JP4468132B2 - Hologram recording medium and manufacturing method thereof - Google Patents

Description

  The present invention relates to a hologram recording medium in which information is recorded as a hologram by interference between object light and reference light, and a method for manufacturing the same, and more particularly to a hologram recording medium on which a replication discrimination hologram used for discrimination of illegal duplication is formed and the method It relates to a manufacturing method.

  2. Description of the Related Art Conventionally, as a storage device used for a computer or the like, a device that performs two-dimensional writing and reading of information on a recording medium by magnetism or light is widely used. A hard disk or the like is known as a recording medium using magnetism, and a CD or DVD is known as a storage device using light. These storage devices have so far made remarkable progress in terms of recording density in order to meet the demand for larger capacity. As a means for further increasing the capacity, development of a storage device using the principle of holograms is in progress.

The hologram apparatus reads and reproduces information recorded on a recording medium as a hologram in page units. The coded page unit information is written on the recording medium as a pattern of refractive index change or the like. This pattern is a hologram formed by the interference between the object beam and the reference beam in the storage device. In order to read information from the recording medium, only the reference beam is incident on the recording medium from the light emitting unit and diffracted by the hologram pattern. Thus, the written information can be reproduced by receiving light by a light receiving portion made of a photoelectric conversion element such as a CCD or CMOS. Such a hologram apparatus is described in Patent Document 1, for example.
JP 2003-43904 A

  Further, the following methods are known for duplicating a hologram recording medium on which a hologram is formed. FIG. 19 is a diagram showing formation of a hologram recording medium 51 to be duplicated, and FIG. 20 is a diagram showing duplication of the hologram recording medium 51 as a master. The same hologram 53 formed on the recording layer 52 of the hologram recording medium 51 is formed on the replication recording layer 62 of the replication hologram recording medium 61.

  A plurality of holograms 53 are formed on the recording layer 52 of the hologram recording medium 51 by interference between the object beam 56 having a beam waist 56a at a predetermined height and the reference beam 55 from the light emitting unit 70, as shown in FIG. As shown in FIG. 20, the holograms 53 and 53 formed on the recording layer 52 generate reproduction light 66 corresponding to the object light 56 on which the hologram 53 is formed when the reference light 65 is incident thereon. The reproduction light 66 converges on the beam waist 66a and then becomes a divergent light beam.

  As shown in FIG. 20, the light emitting unit 70 has a lens 72, and the reference light 65 from the light emitting unit 70 can be incident on substantially the entire hologram recording medium 51 and duplication hologram recording medium 61 by the lens 72. The reproduction light 66 from each of the holograms 53 and 53 on which the reference light 65 is incident interferes with the reference light 65 transmitted through the hologram recording medium 51 by the duplicate recording layer 62, and is the same hologram as the hologram 53 formed on the recording layer 52. 63 is formed in the duplicate recording layer 62. Since the hologram recording medium 61 for duplication is arranged at a position symmetrical to the hologram recording medium 51 around the position of the beam waist 66a of the reproduction light 66, the sectional diameter of the reproduction light 66 in the duplication recording layer 62 is the recording layer 52. It becomes the same as the diameter of the hologram 53 formed in the above. That is, the same hologram 63 as the hologram 53 of the recording layer 52 is formed in the duplicate recording layer 62.

  Further, as shown in FIG. 21, the above-described duplication method also applies to a reflection type hologram formed by making an object beam 56 having a beam waist 66a at a predetermined height incident from below the hologram recording medium 51. Can be applied. FIG. 22 shows a copy of the hologram recording medium 51 when the hologram 53 is formed by making the object beam 56 incident from the direction facing the reference beam 65.

  As shown in FIG. 22, since a plurality of holograms 53 are formed by making object light 56 incident on the recording layer 52 of the hologram recording medium 51 from below, when the reference light 65 is incident on each of the holograms 53, 53. Reproduction light 66 corresponding to the object light 56 on which the hologram 53 is formed is generated upward. Accordingly, when the reproduction hologram recording medium 61 is arranged at a position symmetrical to the hologram recording medium 51 around the position of the beam waist 66a of the reproduction light 66, that is, above the hologram recording medium 51, the reproduction light in the reproduction recording layer 62 is obtained. The sectional diameter of 66 is the same as the diameter of the hologram 53 formed in the recording layer 52. That is, the same hologram 63 as the hologram 53 formed on the recording layer 52 can be formed on the duplicate recording layer 62.

  The above-described duplication method is simple and suitable for mass production, and can reduce manufacturing costs. However, there is a problem that there is no effective means to prevent this from being indistinguishable from a genuine product when illegally duplicated. is doing.

  The present invention has been made in view of the above problems, and an object thereof is to provide a hologram recording medium capable of preventing unauthorized duplication and a method for manufacturing the same.

