KR100767949B1 - Method of recording optical information and reproducing optical information - Google Patents

Abstract

A method for recording and reproducing optical information is provided to simplify the configuration of an optical information processing device by eliminating a space filter and to improve the optical information recording density by overlapping optical information recording regions. A beam provided from a light source(100) is divided into a reference beam(R1) and a signal beam(S1). Data is loaded in the signal beam incident to an optical information recording medium(200). The reference beam is multiplexed at different multiplexing angles on a plurality of incident planes. The signal beam and the reference beam are crossed in the optical information recording medium to multiplex and record the optical information in a recording section. The incident planes include first, second, and third incident planes provided with first, second, and third multiplexing angles, respectively.

Description

Method of recording optical information and reproducing optical information

1 is an operation diagram showing an optical information recording method according to an embodiment of the present invention.

2A is a conceptual diagram illustrating that reference light is angularly multiplexed and recorded in a first incident direction according to an exemplary embodiment of the present invention.

2B is a conceptual diagram illustrating that reference light is angularly multiplexed and recorded in a second incident direction according to an embodiment of the present invention.

2C is a conceptual diagram illustrating that the reference light is angularly multiplexed and recorded in the third incidence direction according to an embodiment of the present invention.

3 is a simplified diagram showing a recording area partially overlapped and recorded according to the embodiment of the present invention.

4 is a table showing an example of a recording pattern of a recording area partially overlapped recording according to the embodiment of the present invention.

5 is an operation diagram showing a method of reproducing optical information according to an embodiment of the present invention.

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

150: angle adjuster

A1: first incidence plane

A2: second entrance plane

A3: third entrance plane

The present invention relates to an optical information recording and reproducing method, and provides an optical information recording and reproducing method for recording and reproducing optical information by angularly multiplexing reference light in a plurality of incidence planes formed in different directions.

Optical data processing apparatuses include Digital Versatile Disc (DVD), HD-DVD, Blu-ray Disc (BD), near field light processing apparatus, holographic light processing apparatus, and the like.

The holographic light processing apparatus stores a data by irradiating a storage medium with an optical modulated signal beam and a reference beam that intersects the signal light to form an interference pattern on the storage medium. The reproduction of the data scans only the reference light into the interference fringe of the storage medium so that the data input to the storage medium is output by diffraction generated from the interference fringe.

In order to increase the recording capacity, the holographic light processing apparatus may store data in multiplex by irradiating a reference light to one recording area at different angles. The multi-input data can be output by irradiating only the reference light at different angles during reproduction. In other words, the holographic light processing device is a supercapacitive data storage device capable of inputting and outputting data in a multi-layered and overlapping state at one light spot.

A light processing apparatus such as a holographic light processing apparatus uses an apparatus or method for multiplexing light. Methods of multiplexing light include angular multiplexing, phase-code multiplexing, wavelength multiplexing, and the like. Here, each multiplexing method is to multiplex by changing the incident angle of the reference light, the phase code multiplexing is to multiplex by modulating the phase spatially, and the wavelength multiplexing is to be multiplexed according to the wavelength change using a wavelength tunable laser.

Prior art for such a multiplexing method of light is disclosed in "polytopic multiplex holography" of US Patent Publication No. 2004-0179251.

Referring to the U.S. patent, when the optical information is recorded, the neighboring optical information recording areas are partially overlapped to increase the recording density of the optical information storage medium. Then, a reproduction reference light is made incident on the recording area to reproduce the optical information of the partially overlapped recording area.

In this way, when the reproduction reference light is incident on the recording area, the reproduction light including the optical information is generated. The reproduction light proceeds to a reproduction light detector which detects reproduction light and reproduces optical information.

At this time, as described above, the recording area to be reproduced has neighboring recording areas.

This partial overlap is recorded. Therefore, the reproduction reference light is also incident on the neighboring recording areas, and the reproduction light is reproduced from the neighboring recording areas and proceeds to the reproduction light detector at the same time.

