JP2004253051A - Method of reproducing optical recording medium, recording and reproducing device and optical recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of reproducing an optical recording medium capable of increasing the recording capacity in each region without micrifying pits in a region only for reproduction and recording marks in a rewritable region and to provide a recording and reproducing device and an optical recording medium. <P>SOLUTION: Reproducing signals including pit information and information of a recording layer as shown in Figure (a) can be obtained by irradiating an optical disk wherein the recording layer is laminated on a substrate in which pits are formed, with reproducing light. The reproducing signals are stored in a memory. The optical disk is then irradiated with light to erase the information of the recording layer. After the information of the recording layer is erased, reproducing signals corresponding to pit information as shown in Figure (b) can be obtained by irradiating the optical recording medium with reproducing light again and detecting reflection light thereof. The signals as shown in Figure (c) can be obtained by searching the difference between the reproducing signals of Figure (a) and the reproducing signals of Figure (b) and reproducing signals corresponding to the information of the recording layer can be obtained. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an optical recording medium reproducing method and a recording / reproducing apparatus. More specifically, the present invention relates to pit information and recording layer information of an optical recording medium in which a recording layer is deposited on a pit region formed on a substrate. The present invention relates to a method for individually reproducing and a recording / reproducing apparatus.
[0002]
[Prior art]
An optical disk is one of the media that can record and reproduce information data such as audio, moving images, and graphics. For example, a read-only optical disk (hereinafter, referred to as a ROM optical disk) capable of only reproducing information, such as a CD-ROM, and a write-once optical disk, such as a CD-R, in which information can be written only once, such as a CD-R. There is a rewritable optical disk (hereinafter, referred to as a RAM optical disk) such as an optical disk and a CD-RW in which information can be rewritten many times.
[0003]
The ROM type optical disk has a structure in which pits corresponding to user information are formed in advance over the entire area on the substrate, and a reflective film is formed on the substrate on which the pits are formed. In a ROM optical disk, information is reproduced based on a change in the amount of reflected light due to the presence or absence of a pit. Conventional ROM-type optical discs have a ROM-type optical disc in which a phase-change material layer is stacked only in the management data area of information formed on the substrate in order to prevent unlimited installation of user information recorded as pits on the substrate. There is an optical disk (for example, see Patent Document 1). When this ROM type optical disk is irradiated with reproduction light, the phase change material layer on the management data area is melted, and the reflectivity of the phase change material layer is significantly reduced. As the number of times of reproduction light irradiation, that is, the number of times of reproduction increases, the pit information formed in the management data area becomes difficult to read, and the pit information in the management data area becomes unreproducible at a certain number of times of reproduction. This makes it impossible to install user information via the pit information in the management data area, thereby limiting the number of installations of the user information recorded on the optical disc.
[0004]
On the other hand, write-once optical disks and RAM optical disks have a recording layer for recording information on a substrate, and information is reproduced based on a change in reflectance depending on the presence or absence of a recording mark formed on the recording layer. . Generally, an organic dye material is used as a material of a recording layer in a write-once optical disc, and a phase change material is used in a RAM optical disc. Further, in the conventional write-once and RAM type optical discs, a read-only area in which address information and the like are formed by pits and an area in which user information can be written and rewritten are arranged at different places on a disc substrate (for example, Patent Document 2).
[0005]
Further, recording / reproducing apparatuses corresponding to any of these three types of optical disks have been commercialized. This recording / reproducing apparatus can record / reproduce user information on a write-once type or RAM type optical disk and reproduce user information on a ROM type optical disk.
[0006]
[Patent Document 1]
JP-A-9-231612 (pages 2-5, FIG. 1)
[Patent Document 2]
JP-A-2000-298882 (pages 4 to 5, FIG. 1-3)
[0007]
[Problems to be solved by the invention]
In order to achieve high-density recording of information in conventional write-once and RAM optical discs, pits in a read-only area and recording marks in a writable / rewritable area (hereinafter referred to as a recordable area) are miniaturized. There is a need. However, even if the pits in the read-only area and the recording marks in the recordable area are miniaturized, there is a problem that a recording mark smaller than the reproduction resolution of the reproduction light cannot be reproduced due to the diffraction limit of the light spot. Further, in these optical discs, the read-only area for information and the recordable area for information are arranged at different places on the substrate of the optical disc, so that there is a problem that the recording capacity of information in each area is limited. Was.
[0008]
SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems of the prior art, and it is possible to increase the recording capacity of each area without reducing the size of pits in a read-only area and recording marks in a recordable area. An object of the present invention is to provide a method for reproducing a recording medium, a recording / reproducing apparatus thereof, and an optical recording medium.
[0009]
[Means for Solving the Problems]
According to a first aspect of the present invention, an information pattern formed on at least a part of a region on a substrate, and deposited on a region on the substrate including at least a part of a region where the information pattern is formed. A recording layer on which information is recorded / reproduced by a change in reflectivity; anda method for reproducing an optical recording medium in which information is recorded on the recording layer, wherein the method comprises irradiating the optical recording medium with light. Detecting a first reflected light signal from the optical recording medium; irradiating the optical recording medium with light to erase information on the recording layer; Irradiating light to detect a second reflected light signal from the optical recording medium; and calculating a difference between the second reflected light signal and the first reflected light signal to generate a signal corresponding to information of the recording layer. Providing a method of reproducing an optical recording medium comprising the steps of: It is.
[0010]
In the method for reproducing an optical recording medium according to the present invention, first, an information pattern formed in at least a part of a region on a substrate and a pattern deposited on the region including at least a part of the region where the information pattern is formed are formed. And a recording layer on which information is recorded / reproduced by a change in reflectance, and an optical recording medium on which information is recorded in the recording layer is prepared. Here, the information pattern is preferably formed by pits. The recording layer on which information is recorded / reproduced by a change in reflectance can be formed of, for example, an organic dye material or a phase change material. Further, the user information may be recorded only on the recording layer.