In order to solve the above problems, a hologram recording medium according to the present invention is a hologram recording medium in which information is written by forming a hologram on a recording layer by interference between object light and reference light.
A hologram having information and a replication discrimination hologram are formed on the recording layer, the hologram is formed by a first object beam having a beam waist at a predetermined height, and the replication discrimination hologram has a height different from that of the first object beam. Ri Na is formed by the second object light having a beam waist in a,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
The replication discrimination hologram is configured such that a hologram having a size different from that of the replication discrimination hologram is formed by irradiating the reference light at a mirror symmetry position with respect to an extension plane of the virtual mirror surface .

Further, the hologram recording medium according to the present invention is a hologram recording medium in which information is written by forming a hologram on a recording layer by interference between object light and reference light.
A hologram having information and a replication discrimination hologram are formed on the recording layer, and the hologram is formed by first object light passing through a first medium having a predetermined refractive index, and the replication discrimination hologram is the first object. Ri Na is formed by the second object light which has passed through the second medium having a light refractive index different,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
The replication discrimination hologram is configured such that a hologram having a size different from that of the replication discrimination hologram is formed by irradiating the reference light at a mirror symmetry position with respect to an extension plane of the virtual mirror surface .

Furthermore, the hologram recording medium according to the present invention is a hologram recording medium having a recording layer on which information is written and a hologram is formed by interference between object light and reference light.
The above recording layer and the holographic replication discrimination hologram having information is formed, together with the hologram replication discrimination hologram generates a respective reproduction light upon incidence of the reference beam, unlike the emission angle of the reproducing light from each other,
The hologram having the information forms the same hologram as the hologram having the information by irradiating the reference light at a mirror symmetry position where the beam waist surface of the reproduction light is a virtual mirror surface,
The replication discrimination hologram forms a hologram by irradiation of the reference light at a position different from the mirror symmetry position translated from the mirror symmetry position with respect to the extension plane of the virtual mirror surface. It is configured as a feature.

  Furthermore, in the hologram recording medium according to the present invention, the hologram is formed by a first object light incident on the recording layer with a predetermined angle, and the replication discrimination hologram has an angle different from that of the first object light. Thus, it is formed by the second object light incident on the recording layer.

  The hologram recording medium according to the present invention is characterized in that the replication discrimination hologram is formed by causing the second object light to enter from the outside of the end of the recording layer.

  In addition, the hologram recording medium according to the present invention is characterized in that the duplicate discrimination hologram is formed in a multiplexed manner by allowing a plurality of the second object lights to enter.

Furthermore, a method for manufacturing a hologram recording medium according to the present invention is a method for manufacturing a hologram recording medium in which information is written by forming a hologram on a recording layer by interference between object light and reference light,
A hologram having information formed by a first object beam having a beam waist at a predetermined height on a recording layer of the master hologram recording medium, and a second object beam having a beam waist at a height different from the first object beam. Forming a replication discrimination hologram formed by:
Holding the hologram recording medium facing the master hologram recording medium at a predetermined interval; and
The master hologram recording medium and the hologram recording medium that are opposed to each other are irradiated with a reference light for duplication, the reproduction light from the hologram and the duplication determination hologram formed on the recording layer of the master hologram recording medium, and the duplication A process of replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium by interference light with the reference light for use;
I have a,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
The replication discrimination hologram is configured such that a hologram having a size different from that of the replication discrimination hologram is formed by irradiating the reference light at a mirror symmetry position with respect to an extension plane of the virtual mirror surface .

Furthermore, the method for manufacturing a hologram recording medium according to the present invention is a method for manufacturing a hologram recording medium in which information is written by forming a hologram on a recording layer by interference between object light and reference light,
Forming a hologram having information and a replication discriminating hologram on a recording layer of a master hologram recording medium;
Holding the hologram recording medium facing the master hologram recording medium at a predetermined interval; and
The master hologram recording medium and the hologram recording medium opposed to each other are irradiated with replication reference light, and the reproduction light from the hologram formed on the recording layer of the master hologram recording medium has a first refractive index. The reproduction light from the replication discrimination hologram passes through a second medium having a refractive index different from that of the first medium, and passes through the first medium or the second medium. A process of replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium by interference with the reference light for use;
I have a,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
The replication discrimination hologram is configured such that a hologram having a size different from that of the replication discrimination hologram is formed by irradiating the reference light at a mirror symmetry position with respect to an extension plane of the virtual mirror surface .

The method for producing a hologram recording medium according to the present invention is a method for producing a hologram recording medium in which information is written by forming a hologram on a recording layer by interference between object light and reference light,
Forming a hologram having information formed by the first object light incident on the recording layer at a predetermined angle on the recording layer of the master hologram recording medium;
Forming a replication discrimination hologram formed by the second object light incident on the recording layer at a different angle from the first object light on the recording layer of the master hologram recording medium;
Holding the hologram recording medium facing the master hologram recording medium at a predetermined interval; and
The master hologram recording medium and the hologram recording medium that are opposed to each other are irradiated with a reference light for duplication, the reproduction light from the hologram and the duplication determination hologram formed on the recording layer of the master hologram recording medium, and the duplication A process of replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium by interference light with the reference light for use;
I have a,
The hologram having the information forms the same hologram as the hologram having the information by irradiating the reference light at a mirror symmetry position with the beam waist surface of the reproduction light as a virtual mirror surface,
The replication discrimination hologram forms a hologram by irradiation of the reference light at a position different from the mirror symmetry position translated from the mirror symmetry position with respect to the extension plane of the virtual mirror surface. It is configured as a feature.