The reproduction light reproduced from these neighboring recording areas acts as noise when the optical information of the recording area to be reproduced is reproduced.

Therefore, the optical information storage apparatus according to the US patent is provided with a spatial filter between the reproduction light detector and the optical information storage medium, and is configured to block the reproduction light reproduced from neighboring recording areas.

However, the optical information processing apparatus according to the US patent configured as described above has a problem that the configuration is complicated by providing a spatial filter between the reproduction light detector and the optical information storage medium.

In addition, due to an error in the initial setting value or an external factor such as vibration generated when the optical information storage medium rotates at high speed when optical information is reproduced, it is not possible to completely block the reproduction light reproduced from a neighboring recording area with the spatial filter. have.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem, and an object of the present invention is to reproduce the light of the recording area partially superimposed on the recording target region when the optical information recorded in the partially superimposed is out of the reproducing light detector. There is provided an optical information recording and reproducing method for detecting only the reproduction light of a target recording area.

The optical information recording method according to the present invention for achieving the above object is a separation step of separating the light provided from the light source into a reference light and a signal light; Incident step of loading data into the signal light incident to the optical information storage medium; And a multiplexing step of multiplexing the signals at different multiplexing angles on a plurality of different incidence planes. A recording step of multiplexing optical information in a recording area by crossing the signal light and the reference light in an optical information storage medium.

In the multiplexing step, the incidence plane is provided with a first incidence plane, a second incidence plane, and a third incidence plane, and the multiplexing angle includes a first multiplexing angle provided to the first incidence plane and the second incidence plane. And a second multiplexing angle provided at an angle different from the first multiplexing angle and a third multiplexing angle provided at the third incidence plane and different from the first multiplexing angle and the second multiplexing angle.

The recording may be performed such that the recording areas recorded on the optical information storage medium partially overlap with recording areas adjacent to each other.

The multiplexing may include multiplexing at a first multiplexing angle with respect to the first incident plane, multiplexing at a second multiplexing angle with respect to the second incident plane, and at a third multiplexing angle with respect to the third incident plane. And multiplexing at a second multiplexing angle with respect to the first incidence plane to multiplex the reference light to the adjacent recording area adjacent to the recording area. And multiplexing at a third multiplexing angle, and multiplexing at a first multiplexing angle with respect to the third incidence plane.

The multiplexing step in the recording area may include multiplexing at a first multiplexing angle with respect to the first incident plane, multiplexing at a second multiplexing angle with respect to the second incidence plane, and performing a multiplexing with respect to the third incidence plane. Multiplexing at three multiplexing angles, and multiplexing at a third multiplexing angle with respect to the first incidence plane to multiplex the reference light to the adjacent recording area adjacent to the recording area; The method may include multiplexing at a first multiplexing angle with respect to a plane, and multiplexing at a second multiplexing angle with respect to the third incident plane.

In addition, the optical information reproducing method according to the present invention for achieving the above object is a generation step of generating a reference light for reproduction in the light source; multiplexing step of multiplexing the reference light to different multiplexing angle on a plurality of different incidence plane; And a reproduction step of detecting the reproduction light reproduced from the optical information storage medium by inputting the multiplexed reproduction reference light into the recording area of the optical information storage medium.

In the multiplexing step, the incidence plane is provided with a first incidence plane, a second incidence plane, and a third incidence plane, and the multiplexing angle includes a first multiplexing angle provided to the first incidence plane and the second incidence plane. And a second multiplexing angle provided at an angle different from the first multiplexing angle and a third multiplexing angle provided at the third incidence plane and different from the first multiplexing angle and the second multiplexing angle.

In the reproducing step, the reproducing light can be reproduced from a recording area in which the recording areas of the optical information storage medium are partially overlapped with recording areas adjacent to each other.