[0011]
By irradiating the reproduction light on the surface area of the prepared optical recording medium and detecting the signal of the reflected light from the optical recording medium, the information of the information pattern formed on the substrate and the information recorded on the recording layer are obtained. (Hereinafter referred to as a first reflected light signal).
[0012]
Next, the optical recording medium is irradiated with light (erasing light) to erase information in the recording layer. At this time, when the recording layer is formed of a material that can be rewritten by light irradiation, such as a phase change material, the intensity of the erasing light to be irradiated is adjusted to irradiate the optical recording medium to irradiate the optical recording medium. The entire recording layer is set to a recorded state or an unrecorded state (initialized state). As a result, the amount of light reflected from the recording layer becomes constant, and the information in the recording layer is erased. When the recording layer is formed of a material such as an organic dye material that can be written only by light irradiation, the optical recording medium is irradiated with erasing light to bring all the recording layers in the medium into a recording state. As a result, the amount of light reflected from the recording layer becomes constant, and the information in the recording layer is erased.
[0013]
After erasing the information in the recording layer, the optical recording medium is irradiated with reproduction light again to detect a signal of reflected light from the optical recording medium (hereinafter, referred to as a second reflected light signal). At this time, since the information on the recording layer in the medium has already been erased, the detected second reflected light signal is a signal containing only information on the information pattern formed on the substrate. Next, when a difference between the second reflected light signal and the first reflected light signal is obtained, a signal corresponding to information recorded on a recording layer in the medium is obtained. Therefore, according to the reproducing method of the optical recording medium of the present invention, the information of the information pattern and the information of the recording layer can be individually reproduced from the reproduction signal including the information of the information pattern and the information of the recording layer.
[0014]
The method of reproducing an optical recording medium according to the present invention may further include a step of storing the first reflected light signal after the step of detecting the first reflected light signal. Also, the method may include a step of recording the same information as the erased information again on the recording layer from which the information has been erased.
[0015]
According to a second aspect of the present invention, an information pattern formed in at least a part of a region on a substrate, and an information pattern deposited on the region on the substrate including at least a part of the region where the information pattern is formed Further, a recording / reproducing apparatus for an optical recording medium including a recording layer on which information is recorded / reproduced by a change in reflectivity, wherein an optical head unit that irradiates the optical recording medium with light and detects reflected light, A reproducing unit for processing a signal detected by the optical head unit to individually reproduce information of an information pattern and information of a recording layer, wherein the reproducing unit is configured to process information of the information pattern detected by the optical head unit. And a memory unit for storing a first reflected light signal including information on the recording layer, and a second including only the first reflected light signal stored in the memory unit and information on an information pattern detected by the optical head unit. Based on the reflected light signal and Reproducing apparatus for an optical recording medium, characterized in that it comprises a processing unit for generating a signal corresponding to the information recording layer is provided.
[0016]
The recording / reproducing apparatus for an optical recording medium according to the present invention irradiates the optical recording medium with light and detects reflected light, and information formed on a substrate by processing a signal detected by the optical head. And a reproducing unit for reproducing the information of the pattern and the information of the recording layer. The processing unit included in the reproducing unit includes a first reflected light signal including the information of the information pattern and the information of the recording layer similarly stored in the memory unit of the reproducing unit, and a second reflected light signal including only the information of the information pattern. Is calculated, for example, to obtain only a signal corresponding to the information of the recording layer. That is, the reproducing unit can independently obtain information on the information pattern formed on the substrate and information recorded on the recording layer. Therefore, the apparatus of the present invention is suitable for the reproducing method of the present invention and the optical recording medium of the present invention described later.
[0017]
In the recording / reproducing apparatus for an optical recording medium according to the present invention, it is preferable that the processing unit has a function of calculating a difference between the first reflected light signal and the second reflected light signal.
[0018]
According to a third aspect of the present invention, there is provided an optical recording medium, comprising: a substrate; an information pattern formed on at least a part of the substrate; and at least one of a region where the information pattern is formed. An optical recording medium, comprising: a recording layer on which information is recorded / reproduced by a change in reflectance, deposited on an area on the substrate including a portion, wherein information is recorded in advance on the recording layer. Provided.
[0019]
In the optical recording medium of the present invention, the information pattern is formed in at least a part of the area on the substrate, and the recording layer is deposited on the area of the substrate including at least a part of the area where the information pattern is formed. ing. Information is recorded in the recording layer in advance. In the optical recording medium of the present invention, the recording layer is formed of a material on which information is recorded / reproduced by a change in reflectance, and, for example, a non-rewritable material such as an organic dye material may be used as the material. Alternatively, a rewritable material such as a phase change material may be used. Further, the user information may be recorded only on the recording layer. In the optical recording medium of the present invention, the information pattern formed on the substrate is preferably formed by pits.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a method for reproducing an optical recording medium, a recording / reproducing apparatus for the same, and an optical recording medium according to the present invention will be specifically described with reference to examples, but the present invention is not limited thereto.
[0021]
Embodiment 1
FIG. 1 shows a schematic cross-sectional view of the optical disk manufactured in Example 1. The optical disc 10 manufactured in this example has a structure in which a recording layer 12, a reflective layer 13, and a protective layer 14 are sequentially stacked on a substrate 11, as shown in FIG.
