JP2000298880A - Optical information recording disk - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical information-recording disk where a hologram that can be simultaneously observed from the side of an optical recording surface (reading surface). SOLUTION: In the optical information recording disk, a first substrate 5 where a recessed and projecting pattern for expressing the interference fringes of a hologram is formed, a reflective thin-film layer 4 is formed on it and a second substrate 1 where the recessed and projecting pattern for expressing digital data is formed, and at least a semi-transmission thin-film layer 2 is formed on it, are laminated with an adhesive layer 3 via an adhesive layer in a side where the reflective thin-film layer 4 of the first substrate 5 is formed or the opposite side, and a side where the semi-transmission thin-film layer 2 of the second substrate 1 is formed or the opposite side.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical information recording disk, and more particularly to an optical information recording disk having a design including a hologram generated by a computer in a DVD or the like.

[0002]

2. Description of the Related Art CDs and DVDs are used as optical information recording disks.
Etc. Proposals have been made to provide a hologram on the label side of these optical information recording disks from the viewpoint of the designability and the prevention of forgery (Japanese Patent Application Laid-Open No. 7-500938).
issue). However, in this proposal, a hologram cannot be provided to the optical recording surface, and a means for applying a design to the optical recording surface has been desired. In particular, since DVDs have a disc specification for recording data on both sides, a label cannot be created by conventional silk printing, and it has been desired to provide means for designing the optical recording surface itself.

[0003]

SUMMARY OF THE INVENTION The present invention has been made in view of such a situation of the prior art, and has as its object to provide an optical recording apparatus having a hologram provided with a hologram which can be simultaneously observed from the optical recording surface (reading surface) side. It is to provide an information recording disk.

[0004]

In order to achieve the above object, the first optical information recording disk of the present invention has a concavo-convex pattern expressing interference fringes of a hologram, and at least a reflective thin film layer formed thereon. The first substrate having the concave and convex pattern representing digital data formed thereon and the second substrate having at least a semi-transparent thin film layer formed on the first substrate are bonded to the first substrate through an adhesive layer. It is characterized in that the side on which the thin film layer is formed or the opposite side is bonded to the side of the second substrate on which the semipermeable thin film layer is formed or the opposite side.

This optical information recording disk is a single-sided, two-layer, single-sided reading optical information recording disk (DVD-9).
The second layer on which the hologram data is recorded is a portion where no digital data is recorded, and is used as if it were a single-sided single-layer disc (DVD-5).

In the second optical information recording disk of the present invention, an uneven pattern representing digital data is formed, at least a semi-transparent thin film layer is formed thereon, and an uneven pattern expressing interference fringes of a hologram is formed thereon. Is formed thereon, a first substrate on which at least a reflective thin film layer is formed, and a concavo-convex pattern representing digital data are formed thereon, and at least a semi-transparent thin film layer is formed thereon, and a hologram is formed thereon. A second pattern in which an uneven pattern expressing interference fringes is formed, and at least a reflective thin film layer is formed thereon;
Characterized in that the side of the first substrate on which the reflective thin-film layer is formed and the side of the second substrate on which the reflective thin-film layer is formed are bonded together via an adhesive layer. Is what you do.

In the third optical information recording disk of the present invention, a concavo-convex pattern expressing interference fringes of a hologram is formed.
A first substrate on which at least a reflective thin film layer is formed, a concave / convex pattern representing digital data is formed thereon, and at least a semi-transparent thin film layer is formed thereon, and interference fringes of a hologram are expressed. An uneven pattern is formed, at least a reflective thin film layer is formed thereon, and an uneven pattern representing digital data is formed thereon,
A second substrate on which at least a semi-transparent thin film layer is formed, and an adhesive layer on the side of the first substrate on which the reflective thin film layer is formed and the reflective thin film layer of the second substrate Characterized by being bonded to the side on which is formed.

A fourth optical information recording disk according to the present invention has an uneven pattern representing digital data formed thereon, at least a semi-transparent thin film layer formed thereon, and an uneven pattern expressing interference fringes of a hologram thereon. Is formed, a first substrate on which at least a reflective thin film layer is formed, and a concavo-convex pattern expressing interference fringes of a hologram are formed thereon, and at least a reflective thin film layer is formed thereon, and An uneven pattern representing digital data is formed,
A second substrate on which at least a semi-transparent thin film layer is formed, and an adhesive layer on the side of the first substrate on which the reflective thin film layer is formed and the reflective thin film layer of the second substrate Characterized by being bonded to the side on which is formed.

