KR100601277B1 - Device for data reproducing of the holographic digital data storage system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data replication apparatus of a holographic digital data system, and in particular, a reference light storage medium which diffracts a reference light recorded on a recording material layer by incident plane waves to generate diffraction reference light, and transmits and transmits the generated diffraction reference light A master storage medium generating reference light and generating reproduction light by diffracting the interference fringes of the original holographic data recorded on the recording material layer by the diffraction reference light, and the generated transmission reference light and generated reproduction light are stored inside the recording material layer. By causing the interference, the same interference fringe as the reproduction light includes the slave storage medium on which the holographic copy data is recorded. Therefore, in the holographic digital data system of shift multiplexing, diffraction of reference light previously stored by plane waves is provided to the master storage medium, and the reproduced light and the reference light are interfered again, thereby replicating the data of the master storage medium to a new slave storage medium. Reproduction of holographic data becomes easy.

Holographic digital data systems, data replication, storage media

Description

Data replication device of holographic digital data system {DEVICE FOR DATA REPRODUCING OF THE HOLOGRAPHIC DIGITAL DATA STORAGE SYSTEM}

1 is a block diagram showing a recording apparatus of a holographic digital data system according to the prior art;

2 is a block diagram showing a recording apparatus for recording data on a master storage medium in a holographic digital data system to which the present invention is applied;

3 is a diagram briefly showing a reference light and a signal light for data recording of a master storage medium of the present invention;

4 is a block diagram showing a data replication apparatus for data replication to a slave storage medium using a master storage medium in a holographic digital data system according to the present invention;

5 is a diagram briefly showing reference light and reproduction light for data replication from a master storage medium to a slave storage medium of the present invention.

<Description of the code | symbol about the principal part of drawing>

100: light source 102: light magnifying lens

104: beam splitter 106: spatial light modulator (SLM)

108: condenser lens 110: the first mirror

112: delayed lens 114: the second mirror

116: reference light storage medium 118: master storage medium

120: slave storage medium

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a holographic digital data storage system (HDDS), and more particularly to a data replication apparatus of a holographic digital data system.

Recently, technologies for storing holographic digital data have been actively researched in various fields, for example, thanks to remarkable developments such as semiconductor lasers, charge coupled devices (CCDs), and liquid crystal displays (LCDs). As a result, fingerprint recognition systems for storing and reproducing fingerprints have been put to practical use, and are being expanded to various fields that can apply the advantages of large storage capacity and ultra-high data transfer speed.

Among them, a holographic digital data system storing a large amount of data is a storage medium, for example, optical refraction, in which an interference fringe generated when the signal light from the target object and the reference light are interfered with each other is sensitive to the amplitude of the interference fringe. By recording to a storage medium such as a photorefractive crystal, a three-dimensional image of an object can be displayed, and hundreds to thousands of hologram data composed of pages of binary data are identical. Can be stored in place.

1 is a block diagram showing a recording apparatus of a holographic digital data system according to the prior art. Referring to FIG. 1, a recording apparatus of a conventional holographic digital data system includes a light source 10, a beam splitter 14, a spatial light modulator (SLM) 16, first and second A mirror 20, 24, a storage medium 26, or the like. Unexplained reference numeral 12 denotes an optical magnifying lens, 18 denotes a Fourier type condensing lens, and 22 denotes a retardation lens.

The beam splitter 14 separates the laser light of the light source 10 into two reference beams Sref and a signal beam Sobj.

The spatial light modulator (SLM) 16 loads input data, that is, binary data of a plurality of pixels in units of pages, into the signal light Sobj separated from the beam splitter 14, and transfers the binary data of the plurality of pixels to the condenser lens 18. .

The first mirror 20 reflects the reference light Sref separated from the beam splitter 14 and transmits the reflected reference light Sref to the second mirror 24 through the delay lens 22.

The second mirror 24 reflects the reference light transmitted through the retardation lens 22 at a predetermined angle and transmits it to the storage medium 26. At this time, the predetermined angle of the second mirror 24 is adjusted by an actuator (not shown) according to the data superimposition angle in the recording of the holographic digital data system.

In the storage medium 26, an interference fringe generated by interference of the signal light Sobj transmitted from the spatial light modulator (SLM) 16 and the reference light Sref reflected from the second mirror 24 is recorded in the recording material layer. . Subsequently, the system irradiates the storage medium with only the reference light at the same angle as the recording while blocking the signal light through the shutter, diffracts the interference pattern recorded in the recording material layer by the reference light, and converts the diffracted light into a CCD (not shown). The playback data is output by restoring the photographing and the electrical data through the camera.