[0022]
In the method of manufacturing the optical disk 10 manufactured in this example, first, a master (not shown) having a pit pattern formed over the entire surface was prepared. The pit pattern formed on the master is obtained by mounting the master on which the photoresist has been applied to a master exposure apparatus (not shown) having an exposure head, and then supplying the master exposure signal shown in FIG. 4 to the exposure head. Then, the surface of the master was irradiated with light in accordance with the master exposure signal and patterned by patterning. Next, the pit pattern formed on the master is transferred to a Ni stamper (not shown), and injection is performed using a stamper (not shown) obtained by re-transferring the uneven pattern formed on the stamper surface. By molding, a polycarbonate disk-shaped substrate 11 having a diameter of 60 mm and a thickness of 1.2 mm was formed. As a result, a predetermined pit pattern having a track pitch of 1.6 μm, a pit width of 0.5 μm, and a pit depth of 50 nm was obtained over the entire area on one surface of the substrate 11. The polycarbonate substrate 11 used in this example had a refractive index of 1.5.
[0023]
Next, 1.5% by weight (% by weight in the mixed solution) of a cyanine-based dye was dissolved in a mixed solvent obtained by adding 5% by weight of 2-methoxyethanol to 2,2,3,3-tetrafluoropropanol to obtain a dye solution. Was adjusted. Next, the dye solution was applied onto the substrate 11 by spin coating to form the recording layer 12. Here, the thickness of the recording layer 12 was about 130 nm.
[0024]
After forming the recording layer 12, AlTi was deposited on the recording layer 12 by sputtering to a thickness of about 80 nm to form a reflective layer 13. Finally, an ultraviolet curable resin was applied on the reflective layer 13 to a thickness of about 5 μm, and the ultraviolet curable resin was irradiated with ultraviolet light to be cured, thereby forming the protective layer 14. Thus, an optical disk 10 having the laminated structure shown in FIG. 1 was manufactured.
[0025]
Next, a recording / reproducing apparatus used for recording / reproducing the optical disc 10 manufactured in this example will be described. FIG. 2 shows a schematic configuration of a recording / reproducing apparatus 20 most suitable for recording / reproducing the optical disc 10 manufactured in this example. As shown in FIG. 2, the recording / reproducing apparatus 20 includes a light irradiation system 21 and a control circuit system 22 for controlling the light irradiation system 21. The arrows connecting the respective circuit blocks in FIG. 2 indicate the flow of electric signals.
[0026]
The light irradiation system 21 has a function of irradiating the optical disk 10 with laser light during recording and reproduction of information and detecting reflected light from the optical disk 10, and a spindle motor 212 for rotating the optical disk 10. It is composed of
[0027]
The optical head unit 211 includes a laser light source having a wavelength of 780 nm, an objective lens having a numerical aperture NA = 0.55, a focusing function for focusing a light spot on the optical disc 10, and following the track on the optical disc 10. It has a built-in actuator having a tracking function for causing the light to be reflected and a photodetector for detecting reflected light (both are not shown). The actuator in the optical head 211 is controlled by a signal obtained by feeding back a push-pull signal of reflected light detected by the photodetector by a servo circuit 221 in the control circuit system 22 described later. The signal of the reflected light from the optical disk 10 detected by the photodetector in the optical head unit 211 is input to a reproduction signal processing unit 225 in the control circuit system 22, which will be described later, as shown in FIG.
[0028]
As shown in FIG. 2, the spindle motor 212 rotates the optical disk 10 under the control of a controller 230 in the control circuit system 22 described later. Since the optical disk 10 manufactured in this example records and reproduces information by light incident from the substrate side, the optical disk 10 is mounted on the spindle motor 212 such that the surface of the optical disk 10 on the substrate side faces the optical head unit 211.
[0029]
The control circuit system 22 includes a servo circuit 221, a laser controller 222, an encoder 223, a recording signal generation circuit 224, a reproduction signal processing unit 225, a memory device 226, an arithmetic device 227, an error correction decoder 228, It comprises a data block 229 and a controller 230. Each circuit block of the circuit control system 22 is controlled by the host computer 23 via the controller 230.
[0030]
When information is recorded on the optical disk 10 using the recording / reproducing apparatus 20 shown in FIG. 2, the information is input from the host computer 23 to the encoder 223 via the controller 230 and is converted into recording data. This recording data is input to the recording signal generating circuit 224 and is converted into a recording signal (hereinafter, referred to as a light irradiation signal). By inputting the light irradiation signal to the laser controller 222, a light pulse whose light intensity has been modulated according to the light irradiation signal is irradiated from the optical head unit 211 to the optical disc 10 to record information.
[0031]
On the other hand, when information is reproduced from the optical disk 10 using the recording / reproducing apparatus 20 shown in FIG. 2, the optical head unit 211 irradiates the optical disk 10 with reproduction light and reflects the reflected light from the optical disk unit 211 to the optical head unit 211. It is detected by the photodetector inside. The signal of the reflected light detected by the photodetector is input to the reproduction signal processing unit 225. In the reproduction signal processing unit 225, the input reflected light signal is converted into a voltage signal by an IV conversion circuit (not shown), and then the reflected light voltage signal is converted into an analog signal by an AD converter (not shown). The signal is converted to a digital signal and output. At this time, the timing of AD conversion is determined by a clock signal generated by a PLL circuit (not shown) in the reproduction signal processing unit 225.
[0032]
The digital signal of the reflected light output from the reproduction signal processing unit 225 is used when the signal of the reflected light detected by the optical head unit 211 in the reproduction process is a signal including pit information and information of the recording layer. Is sent to the memory device 226 and stored. On the other hand, when the signal of the reflected light detected by the optical head unit 211 includes only pit information, the digital signal of the reflected light output from the reproduction signal processing unit 225 is input to the arithmetic unit 227.