  In addition, the method for manufacturing a hologram recording medium according to the present invention is characterized in that the copy discrimination hologram of the master hologram recording medium is formed outside the end of the recording layer of the hologram recording medium.

  Furthermore, the method for manufacturing a hologram recording medium according to the present invention is characterized in that a plurality of copy discrimination holograms of the master hologram recording medium are formed so that the reproduction light is condensed at the same position.

  According to the hologram recording medium of the present invention, the hologram of the recording layer is formed by the first object light having a beam waist at a predetermined height, and the replication determination hologram has a beam waist at a height different from that of the first object light. Since the duplicate discrimination hologram is formed with a different size for each duplication by being formed by two object beams, it is possible to discriminate whether or not the duplication is illegal by examining the size of the duplication discrimination hologram. Can do.

  Further, according to the hologram recording medium according to the present invention, the hologram of the recording layer is formed by the first object light that has passed through the first medium having a predetermined refractive index, and the duplication determination hologram has a refractive index different from that of the first object light. In the normal duplicating apparatus that does not have the second medium, the duplication discrimination hologram is formed with a different size. In this case, too, the duplication discrimination hologram is formed by the second object light that has passed through the second medium having It is possible to determine whether or not the copy is illegal.

  Furthermore, according to the hologram recording medium according to the present invention, the hologram of the recording layer and the replication discrimination hologram have different reproduction light emission angles, so that the replication recording hologram has a position where the replication discrimination hologram is formed on the recording layer. Since they are formed at different positions, it is possible to determine whether or not the copy is illegal by examining the position of the copy determination hologram.

  Furthermore, according to the hologram recording medium according to the present invention, the hologram is formed by the first object light at a predetermined angle, and the replication determination hologram is formed by the second object light at an angle different from the first object light. The reproduction light from the hologram and the reproduction light from the replication discrimination hologram have different emission angles, and the replication discrimination hologram can be formed at different positions during replication.

  According to the hologram recording medium of the present invention, the replication discrimination hologram is formed by causing the second object light to enter from the outside of the end of the recording layer, so that the reproduction light from the replication discrimination hologram is reproduced in the replication recording layer. Since the copy discrimination hologram is not formed in the copy recording layer, the duplication determination hologram can be discriminated by checking the presence or absence of the copy discrimination hologram.

  In addition, according to the hologram recording medium of the present invention, the duplicate discrimination hologram is formed by multiple incidence of the second object light, so that a plurality of reproduction lights are generated from the duplicate discrimination hologram, and the hologram is duplicated. Since a plurality of copy discrimination holograms are formed on the duplicate copy recording layer, it is possible to discriminate whether or not the copy is illegal by examining the number of copy discrimination holograms. In addition, since the intensity of each reproduction light generated from the replication discrimination hologram is lower than that of the reproduction light from the hologram having information, the diffraction intensity is reduced even if the replication discrimination hologram is placed in the same position by further duplication. By examining the diffraction intensity ratio between the hologram and the copy discrimination hologram, an illegal copy can be discriminated.

  Furthermore, according to the method for manufacturing a hologram recording medium according to the present invention, a hologram having information and a replication discrimination hologram are formed on the master recording medium, and the master hologram recording medium and the hologram recording medium are irradiated with a reference light for replication. Since the hologram recording medium capable of preventing unauthorized duplication from the master hologram recording medium can be mass-produced by replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium, the manufacturing cost can be reduced.

  An embodiment of the present invention will be described. The hologram recording medium 1 in the present embodiment is obtained by duplicating the master hologram recording medium 21, and a hologram 3 having information and a replication discriminating hologram 4 are formed on the recording layer 2. FIG. 1 shows the formation of the master hologram recording medium 21, and FIG. 2 shows the formation of the hologram recording medium 1 in the present embodiment.

  The hologram recording medium 1 in the present embodiment is made of a photorefractive material or a photopolymer material, causes the first reproduction light 16 from the master hologram recording medium 21 having encoded page unit information to interfere with the reference light 5, Information is written by forming the interference fringes as holograms 3 on the recording layer 2. In addition, the hologram 3 generates the first reproduction light 6 by making the reference light 5 used to form the hologram 3 enter the hologram 3. Information can be read by receiving the first reproduction light 6 with a photoelectric conversion element such as a CCD or CMOS.

  The hologram recording medium 1 in the present embodiment is mass-produced by duplicating the master hologram recording medium 21 and is commercially available as a regular product. Here, the formation of the master hologram recording medium 21 will be described. As shown in FIG. 1, a hologram 23 having information and a replication discrimination hologram 24 are formed on the master recording layer 22 of the master hologram recording medium 21.