These optical information recording disks are two-sided, two-layered, two-sided, read-out optical information recording disks. The second layer, on which hologram data is recorded, is a portion on which digital data is not recorded. DVD-
It is used as in 10).

In the fifth optical information recording disk of the present invention, a concavo-convex pattern representing digital data is formed in any part, and a hologram is formed on at least a part of the part where the concavo-convex pattern representing the digital data is not formed. It is characterized in that an uneven pattern expressing interference fringes is formed.

In this case, it is desirable that the concave / convex pattern expressing the interference pattern of the hologram be observable through a semi-permeable thin film layer formed at least partially on the concave / convex pattern representing the digital data.

According to a sixth aspect of the present invention, there is provided an optical information recording disk on which an uneven pattern representing digital data is formed, wherein at least a semi-permeable thin film layer is formed on the uneven pattern representing digital data. And
And, at least a part of the side opposite to the reading side of the uneven pattern representing the digital data is formed with an uneven pattern expressing interference fringes of a hologram, and at least a reflective thin film layer is formed thereon, The reproduction image by the concave-convex pattern expressing the interference fringes of the hologram can be observed from the same direction as the reading side of the concave-convex pattern representing the digital data.

In the above optical information recording disk, the concavo-convex pattern representing digital data is composed of a binary concavo-convex pattern having a constant height, and the concavo-convex pattern representing interference fringes of the hologram is composed of a binary concavo-convex pattern having the same height. It is desirable to become.

In the optical information recording disk of the present invention,
In any case, a reproduced image of the hologram can be simultaneously observed from the reading surface side, and a design can be applied to the optical recording surface of the optical information recording disk, and a hologram for preventing forgery can be provided.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The basic principle of the present invention is that digital data is represented and recorded by the length in the direction along the track of a concavo-convex pattern called a pit (a hole or a projection having a constant depth) provided on the track. In an optical information recording disk such as a DVD, where digital data is not recorded, recording is performed so as to express hologram interference fringes by the shape and arrangement of the pits, and digital data is read from the digital data reading side. The present invention relates to an optical information recording disk in which a design pattern or a reproduction pattern for preventing forgery can be visually checked by using the hologram without disturbing the disc.

FIG. 15 shows an example of an optical information recording disk.
Shows part of a DVD. In the DVD, a hole having a height of 0.1 μm and a width of 0.3 μm called a pit is formed along a track having a pitch of 0.74 μm on the back surface of a transparent resin layer having a thickness of 0.6 mm. Digital data is represented by the length of the pit in the track direction. A reflective film made of metal is provided on the entire back surface of the transparent resin layer on which the pits are formed, and a resin protective film is formed on the surface of the reflective film. When a laser spot is formed on the track from the transparent resin layer side by the objective lens, if there is a pit, a part of the laser light is diffracted at the edge of the pit and the amount of light returning to the objective lens decreases,
If there is no pit, there is no decrease in the light amount, and the digital data represented by the pit is read.

FIG. 14 shows a pit arrangement in which pits arranged along a track are arranged around a point where the pits intersect a group of broken lines crossing the track, and the length of each pit is made approximately half the distance between the broken lines. FIG. 4 is a diagram showing a pit sequence arranged along one broken line to form a pseudo curve.
Therefore, when the interference fringes of the hologram are used as the group of broken lines, such a pit arrangement enables the same function as the interference fringes of the relief hologram. This is the principle used in the optical information recording disk of the present invention. The shape and arrangement of the pits that represent such hologram interference fringes can be calculated using a computer.

An embodiment of the optical information recording disk according to the present invention will be described below. FIG. 1 is a sectional view showing an example of the optical information recording disk of the present invention. An uneven pattern composed of pit groups of digital data (DVD data) is formed on a substrate 1 on which a transparent resin layer is formed, and a semi-permeable thin film layer 2 is formed on an uneven surface. On the other hand, on the surface of another substrate 5, an uneven pattern composed of a group of pits expressing interference fringes of the relief hologram is formed, and the reflective thin film layer 4 is formed on the uneven surface.