[0033]
The arithmetic unit 227 includes a reflected light digital signal including only pit information directly input from the reproduction signal processing unit 225 and a reflected light digital signal including pit information and recording layer information input from the memory device 226. Is calculated to generate a digital signal of reflected light corresponding to the information of the recording layer. Then, the arithmetic unit 227 outputs a digital signal corresponding to the pit information and a digital signal corresponding to the information of the recording layer individually.
[0034]
The digital signal corresponding to the pit information and the digital signal corresponding to the information of the recording layer individually output from the arithmetic unit 227 are both input to the error correction decoder 228. The error correction decoder 228 performs error correction on a digital signal corresponding to individually input pit information and a digital signal corresponding to information on a recording layer, respectively, and a decoder (not shown) in the error correction decoder 228 performs user error correction. Convert to information.
[0035]
Next, the optical disk 10 manufactured in this example was actually mounted on the recording / reproducing apparatus 20 of the present invention shown in FIG. 2 to record and reproduce information. First, recording on the optical disk 10 was performed by irradiating the optical disk 10 with laser light (recording light) modulated according to the light irradiation signal shown in FIG. The recording power of the recording light was 9 mW. However, in this example, the period of the light irradiation signal of the recording layer shown in FIG. 5 was shorter than the period of the master exposure signal used for forming the pits shown in FIG.
[0036]
When information is recorded, there are four possible combinations of the arrangement pattern of the pits formed on the substrate of the optical disc 10 and the recording marks recorded on the recording layer, as shown in FIG. However, in this example, as shown in FIG. 3, a pit is formed in a concave portion (35 in FIG. 3) when viewed from the light incident side (substrate 31 side). FIG. 3A shows a case where the recording mark 36 exists on the recording layer 32 on the pit 35, and FIG. 3B shows a case where the recording mark 36 does not exist on the recording layer 32 on the pit 35. FIG. 3C shows a case where the recording mark 36 exists on the recording layer 32 on the substrate area where the pit 35 does not exist, and FIG. 3D shows a case where the recording mark 32 exists on the recording layer 32 on the substrate area where the pit 35 does not exist. FIG. 3 is a schematic cross-sectional view of the optical disc when no recording mark 36 exists. When the arrangement patterns of the pits 35 and the recording marks 36 are different, the amount of reflected light obtained by each arrangement pattern is also different. When the recording mark 36 is present on the recording layer 32 on the pit 35 as shown in FIG. 3A, the amount of reflected light is smallest, and both the pit 35 and the recording mark 36 as shown in FIG. If not, the amount of reflected light is the largest.
[0037]
Next, the optical disk 10 on which information was recorded on the recording layer was irradiated with laser light (reproduction light) to reproduce information. The reproducing power of the reproducing light was 1 mW. FIG. 6A shows a signal of the reflected light detected from the optical disk 10 at this time. The detected reflected light signal includes pit information and information recorded on the recording layer. In such a signal, the reflected light amount is determined by the arrangement pattern of the pits and the recording marks on the recording layer shown in FIG. Since signals of different reflected lights are mixed, a complicated signal waveform is obtained as shown in FIG. Next, the signal data of the reflected light including the pit information shown in FIG. 6A and the information recorded on the recording layer was stored in the memory device 226 in the recording / reproducing apparatus 20 shown in FIG.
[0038]
Next, the optical disk 10 was irradiated with a laser beam (erasing light) having a laser power of 9 mW to erase information on the recording layer. In this example, since an organic dye material is used for the recording layer, all the recording layers are brought into a recording state by irradiating erasing light, whereby the amount of light reflected from the recording layer becomes constant, and the information of the recording layer becomes Is erased. After erasing the information in the recording layer, the optical disk 10 was irradiated with a laser beam having a reproduction power of 1 mW to perform reproduction, and a reflected light signal as shown in FIG. 6B was obtained. At this time, since the information on the recording layer has already been erased, the reflected light signal shown in FIG. 6B has the same period as the master exposure signal used to form the pit pattern shown in FIG. A signal corresponding to the pit information was obtained.
[0039]
Finally, the reflected light signal including the pit information of FIG. 6A and the information of the recording layer stored in the memory device 226 in the recording / reproducing apparatus 20 shown in FIG. 2 and the pit information of FIG. When the signal of the reflected light corresponding to is input to the arithmetic unit 227 in the recording / reproducing apparatus 20 and the difference processing is performed, a signal as shown in FIG. 6C is obtained. As can be seen from a comparison between the signal of the reflected light shown in FIG. 6C and the light irradiation signal used for recording information on the recording layer shown in FIG. 5, the reflected light shown in FIG. Was a signal having the same cycle as the light irradiation signal used when recording information on the recording layer shown in FIG. 5, and a signal corresponding to the information recorded on the recording layer was obtained. As described above, by using the recording / reproducing method and apparatus of the present invention, each information can be individually reproduced from a reproduced signal including pit information and information of a recording layer.
[0040]
Embodiment 2
FIG. 7 shows the optical disk manufactured in Example 2. As shown in FIG. 7A, in an optical disk 70 manufactured in this example, a recording layer 72 is laminated on the entire surface of a substrate 71. However, the optical disk 70 manufactured in this example was manufactured by the same manufacturing method as in Example 1. An organic dye material was used for the recording layer 72 as in the first embodiment. In FIG. 7, the protective layer and the reflective layer are omitted to simplify the description here.
[0041]
In the optical disk 70 manufactured in this example, user information (information to be transmitted / held) is recorded as a recording mark on the recording layer 72, and key information necessary for reproducing the user information recorded on the recording layer 72 is: Pits 73 are formed over the entire surface of the substrate 71. That is, the optical disk 70 manufactured in this example has a structure in which the pit information formed on the substrate 71 and the information recorded on the recording layer 72 overlap over the entire surface of the optical disk 70. However, in this example, as shown in FIG. 7B, a portion (73 in FIG. 7B) having a convex shape when viewed from the light incident side (substrate 71 side) was used as a pit.