  As shown in FIG. 1, the hologram 23 having information includes a first object beam 26 having a beam waist 26 a at a position below the master recording layer 22, and a reference beam 25 emitted from the light emitting unit 30 and converted into parallel light by a lens 31. It is formed by. Further, the copy discrimination hologram 24 is generated by the second object light 27 having the beam waist 27a in the master recording layer 22 having a height different from that of the first object light 26, and the reference light 25 used for forming the hologram 23 having information. It is formed.

  Since the first object beam 26 and the second object beam 27 have different beam waist heights, the beam diameters of the first object beam 26 and the second object beam 27 in the master recording layer 22 are different from each other, and the hologram has information. 23 and the copy discrimination hologram 24 are formed in different sizes. In addition, as shown in FIG. 2, the hologram 23 having information and the duplication determination hologram 24 receive the first reproduction light 16 and the first reproduction light 16 by making the reference light 5 having the same wavelength and the same angle as the reference light 25 used for formation enter. Two reproduction lights 17 are generated respectively.

  The hologram recording medium 1 in the present embodiment is formed by duplicating the master hologram recording medium 21. As shown in FIG. 2, the master hologram recording medium 21 and the hologram recording medium 1 are arranged so as to be symmetrical with respect to the position of the beam waist 16a of the first reproduction light 16 from the hologram 23 having information. In the present embodiment, a spacer 33 is disposed and positioned between the master hologram recording medium 21 and the hologram recording medium 1.

  Further, the reference light 5 from the light emitting unit 30 is used by using the light emitting unit 30 that emits the reference light 5 having the same wavelength and the same angle as the reference light 25 on which the hologram 23 having information and the replication determining hologram 24 are formed as an apparatus used for duplication. Is converted into parallel light by the lens 32 and is incident on substantially the entire master hologram recording medium 21 and hologram recording medium 1.

  The hologram 23 having information formed in the master recording layer 22 generates the first reproduction light 16 by making the reference light 5 having the same wavelength and the same angle as the reference light 25 used for formation enter. The first reproduction light 16 has a beam waist 16 a at an intermediate position between the master recording layer 22 and the recording layer 2. Further, the first reproduction light 16 converges on the beam waist 16 a and then becomes a divergent light beam, and interferes with the reference light 5 transmitted through the master hologram recording medium 21 and the recording layer 2 of the hologram recording medium 1.

  Since the beam waist 16a of the first reproduction light 16 is located between the master hologram recording medium 21 and the hologram recording medium 1, the cross-sectional diameter of the first reproduction light 16 in the recording layer 2 is formed in the master recording layer 22. The diameter of the hologram 23 is the same, and the hologram 3 having the same size can be formed on the recording layer 2.

  The reference light 5 from the light emitting unit 30 also enters the replication discrimination hologram 24 formed on the master recording layer 22, and the replication discrimination hologram 24 generates the second reproduction light 17. As in the case of the hologram 23 having information, the generated second reproduction light 17 interferes with the reference light 5 transmitted through the master hologram recording medium 21 and the recording layer 2 of the hologram recording medium 1.

  Since the second reproduction light 17 has a beam waist 17 a at a different height from the first reproduction light 16, the cross-sectional diameter of the second reproduction light 17 in the recording layer 2 is that of the replication discrimination hologram 24 formed in the master recording layer 22. Unlike the diameter, the copy discrimination hologram 4 is formed in the recording layer 2 with a size different from the size formed in the master recording layer 22.

  As shown in FIG. 3, when the hologram recording medium 1 in the present embodiment is further duplicated to form a duplicate hologram recording medium 11, the second reproduction light 7 generated from the duplication determination hologram 4 is different from the first reproduction light 6. Since the beam waist 7 a is provided at the height, the duplicate discrimination hologram 14 is formed on the duplicate recording layer 12 of the duplicate hologram recording medium 11 with a size different from the size formed on the recording layer 2.

  Therefore, by examining the size of the copy discrimination hologram 4 formed on the recording layer 2 of the duplicate, it is possible to easily determine whether the copy is illegal or not, and to prevent illegal copy of the hologram recording medium 1. Can do.

  Since the duplicated hologram recording medium 1 is duplicated again, the same hologram recording medium 1 as the original hologram recording medium 1 is formed, so that the size of the duplicate discrimination hologram 4 is the same. However, the replication discrimination hologram 4 formed on the recording layer 2 has a diffraction efficiency that decreases every time it is replicated, so that the diffraction intensity in the formed hologram 4 decreases each time replication is repeated. Since the quality is lowered due to the lowering of the diffraction intensity and the reading of the hologram 4 becomes difficult, the problem that occurs when copying is performed a plurality of times is eliminated.

  Next, a second embodiment will be described. The hologram recording medium 1 in the present embodiment is duplicated by the master hologram recording medium 21 as in the first embodiment. FIG. 4 shows the formation of the master hologram recording medium 21, and FIG. 5 shows the formation of the hologram recording medium 1 in the present embodiment.

  On the master recording layer 22 of the master hologram recording medium 21, as in the first embodiment, a hologram 23 having information and a replication discrimination hologram 24 are formed. Here, as shown in FIG. 4, the first object light 26 forming the hologram 3 having information and the second object light 27 forming the duplication determination hologram 24 have beam waists 26a and 27a at the same height, respectively. . Therefore, the information recording hologram 23 and the copy discrimination hologram 24 are formed in the same size on the master recording layer 22.