The multiplexing may include multiplexing at a first multiplexing angle with respect to the first incident plane, multiplexing at a second multiplexing angle with respect to the second incident plane, and at a third multiplexing angle with respect to the third incident plane. And multiplexing at a second multiplexing angle with respect to the first incidence plane to reproduce the reproduced light in the adjacent recording region adjacent to the recording region. The method may include multiplexing at a third multiplexing angle, and multiplexing at a first multiplexing angle with respect to the third incident plane.

The multiplexing may include multiplexing at a first multiplexing angle with respect to the first incident plane, multiplexing at a second multiplexing angle with respect to the second incident plane, and at a third multiplexing angle with respect to the third incident plane. Multiplexing at a third multiplexing angle with respect to the first incidence plane to reproduce the reproduced light in the adjacent recording area adjacent to the recording area, and multiplexing with respect to the second incidence plane The method may include multiplexing at a first multiplexing angle and multiplexing at a second multiplexing angle with respect to the third incident plane.

Hereinafter, a configuration of an optical information processing apparatus according to an embodiment of the present invention as described above and an optical information recording method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an operation diagram showing an optical information recording method according to an embodiment of the present invention.

Referring to FIG. 1, a configuration of an optical information processing apparatus according to the present invention will be described first. The optical information processing apparatus according to the present invention includes a light source 100 for emitting light, a signal light S1, and a reference light R1. It is provided with a light splitter 110 to be divided into ().

In the advancing direction of the signal light S1 passing through the light splitter 110, a spatial light modulator 130 for loading a signal into the light and a Fourier lens 140 for Fourier modulating the light are provided. A shutter 120 is provided between the light splitter 110 and the spatial light modulator 130 to block the progress of the signal light S1 when the optical information is reproduced.

In addition, an angle adjusting unit 150 for multiplexed recording of the reference light is provided in the traveling direction of the reference light R1 reflected by the light splitter 110.

Here, the angle adjuster 150 may be implemented with at least two galvano mirrors (not shown) rotated in different directions, and in another embodiment, two wedge prisms rotating around an optical axis ( Not shown).

On the other hand, a reproduction light detector 300 for detecting the reproduction light is provided in the traveling direction of the reproduction light generated by injecting the reproduction reference light into the optical information storage medium 200. The reproduction light detector 300 may adopt an image sensing device having a pixel array such as a charge-coupled device (CCD) and a complementary metal-oxide semiconductor (CMOS).

The optical information storage medium 200 is provided with a recording area P1 of optical information having spatial interference fringes stored by interference of the signal light S1 and the reference light R1 in an inorganic / organic material such as a photorefractive crystal or a polymer. .

Hereinafter, an optical information recording method according to an embodiment of the present invention will be described in detail.

The optical information processing apparatus according to the present invention divides the light emitted from the light source 100 into the signal light S1 passing through the light splitter 110 and the reference light R1 reflected from the light splitter 110.

First, the signal light S1 passing through the optical splitter 110 proceeds by receiving a signal from the spatial light modulator 130. The modulated signal light is Fourier transformed through the Fourier lens 140 and directed to the optical information storage medium 200.

Meanwhile, the reference light R1 reflected by the light splitter 110 proceeds to the angle adjuster 150.

Hereinafter, the angle multiplexing method of the angle adjusting unit will be described in detail with reference to the accompanying drawings.

FIG. 2A is a conceptual diagram illustrating that reference light is angularly multiplexed and recorded in a first incident direction according to an embodiment of the present invention, and FIG. 2B is a conceptual diagram illustrating that reference light is angularly multiplexed and recorded in a second incident direction according to an embodiment of the present invention. 2C is a conceptual diagram illustrating that the reference light is angularly multiplexed and recorded in the third incidence direction according to the embodiment of the present invention.

2A to 2C, the angle adjuster 150 angularly multiplexes the reference light R1 traveling from the light splitter 110 along the first incident direction indicated in the drawing to form a first incident plane A1. (See FIG. 2A), angular multiplexing along the second incidence direction shown in the drawing, forming a second incidence plane A2 (see FIG. 2B), angular multiplexing along the third incidence direction shown in the drawing, A plane A3 is formed (see FIG. 2C).