[0042]
A method for recording the user information and the key information of the optical disc 70 manufactured in this example will be described. The key information necessary for reproducing the user information was created during the manufacturing process of the substrate 71. The key information was formed as pits 73 over the entire surface of the substrate 71 by injection molding using a stamper (not shown) having a concavo-convex pattern corresponding to the key information, as in the first embodiment. The user information is obtained by mounting the optical disk 70 manufactured in this example on the recording / reproducing apparatus 20 shown in FIG. 2 and intermittently irradiating the laser light (recording light) modulated according to the user information over the entire surface of the optical disk 70. As a result, a recording mark was recorded on the recording layer 72. At this time, the intensity of the recording light applied to the optical disk 70 was set to a level sufficient to record user information on the recording layer 72.
[0043]
Next, a method of reproducing user information from the optical disk 70 manufactured in this example will be described. First, the optical disk 70 on which the user information and the key information are recorded by the above recording method is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and the entire surface of the optical disk 70 is irradiated with light (reproducing light). The information was reproduced by detecting the reflected light of. At this time, the intensity of the reproduction light applied to the optical disk 70 was set to such an intensity that the user information recorded on the recording layer 72 was not destroyed. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, the information obtained at this time is information (hereinafter, referred to as information A2) in which user information recorded on the recording layer and key information formed as pits on the substrate are mixed.
[0044]
Next, light (erasing light) was applied to the entire surface of the optical disk 70 to erase all user information recorded on the recording layer 72. At this time, the intensity of the erasing light applied to the optical disk 70 was set to a level sufficient to erase the user information recorded on the recording layer 72. In this example, since an organic dye material is used for the recording layer 72, the recording layer 72 is entirely in a recording state by irradiating light, whereby the amount of light reflected from the recording layer 72 becomes constant, 72 is erased. After erasing the user information on the recording layer 72, the entire surface of the optical disk 70 was irradiated with reproduction light again, and the light reflected from the optical disk 70 was detected to reproduce the information. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, in the information obtained at this time, since all user information already recorded on the recording layer 72 has been deleted, information corresponding to key information formed as pits on the substrate 71 (hereinafter referred to as information B2) ).
[0045]
Next, the arithmetic unit 227 in the recording / reproducing apparatus 20 shown in FIG. 2 compares the information A2 corresponding to the mixed information of the user information and the key information stored in the memory device 226 with the information B2 corresponding to the key information. By obtaining the difference, information corresponding to the user information recorded on the recording layer 72 was reproduced.
[0046]
In the optical disk 70 manufactured in this example, as described above, all the user information is erased during the process of reproducing the user information recorded on the recording layer. Therefore, once the user information is reproduced, once the user information is reproduced, Playback and installation are not possible. Therefore, the optical disk 70 manufactured in this example is an optical recording medium used when a user records personal information or small-scale publishing information by himself and reproduces the information only once and wants to destroy the recorded information. The medium is a suitable medium. In this example, the example in which the user information is recorded in the recording layer over the entire surface of the optical disc 70 has been described, but the user information is recorded in a part of the recording information area on the key information area formed as pits on the substrate. It may be.
[0047]
Embodiment 3
FIG. 8 shows the optical disk manufactured in Example 3. As shown in FIG. 8A, an optical disk 80 manufactured in this example has a recording layer 82 laminated on the entire surface of a substrate 81. However, the optical disk 80 manufactured in this example was manufactured by the same manufacturing method as in Example 1. An organic dye material was used for the recording layer 82 as in the first embodiment. In FIG. 8, the protective layer and the reflective layer are omitted to simplify the description here.
[0048]
In the optical disk 80 manufactured in this example, the user information is recorded as a recording mark on the recording layer 82, and the key information necessary for reproducing the user information is formed as pits 83 on the substrate 81 in an area near the outer periphery of the optical disk 80 (the area 82b). (The lower part of the recording layer), and the area 82b is formed so as to be concentric with the center of the optical disc 80. That is, in the optical disc 80 manufactured in this example, as shown in FIG. 8A, the area where the pit information formed on the substrate 81 and the information recorded on the recording layer 82 overlap each other is an area 82b ( In the following, these areas are referred to as overlap areas), and the areas 82a and 82c are areas in which only information recorded on the recording layer 82 exists. However, in this example, as shown in FIG. 8B, a portion (83 in FIG. 8B) having a convex shape when viewed from the light incident side (substrate 81 side) was used as a pit.
[0049]
A method of recording the user information and the key information of the optical disc 80 manufactured in this example will be described. The key information necessary for reproducing the user information was created during the manufacturing process of the substrate 81. As in the first embodiment, the key information is pitted in a region on the substrate 81 below the overlap region 82b by injection molding using a stamper (not shown) having a concavo-convex pattern corresponding to the key information. 83. The user information is obtained by mounting the optical disk 80 manufactured in this example on the recording / reproducing apparatus 20 shown in FIG. 2 and intermittently irradiating the laser light (recording light) modulated according to the user information over the entire surface of the optical disk 80. As a result, a recording mark was recorded on the recording layer 82.
[0050]
Next, a method for reproducing the user information of the optical disk 80 manufactured in this example will be described. First, the optical disk 80 on which the user information and the key information are recorded is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and light (reproduction light) is applied to an area 82b of the optical disk 80 where the user information and the key information overlap. ), And the information is reproduced by detecting the reflected light from the overlap area 82b. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. Information obtained at this time is information in which user information recorded on the recording layer of the overlap area 82b and key information formed as pits 83 on the substrate 81 are mixed (hereinafter, referred to as information A3).
