KR20050107278A - Hologram memory medium - Google Patents

Abstract

It is an object of the present invention to provide a hologram memory medium capable of easily acquiring address information while minimizing a reduction in recording capacity. A hologram memory medium having a non-information recording area provided outside the information recording area as a card-shaped hologram memory medium.

Description

Hologram memory medium

The present invention relates to a memory medium, and more particularly to a hologram memory medium for recording information as interference stripes by object light and reference light.

In recent years, a rewritable optical disc such as a phase change type or a magneto-optical type has been widely used as an information recording medium. In order to further increase the recording density, these optical discs require techniques such as reducing the beam spot diameter and reducing the distance between adjacent tracks or adjacent bits.

As described above, although the density of optical discs is advanced every year, on the other hand, since the optical discs record data in plane, the recording density is limited by the diffraction limit of light, thereby approaching the physical limit of high density recording. Therefore, in order to further increase the capacity, three-dimensional (volume-type) multiple recording including the depth direction is required.

Therefore, as a next-generation computer file memory, a hologram memory having both a large capacity derived from a three-dimensional multi-recording area and a high speed derived from a two-dimensional batch recording and reproducing method has attracted attention. The hologram memory irradiates object light and reference light corresponding to the recording information to a recording medium formed by inserting a recording layer made of a photopolymer or the like as a recording material between two glass plates, for example, and generates by both lights. The interference stripe is recorded as a change in the refractive index of the recording material. When the information is reproduced, only the reference light is irradiated to the recorded interference stripe to extract optical information corresponding to the recording information.

As the hologram memory, various forms such as a cubic shape and a card shape have been proposed. For example, as for the card shape, a hologram memory which increases the recording capacity by multilayering the recording layer on which the waveguide is formed is known ( For example, Japanese Patent Laid-Open No. 2000-67204.

In general, in the case of recording or reproducing information in the hologram memory, for example, as shown in Fig. 10, information is recorded or reproduced in the horizontal direction along the reference line, and once the end of the reference line is reached, the recording or reproducing operation is performed. It stops, moves to the next adjacent reference line, and repeats the operation of executing recording or reproducing of information in the transverse direction along the reference line as before. However, the recording and reproducing method described above is not a problem when recording or reproducing a series of information at the same time. Will be needed.

An object of the present invention is to provide a hologram memory medium capable of easily acquiring address information while minimizing a reduction in recording capacity.

In order to achieve the above technical problem, the present invention proposes the following matters.

The invention according to claim 1 proposes a hologram memory medium in which a non-information recording area is provided outside the information recording area as a card-shaped hologram memory medium.

According to the present invention, the non-information recording area can be efficiently arranged by providing the non-information recording area on the card-shaped hologram memory medium outside the information recording area.

The invention according to claim 2 proposes a hologram memory medium in which the address information is contained in the non-information recording area in the hologram memory medium according to claim 1.

According to the present invention, by providing a non-information recording area including at least address information outside the information recording area in a card-shaped hologram memory medium, accurate search can be performed in a short time by using address information for arbitrary information.

In the invention according to claim 3, in the hologram memory medium according to claim 2, the non-information recording area is provided at an outer edge, and the address information is at least one of four sides of the non-information recording area. A hologram memory medium is provided which is provided at the side.

According to the present invention, the address information is provided on at least one side of four sides of the non-information recording area provided in the outer edge portion, whereby the address information is used for correct information in a short time by using the address information. You can search.

The invention according to claim 4 proposes a hologram memory medium which is a card-shaped hologram memory medium in which an information recording area is divided into a plurality of zones, and a non-information recording area is provided outside the information recording area of each zone. have.

According to the present invention, in addition to the operation obtained in claim 1, by providing a non-information recording area outside each zone information recording area, it is possible to efficiently arrange the non-information recording area for each zone and at the same time. File management becomes easy.

The invention according to claim 5 proposes a hologram memory medium, wherein at least the address information is contained in the non-information recording area for the hologram memory medium according to claim 4.

According to the present invention, by providing a non-information recording area including at least address information outside the information recording area of each zone, accurate search can be performed in a short time by using address information for arbitrary information for each zone.

The invention according to claim 6, wherein, in the hologram memory medium according to claim 5, the non-information recording area is provided at the outer edge of the information recording area of each zone, and the address information is four of the non-information recording areas. A holographic memory medium is provided which is provided on at least one of the sides.

