KR100280941B1 - Hologram Data Special Multiplexing Method and Storage System Using Polarization - Google Patents

Abstract

The present invention relates to a hologram data special multiplexing recording / reproducing method using a polarized light and a hologram data storage system. Regions 1 and 2 of one line arranged to be superimposed are primary recording processes for recording with ordinary polarization, and secondary lines for recording with extra ordinary polarization with the other regions 3 and 4 of opposite lines; Recording, including the step of displacing the hologram recording medium to a recording position when the recording is performed, and reproducing by performing the reproducing process by the polarization of reproducing the regions 1 and 3 and the regions 2 and 4 with the polarization used when recording. A holographic data special multiplexing recording / reproducing method using polarization is provided. A hologram data storage system for separating a laser beam oscillated by a laser into a reference light and an object light and inputting the reference light and the object light to a hologram recording medium while modulating the object light with a spatial light modulator. A special multiplexing type hologram data storage system is characterized in that a polarizing plate is disposed between beam splitters.

The present invention enables special multiplexing in the direction of travel of the reference light, and can increase the storage density by about twice.

Description

HOLOGRAM DATA SPATIAL MULTIPLEXING METHOD AND STORAGE SYSTEM FOR USING POLARIZATION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a holographic data special multiplexing recording / reproducing method using polarized light and a holographic data storage system. The present invention relates to a multiplexing method and apparatus for performing a hologram recording medium more efficiently.

With the advent of the multimedia era, holographic memory is drawing attention as the need for a system that records a lot of information and requires fast data transfer increases.

Such holographic recording records not only the intensity but also the phase of the object light reflected from the object, and the intensity and phase of the light of the object is constituted by the interference of the object light and the reference light. The object light and the reference light form an interference fringe, and the interference fringes thus formed are recorded in a material responding to the intensity of the interference fringe, and the hologram, which is a three-dimensional image of the object, is reproduced by irradiating the reference light on the recorded interference fringe.

The hologram is stored in the cube and only the reference light used in the recording process can read the hologram recorded in the cube, and the reference light having a different wavelength and phase from the reference light used in the recording passes through the hologram recorded in the cube without any effect. .

Using the natural nature of volume holograms, it is possible to store vast amounts of data inside small cubes by recording many holograms in the same place of the storage material with different reference lights. One method of making another reference light is the Angle Multiplexing method in which the angle of the reference light is changed at each recording time. This method allows you to store hundreds to thousands of holograms organized in pages of binary data in the same place. That is, by recording and reproducing a lot of data in the unit of a page in the same place, recording and reproducing with a high storage density and a fast data transfer rate are possible, thereby enabling a digital data storage system using holography.

FIG. 1 is a block diagram of a general 90 ° Geometry Digital Data Storage System, and FIG. 2 is an explanatory diagram of a conventional special multiplexing reproduction method. As shown in FIG. The laser beam 11 is incident on the beam splitter 20 to be divided into the reference light 12 and the object light 13, and the object light 13 is a unit of one page of light and dark binary data formed by pixels according to the input data. A modulated light is modulated by a Spatial Light Modulator (SLM) 50, and each page has a corresponding reference light 12 corresponding to the angle of the rotating mirror 30.

Afterwards, the object light 13 and the reference light 12 cause interference in the hologram recording medium 60 for recording the hologram, and the mineral oil of the kinetic charges in the hologram recording medium 60 according to the intensity of the interference pattern generated at this time. The degree phenomenon occurs and the interference pattern is recorded through this process. In order to read the data recorded on the hologram recording medium 60, only the reference light 12 is irradiated onto the hologram recording medium 60, and the interference pattern is diffracted by the reference light 12 to restore a checkered pattern composed of the contrast of the original pixel. Afterwards, the read image is reflected on the CD (Charge Coupled Device) 70 to restore the original data.

Such a conventional hologram data storage system moves the hologram recording medium 60 to x or y and z, and proceeds with object light when reproducing an interference pattern recorded by injecting the reference light 12 and the object light 13 at a designated position. In the direction O, reproduction is possible by reference light in the case of the region 1 and the region 2 and in the region 3 and the region 4, but in the case of the region 1 and the region 3 in the reproduction of the reference light traveling direction R, the region 1 The area 3 is also reproduced at the same time when playing the data, and the area 4 and the area 4 are reproduced at the same time when the area 2 is reproduced.

As described above, the conventional hologram data storage system can record by intersecting the reference light and the object light anywhere by adjusting the position of the hologram recording medium when recording. There was a problem that special multiplexing in the reference light traveling direction R is impossible during reproduction.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned defects and problems, and in the hologram data storage system, the hologram recording medium is subjected to multiplexing in the traveling direction of the reference light using the polarization and the angle of the reference light. A holographic data special multiplexing recording / reproducing method using a polarized light and a holographic data storage system that can be used more efficiently.

In order to achieve the above object, in the present invention, when recording data, one row of regions 1 and 2 arranged in a direction overlapping in the object light traveling direction among a plurality of special multiplexing regions set corresponding to the number of moving steps of the recording medium are ordinary polarizations. The primary recording process for recording, the secondary recording process for recording with the opposite extraordinary polarization in the other areas 3 and 4, and the process of displacing the hologram recording medium to the recording position when performing the first and second recordings. Recording / reproducing, and reproducing by performing a reproducing process by polarization for reproducing areas 1 and 3 and areas 2 and 4 with the polarization used for recording. Provide a method.