As the material of the substrates 1 and 5, a polycarbonate resin is mainly used. In forming the concavo-convex pattern, the resin is injection-molded using, for example, a nickel stamper or the like. The translucent thin-film layer 2 and the reflective thin-film layer 4 are usually formed by sputtering or vapor deposition. The semi-transmissive thin-film layer 2 is mainly made of a thin metal film such as gold or a dielectric material. A film is used, and aluminum is mainly used for the reflective thin film layer 4. The semi-transmissive thin film layer 2 and the reflective thin film layer 4 are provided with protective layers 6 and 7 as appropriate.
Is formed. As an example of forming the protective layers 6 and 7, an ultraviolet curable resin is applied by a spin coater, and is provided by being cured by ultraviolet curing. Then, by bonding both substrates 1 and 5 via the adhesive layer 3 between the protective layer 6 and the protective layer 7,
An optical information recording disk according to one embodiment of the present invention can be obtained. As the adhesive layer 3, a hot melt adhesive having a high light transmittance, an ultraviolet curable adhesive, or the like is mainly used.

In such an optical information recording disk,
Digital data in which the semi-permeable thin film layer 2 is formed on the uneven surface is read through the substrate 1 in the direction of the arrow in FIG.
The reconstructed image of the relief hologram in which the reflective thin film layer 4 is formed on the uneven surface is also shown in FIG. 1 through the base material 1, the semi-transparent thin film layer 2, the protective layer 6, the adhesive layer 3, and the protective layer 7. It can be observed from the direction of the arrow.

FIG. 2 is a modification of FIG. In this example, the two substrates 1 and 5 are bonded together via the adhesive layer 3 between the protective layer 6 and the substrate 5. In this optical information recording disk, digital data in which the semi-permeable thin film layer 2 is formed on the uneven surface is read through the substrate 1 in the direction of the arrow in FIG. Also, the reconstructed image of the relief hologram in which the reflective thin film layer 4 is formed on the uneven surface has a substrate 1, a semi-transparent thin film layer 2,
It can be similarly observed from the direction of the arrow in FIG.

FIG. 3 is also a modification of FIG. In this example, the two substrates 1 and 5 are bonded together via the adhesive layer 3 between the substrate 1 and the protective layer 7. In this optical information recording disk, digital data having the semi-transparent thin film layer 2 formed on the uneven surface is read through the protective layer 6 in the direction of the arrow in FIG. The reproduced image of the relief hologram in which the reflective thin film layer 4 is formed on the uneven surface is also shown in FIG. 3 via the protective layer 6, the semi-transparent thin film layer 2, the base material 1, the adhesive layer 3, and the protective layer 7. It can be observed from the direction of the arrow.

FIG. 4 is also a modification of FIG. In this example, the two substrates 1 and 5 are bonded together via the adhesive layer 3 between the substrates 1 and 5. In this optical information recording disc,
Digital data in which the semipermeable thin film layer 2 is formed on the uneven surface is read through the protective layer 6 in the direction of the arrow in FIG. In addition, the reproduced image of the relief hologram in which the reflective thin film layer 4 is formed on the uneven surface is also shown in FIG. 4 through the protective layer 6, the semi-transparent thin film layer 2, the substrate 1, the adhesive layer 3, and the substrate 5. It can be observed from the direction of the arrow.

FIG. 5 is a sectional view showing another example of the optical information recording disk of the present invention. The optical information recording disk of this embodiment is a double-sided two-layer type optical information recording disk. The base material 1 on which the transparent resin layer is formed has digital data (DV
A concavo-convex pattern composed of pit groups of (D data) is formed, and a semi-permeable thin film layer 2 is formed on the concavo-convex surface. A transparent resin layer 8 is formed on the semi-transparent thin film layer 2, an uneven pattern composed of pits expressing interference fringes of a relief hologram is formed on the surface thereof, and a reflective thin film layer 4 is formed on the uneven surface. You. A protective layer 7 is appropriately formed on the reflective thin film layer 4. Two disks 11 and 12 having the same configuration
Are bonded back to back via the adhesive layer 3 between the protective layers 7. In this optical information recording disk, digital data in which the semi-permeable thin film layer 2 is formed on the uneven surface of one disk 11 is:
It is read from the lower side of FIG. The reproduced image of the relief hologram in which the reflective thin film layer 4 is formed on the uneven surface is also shown in FIG.
Can be observed from below. Similarly, with respect to the other disk 12, digital data is read from the upper side in FIG. 5 through the base material 1, and a reproduced image of the relief hologram is similarly viewed from the upper side in FIG. Observable.