  The formation of the hologram recording medium 1 in this embodiment will be described. As in the first embodiment, the master hologram recording medium 21 and the hologram recording medium 1 are arranged so that the beam waist 16a of the first reproduction light 16 is at the center. Further, the second medium 8 is arranged at a position where the second reproduction light 17 passes between the master hologram recording medium 21 and the hologram recording medium 1. Air as the first medium exists at a position where the first reproduction light 16 passes. The second medium 8 has a refractive index different from that of the first medium. Since the second reproduction light 17 passes through the second medium 8 and the optical path length changes when passing through the first medium, the first reproduction light 16 and the second reproduction light 17 in the recording layer 2 are changed. The beam diameters are different from each other, and the hologram 3 having information and the replication discrimination hologram 4 are formed in different sizes. The second medium 8 also has a function as a spacer 33 used for arranging the hologram recording medium 1 and the duplicate hologram recording medium 11.

  As shown in FIG. 6, when the hologram recording medium 1 in the present embodiment is duplicated and the duplicate hologram recording medium 11 is formed without arranging the second medium 8, the second reproduction light 7 generated from the duplicate discrimination hologram 4. Has a beam waist 7 a at a height different from that of the first reproduction light 6, and therefore, the replica discrimination hologram 14 is formed in the replica recording layer 12 with a size different from the size formed in the recording layer 2.

  Therefore, by examining the size of the copy discrimination hologram 4 formed on the recording layer 2 of the duplicate, it is possible to easily determine whether the copy is illegal or not, and to prevent illegal copy of the hologram recording medium 1. Can do. In the present embodiment, when forming the master hologram recording medium 21, the hologram 23 and the copy discrimination hologram 24 can be formed by the object beams 26 and 27 having the beam waists 26a and 27a at the same position. The system can be simplified.

  Next, a third embodiment will be described. The hologram recording medium 1 in the present embodiment is duplicated by the master hologram recording medium 21 as in the first or second embodiment. FIG. 7 shows the formation of the master hologram recording medium 21, and FIG. 8 shows the formation of the hologram recording medium 1 in the present embodiment.

  On the master recording layer 22 of the master hologram recording medium 21, a hologram 23 having information and a replication discrimination hologram 24 are formed as in the first or second embodiment. The hologram 23 having information is formed by the first object light 26 having a predetermined incident angle with respect to the master recording layer 22 as shown in FIG. Further, the replication discrimination hologram 24 is formed by the second object light 27 having an incident angle different from that of the first object light 26.

  The formation of the hologram recording medium 1 in this embodiment will be described. As shown in FIG. 8, since the first reproduction light 16 from the hologram 23 having information and the second reproduction light 17 from the replication discrimination hologram 24 have different emission angles, the second reproduction light is present in the recording layer 2. The replication discrimination hologram 4 formed by 17 is formed at a position different from the position formed in the master recording layer 22.

  As shown in FIG. 9, when the hologram recording medium 1 in the present embodiment is further duplicated to form the duplicate hologram recording medium 11, the first reproduction light 6 from the hologram 3 having information and the reproduction discrimination hologram 4 The second reproduction light 7 has a different emission angle, and is formed on the duplicate recording layer 12 of the duplicate hologram recording medium 11 at a position different from the position at which the duplicate discrimination hologram 14 is formed on the recording layer 2.

  Therefore, by examining the position of the copy discrimination hologram 4 formed on the recording layer 2 of the duplicate, it is possible to easily determine whether the copy is illegal or not, and to prevent illegal copy of the hologram recording medium 1. it can.

  Next, a fourth embodiment will be described. The hologram recording medium 1 in the present embodiment is duplicated by the master hologram recording medium 21 as in the first to third embodiments. FIG. 10 shows the formation of the master hologram recording medium 21, and FIG. 11 shows the formation of the hologram recording medium 1 in the present embodiment. Here, the master hologram recording medium 21 has a recording area larger in the plane direction than the hologram recording medium 1 in the present embodiment.

  On the master recording layer 22 of the master hologram recording medium 21, a hologram 23 having information and a replication discrimination hologram 24 are formed as shown in FIG. The hologram 23 having information is formed by the first object light 26 similar to that of the third embodiment. The replication determination hologram 24 is formed by the second object light 27 that is incident at a different angle from the first object light 26, and is provided at a position outside the end of the hologram recording medium 1.

  As shown in FIG. 11, the second reproduction light 17 from the replication discrimination hologram 24 is incident on the hologram recording medium 1 from the outside from the end 2 a of the recording layer 2. Therefore, the replication discrimination hologram 4 is formed on the recording layer 2 of the hologram recording medium 1 in the present embodiment by the second reproduction light 17 incident from the outside from the end of the recording layer 2.