In addition, the angle adjuster 150 may include a first multiplexing angle θ1 having a predetermined angle range on the first incident plane A1, the second incident plane A2, the third incident plane A3, and Each of the reference light beams has a second multiplexing angle θ2 not overlapping with the first multiplexing angle θ1, and a third multiplexing angle θ3 not overlapping with the first multiplexing angle θ1 and the second multiplexing angle θ2, respectively. Multiplex R1).

3 is a simplified diagram showing a recording area overlaid and recorded according to the embodiment of the present invention.

Referring to FIG. 3, the reference light R2 is multiplexed on the first incident plane A1 at a first multiplexing angle θ1 and multiplexed on the second incident plane A2 at a second multiplexing angle θ2. The first recording area P1 is formed on the third incident plane A3 by the third multiplexing angle θ3.

As such, when the first recording area is formed, the reference light R2 is multiplexed on the first incident plane A1 at the second multiplexing angle θ2, and on the second incident plane A2, the third multiplexing angle θ3. ) And multiplexed at a first multiplexing angle θ1 on the third incidence plane A3 to form a second recording area P2 so as to partially overlap the first recording area P1.

Subsequently, the reference light R2 is multiplexed on the first incident plane A1 at the third multiplexing angle θ3, and the reference light R2 is multiplexed on the second incident plane A2 at the first multiplexing angle θ1. The third recording area P3 is formed on the plane A3 at a second multiplexing angle θ2 so as to partially overlap with the second recording area P2.

In the above, the method of recording the recording areas partially overlapping each other has been partially described. However, the recording process of the optical information storage medium 200 is filled repeatedly by repeating the recording process of the optical information.

As described above, the optical information recording method according to the embodiment of the present invention can increase the recording density by recording the optical information recording area so as to overlap each other.

Hereinafter, an optical information superimposition recording and reproducing method according to an embodiment of the present invention will be described in detail with an example.

4 is a table showing an example of a recording pattern of a recording area overlaid and recorded according to an embodiment of the present invention.

Referring to FIG. 4, in the multiplexing method of reference light for optical information recording according to the present invention, first, within a first multiplexing angle θ1 of 1 ° to 20 ° along a first incident direction of the first incident plane A1. The reference light R1, the reference light R1 is recorded within the second multiplexing angle θ2 of 21 ° to 40 ° along the second incident direction of the second incident plane A2, and the third incident plane The reference light R1 is recorded within the third multiplexing angle θ3 of 41 ° to 60 ° along the third incident direction of (A3) to form the first recording area P1.

The reference light R1 is recorded within the second multiplexing angle θ2 of 21 ° to 40 ° along the first incidence direction of the first incidence plane A1, and the second incidence of the second incidence plane A2 is recorded. The reference light R1 is recorded within the third multiplexing angle θ3 of 41 ° to 60 ° along the direction, and the first multiplexing angle of 1 ° to 20 ° along the third incidence direction of the third incident plane A3. The reference light R1 is recorded in θ1 to form a second recording area P2 overlapping the first recording area P1.

In addition, the reference light R1 is recorded within the third multiplexing angle θ3 of 41 ° to 60 ° along the first incidence direction of the first incidence plane A1, and the second incidence of the second incidence plane A2 is recorded. The reference light R1 is recorded within the first multiplexing angle θ1 of 1 ° to 20 ° along the direction, and the second multiplexing angle of 21 ° to 40 ° along the third incidence direction of the third incident plane A3. The reference light R1 is recorded in θ2 to form a third recording area P3 overlapping the second recording area P2.

5 is an operation diagram showing a method of reproducing optical information according to an embodiment of the present invention.

Referring to FIG. 5, the optical information processing apparatus according to the present invention includes the light S2 passing through the light splitter 110 and the reference light for reproduction reflected from the light splitter 110. The process is divided into R2). At this time, the light S2 passing through the light splitter 110 is blocked by the shutter 120.