FIG. 6 is a sectional view showing another example of the optical information recording disk of the double-sided two-layer type of the present invention. On the surface of the base material 5, an uneven pattern composed of pit groups expressing interference fringes of the relief hologram is formed, and the reflective thin film layer 4 is formed on the uneven surface. A transparent resin layer 9 is formed on the reflective thin film layer 4, and digital data (DVD
An uneven pattern consisting of pit groups of data) is formed,
The semi-permeable thin film layer 2 is formed on the uneven surface. A protective layer 6 is appropriately formed on the semi-permeable thin film layer 2. Two disks 13 and 14 having the same configuration are bonded together with the disks 13 and 14 back to back via the adhesive layer 3 between the substrates 5. In this optical information recording disk, digital data in which the semi-transparent thin film layer 2 is formed on the uneven surface of one disk 13 is read from the lower side of FIG. Further, a reproduced image of a relief hologram in which the reflective thin film layer 4 is formed on the uneven surface can be similarly observed from the lower side in FIG. 6 via the protective layer 6 and the transparent resin layer 9. Similarly, with respect to the other disk 14, digital data is read from the upper side of FIG.
A reconstructed image of the relief hologram can also be observed from above in FIG. 6 via the protective layer 6 and the transparent resin layer 9.

FIG. 7 shows the disk 11 on one side in FIG. 5 and the disk 13 on one side in FIG. 6 bonded back to back between the protective layer 7 and the base material 5 with the adhesive layer 3 interposed therebetween. The reading of the digital data and the observation of the reproduced image of the relief hologram are the same.

FIG. 8 is a diagram showing another example of the optical information recording disk of the present invention. FIG. 1A is a sectional view, and FIG. 1B is a plan view. Hole 23 at the center of the disc on the surface of the substrate 21
Are formed in the central area around the pit group of pits of digital data (DVD data).
An uneven pattern 25 composed of a group of pits expressing interference fringes of a relief hologram is formed in the periphery. A reflective thin film layer 26 is formed on the uneven surface of the uneven pattern 24,
On the uneven surface of the uneven pattern 25, a reflective thin film layer 26 'is formed. Reflective thin film layer 26 and reflective thin film layer 26 '
May be made of the same material or different materials. A protective layer 28 is appropriately formed on the reflective thin film layers 26 and 26 '. Such a disk 15 is bonded to the dummy disk 22 via the adhesive layer 3 on the protective layer 28 side. In this optical information recording disc,
The digital data in the central area where the reflective thin film layer 26 is formed on the uneven surface is read from the lower side of FIG. Also, a reconstructed image 27 of a relief hologram in a peripheral area where the reflective thin film layer 26 'is formed on the uneven surface.
Can be observed from the lower side of FIG. FIG. 8B shows this state.

FIG. 9 is a modification of FIG. That is, an uneven pattern 24 composed of pit groups of digital data (DVD data) is formed on the surface of the substrate 21, and a reflective thin film layer 26 is formed on the uneven surface of the uneven pattern 24. 8 is an optical information recording disk in which the disk 15 of FIG. 8 is bonded to the normal optical information recording disk 16 on which a protective layer 28 is appropriately formed on the protective layers 28 and 28 side via an adhesive layer 3. . The digital data of the disk 16 is read from the upper side of FIG. The digital data in the central area of the disk 15 is
It is read from the lower side of FIG. Also,
A reproduced image of the relief hologram in the peripheral area can be similarly observed from the lower side of FIG.

FIG. 10 is also a modification of FIG. This example is an optical information recording disk in which disks 15 and 17 similar to the disk 15 in FIG. 8 are bonded together on the protective layers 28 and 28 via the adhesive layer 3. The digital data of the central area of the disk 17 is read from the upper side of FIG. Further, the reproduced image of the relief hologram in the peripheral region can be similarly observed from above in FIG. Digital data in the central area of the disk 15 is read from the lower side of FIG.
Further, the reproduced image of the relief hologram in the peripheral region can be observed from the lower side in FIG.