On the other hand, the recording apparatus of the conventional holographic digital data system configured as described above records the holographic data in the storage medium as follows.

The laser light generated by the light source 10 is transmitted to the beam splitter 14 through the light magnifying lens 12, and the beam splitter 14 transmits or reflects incident light as it is.

The light transmitted as it is in the beam splitter 14 is input to the spatial light modulator SLM 16 as the signal light Sobj. That is, the spatial light modulator (SLM) 16 modulates the signal light Sobj transmitted from the beam splitter 14 by one page unit of the binary data of light and shade of real pixels according to the input data, and then condenses the lens 18. To the storage medium 26).

The light reflected by the beam splitter 14 is a reference light Sref, and the reference light Sref is reflected back to the first mirror 20 and transmitted to the second mirror 24 through the retardation lens 22. The light is reflected by the mirror 24 at a predetermined angle and enters the storage medium 26.

The signal light Sobj carrying data and the reference light Sref incident at a predetermined angle cause interference in the recording material layer of the storage medium 26 for recording the holographic data, and according to the intensity of the interference fringe generated at this time An interference fringe due to a light-induced generation of mobile charge of the internal kinetic charge of the storage medium 26 is recorded.

However, the above-described recording apparatus of the holographic digital data system uses various multiplexing techniques in order to superimpose data on the same area of the storage medium 26.

However, in the case of shift multiplexing recording of a holographic digital data system in which data is recorded on the storage medium while moving the storage medium or the recording device, it is difficult to copy the data recorded on the storage medium to another storage medium because the angle range of the reference light is wide. .

Accordingly, in the holographic digital data system, it is inconvenient to record data on a storage medium using signal light and reference light each time.

An object of the present invention is to diffract the reference light previously stored by plane waves in the holographic digital data system of shift multiplexing to provide a master storage medium, and to interfere with the reproduced light and the reference light again. The present invention provides a data replication apparatus of a holographic digital data system in which the holographic data is easily copied by copying data of a master storage medium to a slave storage medium.

In order to achieve the above object, the present invention provides a holographic digital data system, comprising: a reference light storage medium which diffracts a reference light recorded on a recording material layer by incident plane wave and generates a diffraction reference light, and transmits and transmits the generated diffraction reference light A master storage medium generating reference light and generating reproduction light by diffracting an interference fringe of original holographic data recorded in the recording material layer by the diffraction reference light, and the generated transmission reference light and the generated reproduction light are recording materials. By causing interference inside the layer, the same interference fringe as the reproduction light is included in the slave storage medium which is recorded as holographic copy data.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

2 is a block diagram showing a recording apparatus for recording data on a master storage medium in a holographic digital data system to which the present invention is applied.

Referring to FIG. 2, a recording apparatus of a holographic digital data system to which the present invention is applied may include a light source 100, a beam splitter 104, a spatial light modulator (SLM) 106, and first and second mirrors 110 and 114. ), The master storage medium 116 and the like. Unexplained reference numeral 102 denotes an optical magnification lens, 108 denotes a Fourier type condensing lens, and 112 denotes a retardation lens. Here, since the recording apparatus of the holographic digital data system to which the present invention is applied is the same as the conventional apparatus, description thereof will be omitted.

3 is a diagram briefly showing a reference light and a signal light for data recording of the master storage medium of the present invention.

2 and 3, the recording apparatus of the holographic digital data system to which the present invention is applied records holographic data in a master storage medium as follows.

The laser light generated by the light source 100 is transmitted to the beam splitter 104 through the light magnifying lens 102, and the beam splitter 104 transmits or reflects the incident light as it is.

The light transmitted as it is from the beam splitter 104 is input to the spatial light modulator SLM 106 as the signal light Sobj. That is, the spatial light modulator (SLM) 106 modulates the signal light Sobj transmitted from the beam splitter 104 by one page unit of binary data of light and shade of real pixels according to input data, and then condenses the lens 108. ) To the master storage medium 116.

The light reflected by the beam splitter 104 is reflected as the reference light Sref, reflected back to the first mirror 110 and transmitted to the second mirror 114 through the delay lens 112, and the second mirror 114. Reflected at a predetermined angle through the incident to the master storage medium 116.

The signal light Sobj carrying the data and the reference light Sref incident at a predetermined angle cause interference inside the recording material layer of the master storage medium 116 for recording the original holographic data, and the intensity of the interference fringe generated therefrom. In accordance with the interference fringe of the original holographic data is recorded.