[0051]
Next, light (erasing light) was applied to the overlap area 82b of the key information and the user information to erase the user information recorded on the recording layer of the overlap area 82b. In this example, as in the first embodiment, the organic dye material is used for the recording layer. Therefore, by irradiating the overlap area 82b with erasing light, the entire recording layer in the overlap area 82b is in a recording state. As a result, the amount of reflected light from the recording layer in the overlap area 82b becomes constant, and the information in the recording layer in the overlap area 82b is erased. After erasing the user information recorded on the recording layer of the overlap area 82b, the overlap area 82b of the optical disk 80 is irradiated with reproduction light again, and the reflected light from the overlap area 82b is detected to reproduce the information. did. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, the information obtained from the overlap area 82b at this time corresponds to the key information formed as the pits 83 on the substrate 81 in the overlap area 82b because the user information in the overlap area 82b has already been deleted. Information (hereinafter, referred to as information B3).
[0052]
Next, information A3 corresponding to information in which user information and key information of the overlap area 82b stored in the memory device 226 in the recording / reproducing apparatus 20 shown in FIG. 2 are mixed, and key information of the overlap area 82b The difference from the information B3 to be obtained was obtained, and information corresponding to the user information recorded on the recording layer of the overlap area 82b was reproduced. Next, reproduction light was applied to the areas 82a and 82c in which only the user information exists, and the user information was reproduced from each area, and all the user information recorded on the recording layer of the optical disc 80 was reproduced.
[0053]
In the optical disk 80 manufactured in this example, as described above, the user information recorded on the recording layer of the overlap area 82b is erased during the process of reproducing the user information. Then, the reproduction and installation of the user information in the overlap area 82b become impossible again. Therefore, in the optical disk 80 manufactured in this example, reproduction and installation of all user information are performed only once. Also, in the optical disc 80 manufactured in this example, the overlapping area 82b of the user information recorded in the recording layer 82 and the key information formed as pits on the substrate 81 is smaller than the optical disc 70 manufactured in the second embodiment. Therefore, the amount of memory in the recording / reproducing device required in the process of reproducing the user information can be reduced. Furthermore, by reducing the overlap area 82b, the time for reproducing and calculating the reproduction information obtained from the overlap area 82b is shortened, so that the reproduction time for the user information can be shortened.
[0054]
Embodiment 4
FIG. 9 shows the optical disk manufactured in Example 4. As shown in FIG. 9A, an optical disk 90 manufactured in this example has a recording layer 92 laminated on the entire surface of a substrate 91. However, the optical disk 90 manufactured in this example was manufactured by the same manufacturing method as in Example 1. An organic dye material was used for the recording layer 92 as in the first embodiment. In FIG. 9, the protective layer and the reflective layer are omitted to simplify the description here.
[0055]
In the optical disk 90 manufactured in this example, key information necessary for reproducing user information is formed as pits 93 on the substrate 91 in a region near the outer periphery of the optical disk 90 (below the recording layer of the region 92b), and the region 92b is The optical disk 90 is formed so as to have a concentric band shape with respect to the center. However, in this example, as shown in FIG. 9B, a pit is formed at a portion (93 in FIG. 9B) that is convex when viewed from the light incident side (substrate 91 side). In the recording layer 92, information (hereinafter, referred to as information C) obtained by processing user information using key information formed as pits 93 on the substrate 91 is recorded as recording marks. Here, as a method of arithmetically processing the user information using the key information, a method such as encryption or array change was used. The key information is a rule or conversion code for decrypting the user information when it is encrypted, and a key such as the rule or array number when the user information is rearranged. Information. That is, as shown in FIG. 9A, the area where the pit information formed on the substrate 91 and the information recorded on the recording layer 92 overlap is only the area 92b (hereinafter referred to as the overlap area). The areas 92a and 92c are areas in which only information recorded on the recording layer exists.
[0056]
A method for recording user information and key information on the optical disc 90 manufactured in this example will be described. The key information necessary for reproducing the user information was created during the manufacturing process of the substrate 91. As in the first embodiment, the key information is pitted in a region on the substrate 91 below the overlap region 92b by injection molding using a stamper (not shown) having a concavo-convex pattern corresponding to the key information. 93 was formed.
[0057]
The recording method of the user information is as follows. The optical disc 90 produced in this example was mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and the reproduction light was applied to the overlap area 92b, and the information was reproduced by detecting the reflected light from the overlap area 92b. At this time, since no information is recorded on the recording layer of the overlap area 92b, the reproduced information becomes information corresponding to the key information formed as the pits 93 on the substrate 91 below the overlap area 92b. The reproduced key information is stored in the memory device 226 in the recording / reproducing device 20. Next, in the recording / reproducing device 20, using the key information stored in the memory device 226, the user information was arithmetically processed by a method such as encryption or arrangement change to produce information C. The information C is recorded on the recording layer 92 by intermittently irradiating laser light (recording light) modulated in accordance with the information C over the entire surface of the optical disc 90 after the information C is produced by arithmetically processing the user information with the key information. Recorded as a mark.
[0058]
Next, a method of reproducing the user information of the optical disc 90 manufactured in this example will be described. First, the optical disc 90 on which the user information and the key information are recorded by the above recording method is mounted on the recording / reproducing apparatus 20 shown in FIG. 2 and the information C recorded on the recording layer 92 of the optical disc 90 and the information Light (reproduction light) was applied to the area 92b where the key information formed as the pits 93 overlapped, and the information was reproduced by detecting the reflected light from the overlap area 92b. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. The information obtained at this time is information in which information C of the overlap area 92b and key information are mixed (hereinafter referred to as information A4).