Meanwhile, the reproduction reference light R2 reflected by the light splitter 110 is directed to the angle adjuster 150. The angle adjuster 150 guides the reproduction reference light R2 to the reproduction target recording area P2 of the optical information storage medium 200.

At this time, the playback target recording area P2 is formed to partially overlap with the neighboring recording areas P1 and P3. Therefore, when the reproduction reference light R2 enters the reproduction object recording area P2, the reproduction light is emitted from the reproduction object recording area P2 and the recording areas P1 and P3 partially overlapped with the reproduction object recording area P2. Is played.

However, in each recording area P1, P2, P3, optical information is recorded at different incidence planes A1, A2, A3, and at different multiplexing angles θ1, θ2, θ3, so that the reproduction target recording area ( The reproduction light of P2 is directed to the reproduction light detector 300, and the reproduction light of the recording areas P1 and P3 partially overlapped with the reproduction object recording area P2 proceeds out of the reproduction light detector.

Hereinafter, the optical information reproducing method will be described with reference to an example of the recording pattern of the superimposed recording area according to the present invention shown in FIG. 4 to help understand the optical information reproducing method.

Referring back to FIG. 4, the angle adjuster 150 generates the reproduction reference light R2 for reproducing the optical information on the first incident plane A1 of the second recording area P2 in the first incident plane A1. The second recording area P2 is made to have an incidence angle of 21 ° on the image.

At this time, when the reproduction reference light R2 is incident on the second incident plane A2 of the second recording area P2 at an incident angle of 21 °, the first recording area where the reference light R1 was recorded at an incident angle of 21 °. The reproduction reference light R2 is also incident on the second incident plane A2 of P1 and the third incident plane A3 of the third recording area P3.

When the reproduction reference light R2 is incident in this way, the first incident plane A1 of the second recording region P2, the second incident plane A2 of the first recording region P1, and the third recording region The reproduction light is simultaneously reproduced from the third incidence plane A3 of P3.

However, the reference light R1 is formed of the first incident plane A1 of the second recording area P2, the second incident plane A2 of the first recording area P1, and the third recording area P3. It is recorded so as to face in different directions in the incidence plane A3. Therefore, the first incidence plane A1 of the second recording area P2, the second incidence plane A2 of the first recording area P1, and the third incidence plane A3 of the third recording area P3. The reproduction light reproduced from the above proceeds in different directions.

That is, when the reproduction reference light R2 of 21 ° is incident on the first incident plane A1 of the second recording area P2, 21 ° on the first incident plane A1 of the second recording area P2 is generated. The reconstructed light in which the reference light R1 recorded by the reconstructed light is restored and proceeds to the regenerated light detector 300, and the reconstructed light is transmitted to the regenerated light detector 300. The reference light R1 of 21 degrees recorded on the third incident plane A3 cannot be restored, so that the reproduced light travels out of the detection area of the reproduced light detector 300.

In the above, the reference information R2 at 21 ° is incident on the first incidence plane A1 of the second recording area P2, and the optical information is described as an example of the reproduction method. However, the reproduction reference light R2 is described. The light information may be reproduced by injecting the light at an angle of the reproduction reference light R2 corresponding to the angle of the reference light R1 recorded on the incident planes of the recording areas.

As described above, in the optical information recording and reproducing method according to the present invention, even when the optical information recording areas are overlaid and recorded, the optical information is reproduced by detecting only the optical information of the recording target recording area P2 when the optical information is reproduced.

In the optical information recording and reproducing method according to the present invention as described above, the optical information recording area can be overlaid to improve the optical information recording density, and a spatial filter is not required between the optical information storage medium and the reproduction light detector. Therefore, the configuration of the optical information processing apparatus can be simplified.

In addition, when the superimposed recorded optical information recording area is reproduced, only the reproduction light of the reproduction target recording area can be detected to increase the reproduction efficiency.