  As shown in FIG. 12, when the hologram recording medium 1 in the present embodiment is further duplicated to form a duplicate hologram recording medium 11, the second reproduction light 7 from the duplication determination hologram 4 is transmitted from the duplication hologram recording medium 11. Since it passes outside the end 12 a of the duplicate recording layer 12, no duplicate discrimination hologram is formed on the duplicate recording layer 12. Therefore, by checking the presence or absence of the copy discrimination hologram 4 in the recording layer 2 of the duplicate, it is possible to easily discriminate whether or not the copy is illegal and prevent illegal copy of the hologram recording medium 1. In this case, even if the duplicate hologram recording medium 11 is further duplicated, the duplicate discrimination hologram 4 is not formed. Therefore, even if duplication is repeated, the same duplicate as the hologram recording medium 1 cannot be formed, which is effective in preventing duplication. Is.

  Next, a fifth embodiment will be described. The hologram recording medium 1 in the present embodiment is duplicated by the master hologram recording medium 21 as in the first to fourth embodiments. FIG. 13 shows the formation of the master hologram recording medium 21, and FIG. 14 shows the formation of the hologram recording medium 1 in the present embodiment.

  On the master recording layer 22 of the master hologram recording medium 21, a hologram 23 having information and a replication discrimination hologram 24 are formed as shown in FIG. The hologram 23 having information is formed by the first object beam 26 similar to that in the third or fourth embodiment. In addition, the duplication determination hologram 24 is formed in a multiplexed manner by a plurality of second object lights 27 and 27 incident at different angles from the first object light 26. As shown in FIG. 14, each of the second reproduction lights 17 and 17 generated from the copy discrimination hologram 24 by the incidence of the reference light 5 is condensed at a predetermined position of the recording layer 2 of the hologram recording medium 1, and the copy discrimination hologram 4. Are multiplexed. Further, the hologram 3 having information is formed by the first reproduction light 16 and the reference light 5.

  As shown in FIG. 15, when the hologram recording medium 1 in the present embodiment is further duplicated to form a duplicate hologram recording medium 11, a plurality of second reproduction lights 7 and 7 are generated from the duplication discrimination hologram 4, and duplication discrimination is performed. A plurality of holograms 14 and 14 are formed. Therefore, by examining the number of copy discrimination holograms 4 formed on the recording layer 2 of the duplicate, it is possible to easily determine whether the copy is illegal or not, and to prevent illegal copy of the hologram recording medium 1. it can.

  By further duplicating the duplicate hologram recording medium 11, the same hologram recording medium as the original hologram recording medium 1 can be formed. However, when the hologram recording medium 1 in the present embodiment is duplicated a plurality of times, the diffraction intensity of the replication discriminating hologram 4 is lower than that of the hologram 3 having information, so that the diffraction intensity is low even if the arrangement is the same. Things are formed. Therefore, by examining the diffraction intensity ratio between the hologram 3 having information and the copy discrimination hologram 4, it is possible to discriminate illegal duplication.

  Next, a sixth embodiment will be described. The hologram recording medium 1 in the present embodiment is duplicated by the master hologram recording medium 21 as in the first embodiment. FIG. 16 shows the formation of the master hologram recording medium 21, and FIG. 17 shows the formation of the hologram recording medium 1 in the present embodiment.

  As shown in FIG. 16, on the master recording layer 22 of the master hologram recording medium 21, a hologram 23 having information and a replication discrimination hologram 24 face the first object light 26 and the second object light 27 against the reference light 25. It is formed as a reflection type that is incident from the direction in which it enters. In the present embodiment, the object light is incident from below the master hologram recording medium 21. That is, the hologram 23 having information is formed by the first object light 26 having the beam waist 26 a above the master recording layer 22, and the reference light 25 emitted from the light emitting unit 30 and collimated by the lens 31. . Further, the copy discrimination hologram 24 is generated by the second object light 27 having the beam waist 27a in the master recording layer 22 having a height different from that of the first object light 26, and the reference light 25 used for forming the hologram 23 having information. It is formed.

  Since the first object beam 26 and the second object beam 27 have different beam waist heights as in the first embodiment, the beam diameters of the first object beam 26 and the second object beam 27 in the master recording layer 22 are different from each other. In contrast, the hologram 23 having information and the duplication determination hologram 24 are formed in different sizes. In addition, as shown in FIG. 17, the hologram 23 having information and the duplication determination hologram 24 generate the first reproduction light 16 and the second reproduction light 17 upward by making the reference light 5 enter.

  Since the first reproduction light 16 and the second reproduction light 17 are generated upward, in order to form the hologram recording medium 1 in the present embodiment, the first reproduction light 16 and the first reproduction light 16 are symmetrical about the position of the beam waist 16a. The hologram recording medium 1 is arranged at the position, that is, above the master hologram recording medium 21. As in the first embodiment, when the reference light 5 is incident on substantially the entire master hologram recording medium 21 and the hologram recording medium 1, the first reproduction light 16 and the second reproduction light 17 are recorded on the recording layer of the hologram recording medium 1. 2 interferes with the reference beam 5 and has information hologram 3 having the same size as the hologram 23 formed on the master recording layer 22, and the replication discrimination hologram 4 is different from the hologram 24 formed on the master recording layer 22. Is formed.