FIG. 11 is also a modification of FIG. In this example, the disk 18 stores digital data (DV
An irregular pattern 24 composed of a pit group of D data) is formed, and an irregular pattern 25 composed of a pit group expressing interference fringes of a relief hologram is formed around the pit group. A semi-permeable thin film layer 2 is formed, and a protective layer 28 is appropriately formed on the semi-permeable thin film layer 2. Meanwhile, the disk 1
The disk 19 bonded to the protective layer 8 with the protective layer 8 has the same configuration as the substrate 5 on which the concave and convex pattern formed of the pit group expressing the interference fringes of the relief hologram of FIG. The digital data is read from the lower side of FIG. Also,
A reproduced image of the relief hologram in the peripheral area of the disk 18 can be similarly observed from the lower side of FIG. Further, the reproduced image of the relief hologram of the entire area of the disk 19 can be similarly observed from the lower side of FIG. 11 through the disk 18 and the base material 7 thereof.

FIG. 12 shows the reading / reading operation, contrary to FIG.
An uneven pattern 24 of digital data (DVD data) is recorded on the entire area of the disk 31 on the observation side (lower side in FIG. 12), and the semi-transparent thin film layer 2 is used as a reflection layer for reading and reading.
A concave / convex pattern 25 composed of a group of pits expressing interference fringes of a relief hologram is formed in the central region of the disk 32 on the side opposite to the observation side (upper side in FIG. 12), and pit groups of digital data (DVD data) are formed in the peripheral region. This is an example in which a concavo-convex pattern 24 is formed, and a reflective thin film layer 26 is used as the reflective layer.

FIG. 13 shows an example in which two optical information recording disks 33 and 34 according to FIG. 12 are bonded back to back to form a double-sided, two-layer type optical information recording disk, and a description thereof will be omitted.

In the examples of FIGS. 8 to 13 described above, FIGS.
As in FIG. 4, the positions of the base material 21 and the protective layer 28 may be exchanged.

Although the optical information recording disk of the present invention has been described based on the embodiments, the present invention is not limited to these embodiments, and various modifications are possible.

[0035]

As is apparent from the above description, according to the optical information recording disk of the present invention, the reproduced image of the hologram can be simultaneously observed from the reading surface side, and the design is formed on the optical recording surface of the optical information recording disk. Or a hologram for preventing forgery can be provided.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an example of an optical information recording disk of the present invention.

FIG. 2 is a sectional view showing a modified optical information recording disk of FIG. 1;

FIG. 3 is a sectional view showing an optical information recording disk according to another modification of FIG. 1;

FIG. 4 is a sectional view showing an optical information recording disk according to still another modification of FIG. 1;

FIG. 5 is a sectional view showing another example of the optical information recording disk of the present invention.

FIG. 6 is a cross-sectional view showing another example of a double-sided, dual-layer type optical information recording disk of the present invention.

FIG. 7 is a cross-sectional view showing an example of an optical information recording disk in which the configurations of FIGS. 5 and 6 are combined.

FIG. 8 is a sectional view and a plan view showing another example of the optical information recording disk of the present invention.

FIG. 9 is a sectional view showing an optical information recording disk according to a modification of FIG. 8;

FIG. 10 is a sectional view showing an optical information recording disk according to another modification of FIG. 8;

FIG. 11 is a sectional view showing an optical information recording disk according to still another modification of FIG. 8;

FIG. 12 is a sectional view showing another example of the optical information recording disk of the present invention.

13 shows a double-sided 2 from the optical information recording disc according to FIG.
FIG. 3 is a cross-sectional view showing an example of a layer type optical information recording disk.

FIG. 14 is a diagram for explaining the principle used in the optical information recording disk of the present invention.