Claims (10)

A separation step of separating the light provided from the light source into a reference light and a signal light; An incident step of loading data into the signal light and entering the optical information storage medium; A multiplexing step of multiplexing the reference light at different multiplexing angles on a plurality of different incidence planes; And recording the optical information in a recording area by intersecting the signal light with the reference light in an optical information storage medium. The method of claim 1, wherein in the multiplexing step The incident plane is It is provided with a first incidence plane, a second incidence plane and a third incidence plane, The multiplexing angle is A first multiplexing angle provided to the first incidence plane, A second multiplexing angle provided at the second incidence plane and different from the first multiplexing angle; And a third multiplexing angle provided on the third incidence plane and being different from the first and second multiplexing angles. The method of claim 2, wherein the recording step And recording the recording areas recorded on the optical information storage medium so as to partially overlap with recording areas adjacent to each other. The method of claim 3, wherein the multiplexing step Multiplexing at a first multiplexing angle with respect to the first incident plane; Multiplexing at a second multiplexing angle with respect to the second incident plane; Multiplexing at a third multiplexing angle with respect to the third incident plane; To multiplex the reference light to the adjacent recording area adjacent to the recording area, Multiplexing at a second multiplexing angle with respect to the first incident plane; Multiplexing at a third multiplexing angle with respect to the second incident plane; And multiplexing at a first multiplexing angle with respect to the third incidence plane. The method of claim 3, wherein the multiplexing step Multiplexing at a first multiplexing angle with respect to the first incident plane; Multiplexing at a second multiplexing angle with respect to the second incident plane; Multiplexing at a third multiplexing angle with respect to the third incidence plane, To multiplex the reference light to the adjacent recording area adjacent to the recording area, Multiplexing at a third multiplexing angle with respect to the first incident plane; Multiplexing at a first multiplexing angle with respect to the second incident plane; And multiplexing at a second multiplexing angle with respect to the third incidence plane. A generating step of generating a reference light for reproduction in the light source; A multiplexing step of multiplexing the reference light at different multiplexing angles on a plurality of different incidence planes; And a reproducing step of detecting the reproduced light reproduced from the optical information storage medium by entering the multiplexed reproduction reference light into the recording area of the optical information storage medium. 7. The method of claim 6, wherein in the multiplexing step The incident plane is It is provided with a first incidence plane, a second incidence plane and a third incidence plane, The multiplexing angle is A first multiplexing angle provided to the first incidence plane, A second multiplexing angle provided at the second incidence plane and different from the first multiplexing angle; And a third multiplexing angle provided on the third incidence plane and being different from the first and second multiplexing angles. The method of claim 7, wherein the regenerating step And the recording areas of the optical information storage medium reproduce the reproduced light from a recording area which is partially overlapped with a recording area adjacent to each other. The method of claim 8, wherein the multiplexing step Multiplexing at a first multiplexing angle with respect to the first incident plane; Multiplexing at a second multiplexing angle with respect to the second incident plane; Multiplexing at a third multiplexing angle with respect to the third incident plane; To reproduce the reproduction light in the adjacent recording area adjacent to the recording area, Multiplexing at a second multiplexing angle with respect to the first incident plane; Multiplexing at a third multiplexing angle with respect to the second incident plane; And multiplexing at a first multiplexing angle with respect to the third incidence plane. The method of claim 8, wherein the multiplexing step Multiplexing at a first multiplexing angle with respect to the first incident plane; Multiplexing at a second multiplexing angle with respect to the second incident plane; Multiplexing at a third multiplexing angle with respect to the third incidence plane, To reproduce the reproduction light in the adjacent recording area adjacent to the recording area, Multiplexing at a third multiplexing angle with respect to the first incident plane; Multiplexing at a first multiplexing angle with respect to the second incident plane; And multiplexing at a second multiplexing angle with respect to the third incidence plane.

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