According to the present invention, the address information is provided on at least one of four sides of the non-information recording area provided in the outer edge, whereby accurate search can be performed in a short time by using these address information in each zone.

The invention according to claim 7 proposes a hologram memory medium wherein, for the hologram memory medium according to claim 2, 3 or 5, 6, the address information is a mark by printing.

According to this invention, since address information is a mark by printing, address information can be formed with a very simple structure.

The invention according to claim 8 proposes a hologram memory medium in which the address information is formed by a recess or a recess in the hologram memory medium according to claim 2, 3 or 5, 6.

According to this invention, the address information is formed by the convex portion or the concave portion, whereby the address information can be formed with a very simple configuration.

Hereinafter, a hologram memory medium according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 10.

1 shows a basic configuration of a hologram memory medium 100 according to the present invention. Referring to FIG. 1, the hologram memory medium 100 according to the present invention is composed of an information recording area 1 for recording information and a non-information recording area 2 formed at an outer circumferential portion of the information recording area 1. have. The information recorded in the non-information recording area 2 may be anything other than the so-called actual data recorded in the information recording area 1, for example, address information and the like. The information recorded in the non-information recording area 2 may be a mark by printing or may be the same as a groove formed by the recess or the recess.

FIG. 2 is a view of dividing the information recording area 1 of the hologram memory medium 100 of FIG. The region 12 is formed.

3 to 8 show address information 4 which is indispensable in the recording or reproducing operation of information in the non-information recording areas 2 and 12, and FIG. 3 shows an outer edge of the card-shaped hologram memory medium 100. As shown in FIG. One side of the non-information recording area 2 provided at the side is provided with address information 4 corresponding to the X direction or the Y direction. 5 includes a pair of address information 4 corresponding to the X-direction and the Y-direction in the non-information recording area 2 provided at the outer edge of the card-shaped hologram memory medium 100. In addition, FIG. 7 includes two sets of address information 4 corresponding to the X and Y directions in the non-information recording area 2 provided in the outer edge of the card-shaped hologram memory medium 100. 4, 6, and 8 correspond to FIGS. 3, 5, and 7, respectively, and address information is provided at the outer edge of each zone.

Here, the configuration of the hologram memory medium 100 is, for example, as shown in Fig. 9, the substrate 22, the hologram recording layer 23, the total reflection layer 24, the protective layer 25, the coat A layer (not shown), an adhesive layer (not shown), and the board | substrate 26 are comprised. Here, the substrates 22 and 26 are members forming the base of the hologram memory medium 100. The hologram recording layer 23 is made of a photosensitive material such as a photopolymer, for example, and records information of the object light as an interference stripe by irradiating the object light and the reference light at the same location.

The total reflection layer 24 is a layer that reflects the object light and the reference light incident on the hologram recording layer 23, and prevents the object light and the reference light from passing through the surface opposite to the surface having the information recording area. The protective layer 25 physically protects externally the servo information formed in the substrate 26, for example, in the shape of a recess or a recess. Pits (not shown) corresponding to the address information 4 are formed in the outer peripheral portion of the information recording area 1.

Next, an example of positioning control using address information will be described.

In the drive apparatus for recording information in the hologram memory medium 100 as shown in FIG. 3 or 4, for example, an optical pickup for recording and reproducing information, and the optical pickup are moved in the Y direction of FIG. A moving mechanism is provided.

When the information is first recorded on the hologram memory medium 100 as shown in FIG. 3, a write start address (for example, X = A, Y = A) is instructed from a CPU (not shown) in the drive apparatus. The optical pickup reproduces the address information 4 in the X direction and outputs it to the CPU. The CPU compares the input address information 4 with the recording start address and controls the optical pickup based on the result. When the optical pickup moves to a predetermined address in the X direction, the CPU then controls the moving mechanism for moving the optical pickup to move the optical pickup by the amount corresponding to the desired Y direction address. As a result, the optical pickup for recording and reproduction can be accurately moved to the recording start address.

In addition, when information is already recorded in the hologram memory medium 100 as shown in FIG. 3, for example, a write start address (e.g., X = M, Y = N) is input from a CPU (not shown) in the drive apparatus. Although indicated, the method of searching for the target address is the same as above. Also, the retrieval operation for reproducing the information recorded on the hologram memory medium 100 as shown in FIG. 3 is the same as the above method.