  As shown in FIG. 18, when the hologram recording medium 1 in the present embodiment is duplicated by the same method to form the duplicate hologram recording medium 11, the second reproduction light 7 generated from the duplication discrimination hologram 4 is the first reproduction light. 6 has a beam waist 7a at a height different from 6, the duplicate discrimination hologram 14 is formed on the duplicate recording layer 12 of the duplicate hologram recording medium 11 with a size different from the size formed on the recording layer 2.

  Therefore, by examining the size of the copy discrimination hologram 4 formed on the recording layer 2 of the duplicate, it is possible to easily determine whether the copy is illegal or not, and to prevent illegal copy of the hologram recording medium 1. Can do.

  In the present embodiment, the hologram formed on the master hologram recording medium 21 is applied to the first embodiment as a reflection hologram formed by making object light and reference light incident from opposite directions. However, the embodiment of the present invention is not limited to this, and can be similarly applied to the second to fifth embodiments.

  Although the embodiment of the present invention has been described above, the application of the present invention is not limited to this embodiment, and can be variously applied within the scope of the technical idea. For example, the number of holograms 3 having information formed on the recording layer 2 of the hologram recording medium 1 in this embodiment is not limited to this embodiment, and a large number can be formed.

It is the conceptual diagram shown about formation of the master hologram recording medium which forms the hologram recording medium in this embodiment. It is the conceptual diagram shown about formation of the hologram recording medium in this embodiment. It is the conceptual diagram shown about the replication of the hologram recording medium in this embodiment. It is the conceptual diagram shown about formation of the master hologram recording medium which forms the hologram recording medium in 2nd Embodiment. It is the conceptual diagram shown about formation of the hologram recording medium in 2nd Embodiment. It is the conceptual diagram shown about the replication of the hologram recording medium in 2nd Embodiment. It is the conceptual diagram shown about formation of the master hologram recording medium which forms the hologram recording medium in 3rd Embodiment. It is the conceptual diagram shown about formation of the hologram recording medium in 3rd Embodiment. It is the conceptual diagram shown about the replication of the hologram recording medium in 3rd Embodiment. It is the conceptual diagram shown about formation of the master hologram recording medium which forms the hologram recording medium in 4th Embodiment. It is the conceptual diagram shown about formation of the hologram recording medium in 4th Embodiment. It is the conceptual diagram shown about the replication of the hologram recording medium in 4th Embodiment. It is the conceptual diagram shown about formation of the master hologram recording medium which forms the hologram recording medium in 5th Embodiment. It is the conceptual diagram shown about formation of the hologram recording medium in 5th Embodiment. It is the conceptual diagram shown about the replication of the hologram recording medium in 5th Embodiment. It is the conceptual diagram shown about formation of the master hologram recording medium which forms the hologram recording medium in 6th Embodiment. It is the conceptual diagram shown about formation of the hologram recording medium in 6th Embodiment. It is the conceptual diagram shown about the replication of the hologram recording medium in 6th Embodiment. It is the conceptual diagram shown about formation of the hologram recording medium copied conventionally. FIG. 20 is a conceptual diagram showing replication of the hologram recording medium shown in FIG. 19. It is the conceptual diagram shown about the case where the reflection type hologram was formed in the conventional hologram recording medium to be replicated. It is the conceptual diagram shown about the replication of the hologram recording medium shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hologram recording medium 2 Recording layer 3 Hologram 4 Replication discrimination hologram 5 Reference light 6 1st reproduction | regeneration light 6a Beam waist 7 2nd reproduction | regeneration light 7a Beam waist 8 2nd medium 11 Duplication hologram recording medium 12 Duplication recording layer 12a End part 13 Hologram DESCRIPTION OF SYMBOLS 14 Duplicate discrimination | determination hologram 16 1st reproduction | regeneration light 16a Beam waist 17 2nd reproduction | regeneration light 17a Beam waist 21 Master hologram recording medium 22 Master recording layer 23 Hologram 24 Duplication discrimination | determination hologram 25 Reference beam 26 1st object beam 26a Beam waist 27 2nd object Light 27a Beam waist 30 Light emitting part 31 Lens 32 Lens 33 Spacer

Claims (11)