[0059]
Next, light (erasing light) was applied to the overlap area 92b to erase the information C recorded on the recording layer in the overlap area 92b. In this example, as in the first embodiment, the organic dye material is used for the recording layer. Therefore, by irradiating the overlap area 92b with erasing light, the entire recording layer in the overlap area 92b enters a recording state. As a result, the amount of light reflected from the recording layer in the overlap area 92b becomes constant, and the information C recorded on the recording layer in the overlap area 92b is erased. After erasing the information C recorded on the recording layer of the overlap area 92b, the overlap area 92b was irradiated with reproduction light again, and the light reflected from the overlap area 92b was detected to reproduce the information. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, in this case, the information obtained from the overlap area 92b is a key formed as a pit 93 on the substrate 91 below the overlap area 92b because the information C of the recording layer in the overlap area 92b has already been erased. The information corresponds to the information (hereinafter, referred to as information B4).
[0060]
Next, the difference between the information A4 corresponding to information in which the information C and the key information are mixed in the overlap area 92b stored in the memory device 226 in the recording / reproducing apparatus 20 and the information B4 corresponding to the key information is obtained. Information corresponding to the information C recorded on the recording layer of the overlap area 92b was reproduced. After reproducing the information C on the recording layer in the overlap area 92b, the areas 92a and 92c were irradiated with reproduction light to reproduce the information C recorded on the recording layer in each area, and all the information C was reproduced. Finally, all the reproduced information C was subjected to inverse calculation processing using the key information stored in the memory device 226 to reproduce the user information. However, the inverse operation processing of the information C using the key information may be performed at any time while reproducing the information C recorded on the recording layer of each area.
[0061]
In the optical disc 90 manufactured in this example, as described above, the information C recorded on the recording layer of the overlap area 92b is erased during the process of reproducing the user information. The reproduction of the information C in the overlap area 92b becomes impossible, and the reproduction and installation of the user information in the overlap area 92b again become impossible. Therefore, in the optical disk 90 manufactured in this example, reproduction and installation of all user information are performed only once. Further, in the optical disc 90 manufactured in this example, the area 92b where the user information recorded in the recording layer 92 and the key information formed as pits on the substrate 91 overlap is reduced as in the third embodiment. Therefore, the amount of memory in the recording / reproducing device required in the process of reproducing user information can be reduced. Further, by reducing the overlap area 92b, the time for reproducing and calculating the reproduction information obtained from the overlap area 92b is shortened, so that the time for reproducing the user information can be shortened.
[0062]
Embodiment 5
FIG. 10 shows the optical disk manufactured in Example 5. As shown in FIG. 10A, the optical disc 100 manufactured in this example has a recording layer 102 laminated on the entire surface of a substrate 101. However, the optical disk 100 manufactured in this example was manufactured by the same manufacturing method as in the first embodiment. An organic dye material was used for the recording layer 102 as in Example 1. In FIG. 10, the protective layer and the reflective layer are omitted to simplify the description here.
[0063]
In the optical disc 100 manufactured in this example, key information necessary for reproducing user information (hereinafter referred to as first key information) is formed as pits 103 on the substrate 101 in an area near the outer periphery of the optical disc 100 (in the recording layer of the area 102b). The area 102b is formed in a concentric band shape with respect to the center of the optical disc 100. However, in this example, as shown in FIG. 10B, a portion (103 in FIG. 10B) having a convex shape when viewed from the light incident side (substrate 101 side) was defined as a pit. The recording layer 102 is divided into three regions (regions 102a, 102b and 102c) as shown in FIG. The area 102b is an area where the first key information formed as pits 103 on the substrate 101 and the recording layer 102 overlap (hereinafter, referred to as an overlap area), and user information is calculated in the recording layer of the overlap area 102b. Key information (hereinafter, referred to as second key information) created on the user side or the drive system side for processing is recorded as a recording mark. In the recording layers of the areas 102a and 102c, information (hereinafter, referred to as information D) obtained by processing user information with the second key information is recorded as a recording mark. That is, in the optical disc 100 manufactured in this example, the area where the pit information formed on the substrate 101 and the information recorded on the recording layer 102 overlap only in the overlap area 102b, and in the other areas 102a and 102c. Indicates that only the information of the recording layer is formed. Here, the second key information is a rule or a conversion code for decrypting the user information when the user information is encrypted, and a rule or an array number when the user information is rearranged. Key information. The second key information can be arbitrarily created on the user side or the drive system side. Further, the information D is produced by arithmetically processing the user information by a technique such as encryption or arrangement change using the second key information.
[0064]
A method for recording user information and key information on the optical disc 100 manufactured in this example will be described. In the optical disc 100 manufactured in this example, the first key information is necessary to obtain the second key information, and the first key information was manufactured during the manufacturing process of the substrate 101. As in the first embodiment, the first key information is formed in an area on the substrate 101 below the overlap area 102b by injection molding using a stamper (not shown) having a concavo-convex pattern corresponding to the key information. Were formed as pits 103.
[0065]
The recording method of the user information and the second key information is as follows. The optical disk 100 manufactured in this example is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and a laser beam (recording light) modulated in accordance with the second key information generated on the user side or the drive system side is provided in the overlap area 102b. ) Was intermittently irradiated to record the second key information on the recording layer of the overlap area 102b. Next, information D was recorded on the recording layers of the areas 102a and 102c by intermittently irradiating laser light (recording light) modulated according to information D obtained by arithmetically processing user information with the second key information.
[0066]
Next, a method for reproducing the user information of the optical disc 100 manufactured in this example will be described. First, the optical disc 100 on which the user information and the key information are recorded by the recording method described above is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and the overlap area 102b of the optical disc 100 is irradiated with light (reproducing light). Information was reproduced by detecting the reflected light from the overlap region 102b. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. The information obtained at this time is information in which first key information formed as pits 103 on the substrate 101 and second key information recorded on the recording layer of the overlap area 102b are mixed (hereinafter referred to as information A5). ).