When the information is first recorded on the hologram memory medium 100 as shown in FIG. 4, for example, address information 4 corresponding to the zone information from a CPU (not shown) in the drive apparatus and the start of recording in the zone. An address (e.g., X = B, Y = B) is indicated. The optical pickup reproduces the address information 4 in the X direction provided in the predetermined zone and outputs it to the CPU. The CPU compares the input address information 4 with the write start address and controls the optical pickup based on the result.

When the optical pickup moves to a predetermined address in the X direction, the CPU then controls the moving mechanism for moving the optical pickup and moves the optical pickup by the amount corresponding to the desired Y direction address. As a result, the optical pickup for recording and reproduction can be accurately moved to the recording start address. The retrieval method in the case where information has already been recorded on the hologram memory medium 100 as shown in FIG. 4 is the same as that of FIG.

Next, in the drive apparatus for recording information in the hologram memory medium 100 as shown in Figs. 5 to 8, for example, an address information reading optical pickup for reading the address information 4 and information for recording and reproducing the information. An optical pickup for recording reproduction is provided.

When information is recorded for the first time on the hologram memory medium 100 as shown in FIG. 5, for example, a write start address (e.g., X = A, Y = A) is instructed from a CPU (not shown) in the drive apparatus. . The optical pickup that reads the address information 4 reproduces the address information 4 in the X direction and outputs it to the CPU, which compares the input address information 4 with the write start address and based on the result. Controls optical pickup for reading address information.

The optical pickup for reading address information and the optical pickup for reproducing recording are mechanically interlocked. When the address information reading optical pickup moves to a predetermined address in the X direction, the position in the X direction of the recording and reproducing optical pickup is locked. It is. When the address in the X direction of the address information read optical pickup is determined, the address information read optical pickup moves to the origin again, this time reproducing the address information 4 in the Y direction and outputting it to the CPU. The CPU compares the input address information 4 with the write start address and controls the optical pickup for reading address information based on the result.

At this time, the optical pickup for reading address information and the optical pickup for recording / reproducing are interlocked mechanically, and the optical pickup for recording / reproducing is locked when the optical pickup for reading address information reaches an address in a predetermined X direction. The address information is moved to a predetermined address in the Y direction in accordance with the movement of the address information reading optical pickup starting from the position in the X direction. As a result, the optical pickup for recording and reproduction can be accurately moved to the recording start address.

In addition, when information is already recorded in the hologram memory medium 100 as shown in FIG. 5, for example, a write start address (e.g., X = M, Y = N) is input from a CPU (not shown) in the drive apparatus. Although indicated, the method of searching for the target address is the same as above. Also, the retrieval operation for reproducing the information recorded in the hologram memory medium 100 as shown in FIG. 3 is the same as the above method.

Also, even when information is recorded on the hologram memory medium 100 as shown in Fig. 7, the search operation is basically the same, but the address information 4 in the X direction and the Y direction is placed in the outer peripheral portion of the hologram memory medium, respectively. Since reconstruction is recorded, the retrieval can be further speeded up by using the address information 4 in the vicinity according to the address to be accessed.

Next, when information is first recorded on the hologram memory medium 100 as shown in FIG. 6, for example, address information 4 corresponding to zone information from a CPU (not shown) in the drive apparatus, and the zone. The write start address (e.g., X = B, Y = B) in E is indicated. The optical pickup for reading address information reproduces the address information 4 in the X direction provided in the predetermined zone and outputs it to the CPU. The CPU compares the input address information 4 with the write start address and controls the optical pickup for reading address information based on the result.

At this time, the optical pickup for reading address information and the optical pickup for recording / reproducing are interlocked mechanically. The recording and reproducing optical pickup is locked when the optical pickup for reading address information reaches an address in a predetermined X direction. The address information is moved to a predetermined address in the Y direction in accordance with the movement of the address information reading optical pickup starting from the position in the X direction. As a result, the optical pickup for recording and reproduction can be accurately moved to the recording start address.

In addition, when information is already recorded in the hologram memory medium 100 as shown in FIG. 6, for example, the address information 4 corresponding to the zone information from a CPU (not shown) in the drive apparatus, and in the zone Although the write start address of (eg, X = N, Y = M) is indicated, the searching method for the target address is the same as above. Also, the retrieval operation for reproducing the information recorded on the hologram memory medium 100 as shown in FIG. 6 is the same as the above method.