In a hologram recording medium in which information is written by forming a hologram in the recording layer by interference between object light and reference light,
A hologram having information and a replication discrimination hologram are formed on the recording layer, the hologram is formed by a first object beam having a beam waist at a predetermined height, and the replication discrimination hologram has a height different from that of the first object beam. Ri Na is formed by the second object light having a beam waist in a,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
The hologram recording medium, wherein the replication discrimination hologram forms a hologram having a size different from that of the replication discrimination hologram by irradiation with the reference light at a mirror symmetry position with respect to an extension plane of the virtual mirror surface . In a hologram recording medium in which information is written by forming a hologram in the recording layer by interference between object light and reference light,
A hologram having information and a replication discrimination hologram are formed on the recording layer, and the hologram is formed by first object light passing through a first medium having a predetermined refractive index, and the replication discrimination hologram is the first object. Ri Na is formed by the second object light which has passed through the second medium having a light refractive index different,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
The hologram recording medium, wherein the replication discrimination hologram forms a hologram having a size different from that of the replication discrimination hologram by irradiation with the reference light at a mirror symmetry position with respect to an extension plane of the virtual mirror surface . In a hologram recording medium having a recording layer on which information is written and a hologram is formed by interference between object light and reference light,
The above recording layer and the holographic replication discrimination hologram having information is formed, together with the hologram replication discrimination hologram generates a respective reproduction light upon incidence of the reference beam, unlike the emission angle of the reproducing light from each other,
The hologram having the information forms the same hologram as the hologram having the information by irradiating the reference light at a mirror symmetry position where the beam waist surface of the reproduction light is a virtual mirror surface,
The replication discrimination hologram forms a hologram by irradiation of the reference light at a position different from the mirror symmetry position translated from the mirror symmetry position with respect to the extension plane of the virtual mirror surface. A hologram recording medium characterized by the above.   The hologram is formed by first object light incident on the recording layer at a predetermined angle, and the replication determination hologram is second object light incident on the recording layer at an angle different from the first object light. The hologram recording medium according to claim 3, wherein the hologram recording medium is formed by:   5. The hologram recording medium according to claim 4, wherein the replication discrimination hologram is formed by causing the second object light to enter from the outside of the end portion of the recording layer.   5. The hologram recording medium according to claim 4, wherein the duplicate discrimination hologram is formed in a multiple manner by allowing a plurality of the second object lights to enter. A method of manufacturing a hologram recording medium in which information is written by forming a hologram in a recording layer by interference between object light and reference light,
A hologram having information formed by a first object beam having a beam waist at a predetermined height on a recording layer of the master hologram recording medium, and a second object beam having a beam waist at a height different from the first object beam. Forming a replication discrimination hologram formed by:
Holding the hologram recording medium facing the master hologram recording medium at a predetermined interval; and
The master hologram recording medium and the hologram recording medium that are opposed to each other are irradiated with a reference light for duplication, the reproduction light from the hologram and the duplication determination hologram formed on the recording layer of the master hologram recording medium, and the duplication A process of replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium by interference light with the reference light for use;
I have a,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
A hologram recording medium characterized in that the replication discrimination hologram forms a hologram having a size different from that of the replication discrimination hologram by irradiation of the reference light at a mirror plane symmetrical position with respect to an extension plane of the virtual mirror surface . Production method. A method of manufacturing a hologram recording medium in which information is written by forming a hologram in a recording layer by interference between object light and reference light,
Forming a hologram having information and a replication discriminating hologram on a recording layer of a master hologram recording medium;
Holding the hologram recording medium facing the master hologram recording medium at a predetermined interval; and
The master hologram recording medium and the hologram recording medium opposed to each other are irradiated with replication reference light, and the reproduction light from the hologram formed on the recording layer of the master hologram recording medium has a first refractive index. The reproduction light from the replication discrimination hologram passes through a second medium having a refractive index different from that of the first medium, and passes through the first medium or the second medium. A process of replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium by interference with the reference light for use;
I have a,
The hologram having the information has the same size as the hologram having the information by irradiation of the reference light at a mirror symmetry position with the beam waist surface of the reproduction light obtained by irradiating the first object light as a virtual mirror surface. Forming a hologram,
A hologram recording medium characterized in that the replication discrimination hologram forms a hologram having a size different from that of the replication discrimination hologram by irradiation of the reference light at a mirror plane symmetrical position with respect to an extension plane of the virtual mirror surface . Production method. A method of manufacturing a hologram recording medium in which information is written by forming a hologram in a recording layer by interference between object light and reference light,
Forming a hologram having information formed by the first object light incident on the recording layer at a predetermined angle on the recording layer of the master hologram recording medium;
Forming a replication discrimination hologram formed by the second object light incident on the recording layer at a different angle from the first object light on the recording layer of the master hologram recording medium;
Holding the hologram recording medium facing the master hologram recording medium at a predetermined interval; and
The master hologram recording medium and the hologram recording medium that are opposed to each other are irradiated with a reference light for duplication, the reproduction light from the hologram and the duplication determination hologram formed on the recording layer of the master hologram recording medium, and the duplication A process of replicating the hologram and the replication discriminating hologram respectively on the recording layer of the hologram recording medium by interference light with the reference light for use;
I have a,
The hologram having the information forms the same hologram as the hologram having the information by irradiating the reference light at a mirror symmetry position where the beam waist surface of the reproduction light is a virtual mirror surface,
The replication discrimination hologram forms a hologram by irradiation of the reference light at a position different from the mirror symmetry position translated from the mirror symmetry position with respect to the extension plane of the virtual mirror surface. A method for producing a hologram recording medium characterized by the above.   10. The method for manufacturing a hologram recording medium according to claim 9, wherein the replication determination hologram of the master hologram recording medium is formed outside an end portion of a recording layer of the hologram recording medium.   10. The method of manufacturing a hologram recording medium according to claim 9, wherein a plurality of replication determination holograms of the master hologram recording medium are formed so that the reproduction light is condensed at the same position.

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