A hologram data storage system for separating a laser beam oscillated by a laser into a reference light and an object light and inputting the reference light and the object light to a hologram recording medium while modulating the object light with a spatial light modulator. A special multiplexing type hologram data storage system is characterized in that a polarizing plate is disposed between beam splitters.

1 is a block diagram of a conventional hologram data storage system.

2 is an explanatory diagram of a conventional playback method.

3 is a block diagram of a hologram data storage system according to the present invention.

4 is an explanatory diagram of a reproduction method according to the present invention;

<Description of the symbols for the main parts of the drawings>

10: laser 11: laser beam

12: reference light 13: object light

20 beam splitter 50 spatial light modulator

60: hologram recording medium 100: polarizing plate

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail as follows.

3 is a block diagram of a hologram data storage system according to the present invention, and FIG. 4 is a diagram illustrating a reproducing method according to the present invention. As illustrated therein, a hologram data storage system according to the present invention is shown. An optical element for separating the laser beam 11 into the reference light 12 and the object light 13 is disposed on the optical path of the laser beam 11 generated by the laser 10, for example, a beam splitter 20. . In addition, the mirror 30 is disposed on the optical path of the reference light 12, and the mirror 40 is disposed on the optical path of the object light 13, respectively. For example, a spatial light modulator (SLM) such as an LCD ( 50 is disposed and a hologram such as, for example, an iron-doped Lithium Niobate crystal doped with Fe for recording hologram data on the optical paths of the reference light 12 and the object light 13. A recording medium 60 is disposed, and a photoelectric conversion element 70 such as, for example, a Charge Coupled Device (CCD) is disposed adjacent to the hologram recording medium 60, and the laser 10 and the beam splitter are disposed. The polarizing plate 100 is arranged between (20).

The polarizing plate 100 selects and controls only the extra ordinary polarization and the ordinary polarization.

In the hologram data special multiplexing recording / reproducing method using polarization according to the present invention, a plurality of special multiplexing areas (1, 2, 3, 4) set in correspondence with the number of moving steps of the recording medium (60) when data is recorded. One line of regions 1 and 2 arranged so as to overlap in the object light traveling direction O is a first-order recording process for recording with an ordinary (or extra-ordinary) polarization, and another line of regions with an extra-ordinary (or Secondary recording process of recording with polarized polarization, and displacing the hologram recording medium 60 to a recording position when the first and second recordings are performed. And reproducing by performing a reproducing process by polarization for reproducing 4 with the polarization used in recording.

According to the present invention as described above, in the present invention, the laser beam 11 generated by the laser 10 is incident on the beam splitter 20 to be divided into the reference light 12 and the object light 13 and the object light. 13 is reflected by the mirror 40 disposed on the optical path, and then modulated by the spatial light modulator 50 in units of one page of light and dark binary data formed by the pixels according to the input data. 60 and at the same time the reference light 12 is reflected on the mirror 30 which is disposed on the optical path and the angle is variable, and then reaches the hologram recording medium 60.

Afterwards, the object light 13 and the reference light 12 cause interference in the hologram recording medium 60 for recording the hologram, and the light induction of the movement charges inside the hologram recording medium 60 depends on the intensity of the interference pattern. The phenomenon occurs and through this process, the interference fringe is recorded.

When recording in this manner, the hologram recording medium 60 is moved so that regions 1 and 2 are recorded with ordinary (or extraordinary) polarization, and regions 3 and 4 are recorded with extra ordinary (or ordinary) polarization.

On the other hand, in order to read the data recorded on the hologram recording medium 60, if only the reference light 12 is irradiated to the hologram recording medium 60, the interference pattern diffracts the reference light 12 to form a checkered pattern composed of the contrast of the original pixel. The original image is restored to the original data by reflecting the read image on the photoelectric conversion element 70. When the data is reproduced, the regions 1 and 2 and the regions 3 and 4 can be reproduced separately as before.

When reproducing areas 1 and 3 and areas 2 and 4 with the polarized light used for recording, the unrefractive index of the extra ordinary polarized light and the ordinary polarized light on the birefringency crystal causes the unused beam to be subjected to Bragg conditions. Since this is a deviation, it is possible to separate the regions 1 and 3 and the regions 2 and 4.

As described above, the present invention enables special multiplexing in the traveling direction of the reference light, and can increase the storage density by about twice.

While the embodiments of the present invention have been described so far, the present invention is not limited thereto, and various embodiments which can be modified and changed within the true spirit and scope of the principles described and claimed are within the protection scope of the present invention. You will have to understand.

Claims (2)

When recording data, one row of areas 1 and 2 arranged in a direction overlapping in the direction of the object light from among a plurality of special multiplexing areas set corresponding to the number of moving steps of the recording medium is the first recording process of recording with ordinary polarization, and the other row. Regions 3 and 4 of the recording process include a secondary recording process of recording with the opposite extraordinary polarization, and a process of displacing the hologram recording medium to the recording position when the first and second recordings are performed, 3. A method for recording / reproducing holographic data special multi-plexing using polarization, characterized in that the reproduction is performed by polarization for reproducing 3, regions 2 and 4 with polarization used in recording. A hologram data storage system for separating a laser beam oscillated by a laser into a reference light and an object light and inputting the reference light and the object light to a hologram recording medium while modulating the object light with a spatial light modulator, wherein the laser and beam splitter A special multiplexing type hologram data storage system, characterized in that the polarizing plate is arranged between.