Further, even when information is recorded on the hologram memory medium 100 as shown in FIG. 8, the search operation is basically the same, but the address information 4 in the X and Y directions is the outer periphery of each zone in the hologram memory medium. Since two pieces of data are recorded in each of the two, the search can be made faster by using the address information 4 in the vicinity depending on the address to be accessed.

Therefore, according to the hologram memory medium according to the present embodiment, when recording or reproducing information, the information recording area is used by using address information in the X direction and the Y direction provided on the outer circumference of the hologram memory medium or on the outer circumference of each zone in the hologram memory medium. Accurate positioning operations are possible throughout.

As mentioned above, although the Example of this invention was described in detail with reference to drawings, a specific structure is not limited to these Examples, A design change etc. of the range which does not deviate from the summary of this invention are included. For example, in the present embodiment, a method of searching for a specific address using only address information in the information recording area has been described. However, when searching for a desired address while having the address information separate in the actual data, the information in the information recording area is searched. An alternative search may be performed using only the address information, and then the desired method may be reached using the address information in the actual data.

In addition, in this embodiment, the card-shaped hologram memory medium is not specifically specified, but the hologram memory medium according to the present invention can be widely applied to a recordable medium by a photopolymer, a rewritable medium by LiNb03, or a multilayer waveguide type medium. Can be.

Although the foregoing description has been focused on the novel features of the invention as applied to various embodiments, those skilled in the art will appreciate that the apparatus and method described above without departing from the scope of the invention. It will be understood that various deletions, substitutions, and changes in form and detail of the invention are possible. Accordingly, the scope of the invention is defined by the appended claims rather than in the foregoing description. All modifications within the scope of equivalents of the claims are to be embraced within the scope of the present invention.

According to the present invention, since address information can be easily obtained while minimizing the reduction in recording capacity, there is an effect that an accurate search can be performed for any information in a short time.

According to the present invention, since even the hologram memory medium in which the information recording area is divided into multiple zones can easily obtain address information for each zone, it is possible to perform an accurate search for any information in a short time. .

1 is a diagram showing a basic aspect of a hologram memory medium according to the present invention.

FIG. 2 is a diagram showing a basic aspect when the information recording area of the hologram memory medium according to the present invention is divided into a plurality of zones.

3 is a configuration diagram when address information is provided on one side of an outer edge of a hologram memory medium according to the present invention.

Fig. 4 is a configuration diagram when address information is provided on one side of the outer edge of each zone of the hologram memory medium according to the present invention.

5 is a configuration diagram when address information is provided on two sides of the outer edge of the hologram memory medium according to the present invention.

Fig. 6 is a configuration diagram when address information is provided on two sides of the outer edge of each zone of the hologram memory medium according to the present invention.

7 is a configuration diagram when address information is provided around all the outer edges of the hologram memory medium according to the present invention.

Fig. 8 is a configuration diagram when address information is provided around all the outer edges of each zone of the hologram memory medium according to the present invention.

9 is a diagram illustrating a configuration of a hologram memory medium.

10 is a conceptual diagram showing a conventional recording method.

<Description of the code>

1, 11-information recording area,

2, 12-non-information recording area

3-zone

4-address information

22, 26-Board

23-hologram recording layer

24-Total Reflection

25-protective layer

100-hologram memory media

Claims (8)

As a card-shaped hologram memory medium, A hologram memory medium characterized by providing a non-information recording area outside the information recording area. The method of claim 1, And at least address information in the non-information recording area. The method of claim 2, And the non-information recording area is provided on the outer edge, and the address information is provided on at least one of four sides of the non-information recording area. As a card-shaped hologram memory medium, An information recording area is divided into a plurality of zones, and a non-information recording area is provided outside the information recording area of each zone. The method of claim 4, wherein And at least address information in the non-information recording area. The method of claim 5, And the non-information recording area is provided at an outer edge of the information recording area of each zone, and the address information is provided on at least one of four sides of the non-information recording area. The method according to any one of claims 2, 3, 5, or 6, And the address information is a mark by printing. The method according to any one of claims 2, 3, 5, or 6, And the address information is formed by a recess or a recess.