FIG. 15 is a diagram illustrating the principle of a DVD.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Substrate (for digital data) 2 ... Semi-transmissive thin film layer 3 ... Adhesive layer 4 ... Reflective thin film layer 5 ... Substrate (for hologram) 6 ... Protective layer (for digital data) 7 ... Protective layer (for hologram) 8, 9 ... transparent resin layer 11, 12, 13, 14, 15, 16, 17, 18, 1
9 Disc 21 Base 22 Dummy Disc 23 Hole 24 at the center of disc 24 Uneven pattern consisting of pit groups of digital data (DVD data) 25 Uneven pattern consisting of pit groups expressing interference fringes of relief hologram 26 .. 26 ′ reflective thin film layer 27 reproduced image of relief hologram 28 protective layer 31, 32 disk 33, 34 optical information recording disk

Claims (8)

[Claims] An uneven pattern expressing interference fringes of a hologram is formed, a first substrate on which at least a reflective thin film layer is formed, and an uneven pattern indicating digital data are formed thereon, and at least an uneven pattern representing digital data is formed thereon. The second substrate on which the semi-transparent thin film layer is formed is connected, via an adhesive layer, to the side of the first substrate on which the reflective thin film layer is formed or the opposite side thereof and the semi-transparent thin film of the second substrate An optical information recording disk characterized in that the side on which a layer is formed or the opposite side is bonded. 2. An uneven pattern representing digital data is formed, at least a semi-transparent thin film layer is formed thereon, and an uneven pattern expressing interference fringes of a hologram is formed thereon, and at least a reflective pattern is formed thereon. A first substrate on which a thin film layer is formed, a concavo-convex pattern representing digital data are formed, at least a semi-transparent thin film layer is formed thereon, and a concavo-convex pattern expressing interference fringes of a hologram is formed thereon. And a second substrate on which at least a reflective thin film layer is formed, and a side of the first substrate on which the reflective thin film layer is formed and a reflective thin film layer of the second substrate, via an adhesive layer. An optical information recording disk characterized in that the optical information recording disk is bonded to a side on which is formed. 3. An uneven pattern representing interference fringes of a hologram is formed, at least a reflective thin film layer is formed thereon, an uneven pattern representing digital data is formed thereon, and at least a semi-transmissive pattern is formed thereon. A first substrate on which a thin film layer is formed, an uneven pattern expressing interference fringes of a hologram is formed, at least a reflective thin film layer is formed thereon, and an uneven pattern representing digital data is formed thereon; A second substrate on which at least a semi-transparent thin film layer is formed, and an adhesive layer on the side of the first substrate on which the reflective thin film layer is formed and the reflective thin film layer of the second substrate An optical information recording disk characterized in that the optical information recording disk is bonded to a side on which is formed. 4. An uneven pattern representing digital data is formed, at least a semi-transparent thin film layer is formed thereon, and an uneven pattern expressing interference fringes of a hologram is formed thereon, and at least a reflective pattern is formed thereon. A first substrate on which a thin film layer is formed, an uneven pattern expressing interference fringes of a hologram is formed, at least a reflective thin film layer is formed thereon, and an uneven pattern representing digital data is formed thereon; A second substrate on which at least a semi-transparent thin film layer is formed, and an adhesive layer on the side of the first substrate on which the reflective thin film layer is formed and the reflective thin film layer of the second substrate An optical information recording disk characterized in that the optical information recording disk is bonded to a side on which is formed. 5. A concavo-convex pattern representing digital data is formed in any part, and a concavo-convex pattern expressing interference fringes of a hologram is formed in at least a part of the part where the concavo-convex pattern representing digital data is not formed. An optical information recording disk, characterized in that: 6. The method according to claim 1, wherein the uneven pattern expressing the interference fringes of the hologram is arranged so as to be observable through a translucent thin film layer formed at least partially on the uneven pattern indicating the digital data. 6. The optical information recording disk according to claim 5, wherein: 7. An optical information recording disk on which a concave / convex pattern representing digital data is formed, wherein at least a semi-transparent thin film layer is formed on the concave / convex pattern representing digital data and represents the digital data. An uneven pattern expressing the interference fringes of the hologram is formed on at least a part of the side opposite to the reading side of the uneven pattern, and at least a reflective thin film layer is formed thereon, and the uneven pattern representing the digital data is formed. An optical information recording disk, characterized in that a reproduced image can be observed from a concavo-convex pattern expressing interference fringes of the hologram from the same direction as the reading side. 8. The uneven pattern representing the digital data comprises a binary uneven pattern having a constant height, and the uneven pattern expressing the interference fringes of the hologram comprises a binary uneven pattern having the same height. Claim 1 characterized by the following:
8. The optical information recording disk according to any one of items 1 to 7, above.