of the two writing beam from the lens
106
and mirror
108
is within the range of 10°~35°; the angle between the light from the phase-mismatch adjustor
202
and the diffracted light from the photorefractive crystal
204
to the lens
207
is 180°-2&agr;, the relationship between &agr; and &thgr; is &lgr;
w
sin &thgr;=&lgr;
r
sin &agr;, where &lgr;
w
and &lgr;
r
are the wavelengths of writing light and readout light, respectively.
The spatial light modulator is used to show under the control of a computer the information which will be stored, the photorefractive crystal is fixed onto the precise rotary table which is controlled by the computer to get to any desired angle, and the CCD collects the image to the computer for further processing. The phase-mismatch adjustor is used to compensate for the phase mismatch when the red light is used for read out the stored images, which were recorded by the green light. The phase-mismatch adjustor is an irregular double-convex lens, with the transverse focus length range of 50~400 mm and the longitudinal focus lens range of 300 mm~+∞
The implementation mode of the of the invention is: using the photorefractive crystals (doped or doubly doped LiNbO
3
or LiTaO
3
) as the three-dimensional holographic storage optical disc materials; using the green light (wavelength 532 nm) from the solid-state laser to write the information in the crystal according to the holographic way through the photorefractive effect of the crystals in the transmission configuration; and using the red light (typical wavelength ~670 nm) from the semiconductor laser as the readout beam; where the phase-mismatch adjustor is a specially designed irregular double-convex lens, and the dynamically differential technique is used to encode and decode the computer files.
REFERENCES:
patent: 5943145 (1999-08-01), Curtis et al.
“Multilayer volume holographic optical memory” Vladimir Markov et al., Feb. 15, 1999 / vol. 24, No. 4 / Optics Letters, pp. 265-267.
“Digital wavelength-multiplexed holographic data storage system” David Lande et al., Optics Letters / vol. 21, No. 21 / Nov. 1, 1996, pp. 1780-1782.
Huang Hui
Qiao Haijun
Sha Zuojin
Sun Qian
Tang Baiquan
Hindi Nabil
Nankai University
Rader & Fishman & Grauer, PLLC
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