The recording apparatus of the holographic digital data system to which the present invention is applied superimposes the holographic data on the master storage medium 116 by shift multiplexing for recording data while moving the storage medium or the recording apparatus.

Next, the following apparatus is used to copy the holographic data stored in the master storage medium 116 to another storage medium.

4 is a block diagram showing a data replication apparatus for data replication to a slave storage medium using a master storage medium in the holographic digital data system according to the present invention.

Referring to FIG. 4, the data replication apparatus of the holographic digital data system according to the present invention includes a light source 200, an optical magnifying lens 202, a mirror 204, a reference light storage medium 206, and a master storage medium 116. , Slave storage medium 208, or the like.

The light source 200 generates plane wave laser light and transmits it to the mirror 204 through the light magnifying lens 202.

The mirror 204 reflects the plane wave laser light and transmits it to the reference light storage medium 206.

In the reference light storage medium 206, reference light of the same angle used when recording the original holographic data of the master storage medium 116 by shift multiplexing is recorded in the recording material layer. The reference light for shift multiplexing recorded in the recording material layer by plane waves incident through the mirror 204 is diffracted and transmitted to the master storage medium 116. At this time, the reference light diffracted by the plane wave has the same angle as when recording the holographic data by shift multiplexing.

When the reference light Sref diffracted and reproduced by the reference light storage medium 206 enters the master storage medium 116, the interference fringe of the original holographic data recorded in the recording material layer is diffracted (reproduced).

The slave storage medium 208 is for copying original holographic data recorded in the master storage medium 116, and is reproduced from the reference light Sref transmitted through the master storage medium 116 and the master storage medium 116. Interference fringes are recorded by interfering with each other inside the recording material layer using the light as the signal light. Accordingly, in the slave storage medium 208 of the present invention, data duplication is performed because the interference fringes of the same holographic data as the master storage medium 116 are recorded.

In the data replication system of the holographic digital data system according to the present invention, the reference optical storage medium 206 and the master storage medium 116 are separated by a predetermined distance, and the master storage medium 116 and the slave storage medium 208 are attached to each other. do.

5 is a diagram briefly showing reference light and reproduction light for data replication from a master storage medium to a slave storage medium of the present invention.

As shown in FIG. 5, the data replication apparatus of the holographic digital data system diffracts the reference light used in recording the shift multiplexing holographic data recorded in the storage medium 206 by injecting a plane wave into the reference light storage medium 206. (Play) The interference fringes of the original holographic data recorded in the master storage medium 116 are diffracted (reproduced) by the reference light Sref diffracted in the reference light storage medium 206 and transferred to the slave storage medium 208. The reproduction light of the master storage medium 116 incident on the slave storage medium 208 and the reference light Sref transmitted through the master storage medium 116 interfere with each other in the slave storage medium 208, thereby causing the master storage medium ( By recording the same interference fringe as 116, the holographic data is duplicated.

As described above, the present invention records the interference fringes of the original holographic data on the master storage medium by using the reference light and the signal light carrying data in the recording device of the holographic digital data system of shift multiplexing.

In the data replication apparatus according to the present invention, the reference light pre-stored by the plane wave is diffracted and provided to the master storage medium, and the reproduced light and the transmitted reference light on the new slave storage medium interfere with each other, so that the same original holographic data as the master storage medium can be obtained. Replication takes place.

Therefore, in the data replication system of the present invention, since the original holographic data recorded on the master storage medium can be copied by replacing the slave storage medium, the holographic data can be easily copied.

On the other hand, the present invention is not limited to the above-described embodiment, various modifications are possible by those skilled in the art within the spirit and scope of the present invention described in the claims to be described later.

Claims (4)

Holographic digital data system, A reference light storage medium which diffracts the reference light recorded in the recording material layer by incident plane waves to generate diffraction reference light; A master storage medium which transmits the generated diffraction reference light to generate a transmission reference light, and generates reproduction light by diffracting an interference fringe of the original holographic data recorded in the recording material layer by the diffraction reference light; The generated transmission reference light and the generated reproduction light cause interference inside the recording material layer, whereby the same interference pattern as the reproduction light is recorded as holographic copy data. Data replication device of the holographic digital data system comprising a. The method of claim 1, And the master optical storage medium and the master storage medium are separated from each other by a predetermined distance, and the master storage medium and the slave storage medium are attached to each other. The method of claim 1, And the reference light storage medium records reference lights of the same angle used in recording the original holographic data of the master storage medium by shift multiplexing. The method of claim 1, And said master storage medium records said original holographic data by shift multiplexing.

Images