[0067]
Next, light (erasing light) was applied to the overlap area 102b of the optical disc 100 to erase the second key information recorded on the recording layer of the overlap area 102b. In this example, as in the first embodiment, the organic dye material is used for the recording layer. Therefore, by irradiating the overlap region 102b with erasing light, the recording layer in the overlap region 102b is in a recording state. As a result, the amount of reflected light from the recording layer of the overlap area 102b becomes constant, and the second key information recorded on the recording layer of the overlap area 102b is erased. After erasing the second key information recorded on the recording layer of the overlap area 102b, the overlap area 102b of the optical disc 100 is irradiated with reproduction light again to detect reflected light from the overlap area 102b. Played the information. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, at this time, the information obtained from the overlap area 102b has been erased from the second key information already recorded on the recording layer of the overlap area 102b. Information corresponding to the first key information formed as 103 (hereinafter referred to as information B5).
[0068]
Next, information A5 corresponding to information in which the first key information and the second key information are mixed in the overlap area 102b stored in the memory device 226 in the recording / reproducing apparatus 20 and information B5 corresponding to the first key information And the information corresponding to the second key information recorded on the recording layer of the overlap area 102b was reproduced. The reproduced second key information is stored in the memory device 226 in the recording / reproducing device 20. Next, the reproduction light was applied to the areas 102a and 102c of the optical disc 100 to reproduce the information D obtained by arithmetically processing the user information with the second key information. Finally, the reproduced information D was inversely processed with the second key information stored in the memory device 226 to reproduce the user information. Note that the reverse operation processing of the information D using the second key information may be performed in parallel with the reproduction of the information D recorded in the areas 102a and 102c of the optical disc 100.
[0069]
In the optical disc 100 manufactured in this example, as described above, the second key information in the overlap area 102b is erased during the process of reproducing the user information. Therefore, once the user information of the optical disc 100 is reproduced, The reproduction of the second key information recorded on the recording layer of the lap area 102b becomes impossible. Therefore, when the user information is to be reproduced from the optical disc 100 again, the information D can be reproduced from the recording layers of the areas 102a and 102c of the optical disc 100, but the second key information cannot be obtained. It becomes impossible to reproduce the user information from the information D by performing an inverse operation using the second key information. That is, in the optical disc 100 manufactured in this example, reproduction and installation of the user information are performed only once. Also, in the optical disc 100 manufactured in this example, the area 102b where the user information recorded in the recording layer 102 and the key information formed as pits on the substrate 101 overlap each other is reduced as in the third embodiment. Therefore, the amount of memory in the recording / reproducing device 20 required in the process of reproducing the user information can be reduced. Further, by reducing the overlap area 102b, the time for reproducing and calculating the reproduction information obtained from the overlap area 102b is shortened, so that the reproduction time for the user information can be shortened.
[0070]
Embodiment 6
FIG. 11 shows the optical disk manufactured in Example 6. As shown in FIG. 11A, the optical disc 110 manufactured in this example has a recording layer 112 laminated on the entire surface of a substrate 111. However, the optical disk 110 manufactured in this example was manufactured by the same manufacturing method as in Example 1. An organic dye material was used for the recording layer 112 as in Example 1. In FIG. 11, the protective layer and the reflective layer are omitted to simplify the description here.
[0071]
In the optical disk 110 manufactured in this example, key information necessary for reproducing user information (hereinafter referred to as first key information) is formed as pits 113 on the substrate 111 in a region near the outer periphery of the optical disk 110 (the recording layer of the region 112b). The region 112b is formed in a concentric band shape with respect to the center of the optical disk 110. However, in this example, as shown in FIG. 11 (b), a portion (113 in FIG. 11 (b)) having a convex shape when viewed from the light incident side (substrate 111 side) was used as a pit. The recording layer 112 is divided into three areas (areas 112a, 112b and 112c) as shown in FIG. The area 112b is an area where the first key information formed as pits 113 on the substrate 111 and the recording layer 112 overlap (hereinafter, referred to as an overlap area), and the recording layer of the overlap area 112b has a user side or Key information (hereinafter referred to as second key information) created by the drive system is recorded as a recording mark. In the recording layers of the areas 112a and 112c, information (hereinafter, referred to as information E) obtained by processing user information with the first and second key information is recorded as a recording mark. That is, in the optical disk 110 manufactured in this example, the area where the pit information formed on the substrate 111 and the information recorded on the recording layer 112 overlap only in the overlap area 112b, and in the other areas 112a and 112c. Indicates that only the information of the recording layer is formed. However, in the optical disc 110 manufactured in this example, the information E recorded on the recording layers of the areas 112a and 112c is obtained by using both the first and second key information to encrypt the user information by a technique such as encryption or arrangement change. It is produced by arithmetic processing. Here, the key information is a rule or a conversion code for decrypting the user information when the user information is encrypted, and a rule or an array number when the user information is rearranged. It is key information. In this example, these pieces of key information are used separately as first key information formed as pits 113 on the substrate 111 and second key information created on the user side or the drive system side.
[0072]
A method of recording the user information and the first and second key information of the optical disc 110 manufactured in this example will be described. The first key information necessary for reproducing the user information was created during the manufacturing process of the substrate 111. In the same manner as in the first embodiment, the first key information is formed in an area on the substrate 111 below the overlap area 112b by injection molding using a stamper (not shown) having a concavo-convex pattern corresponding to the key information. Were formed as pits 113.
[0073]
The recording method of the user information is as follows. The optical disk 110 manufactured in this example was mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and information was reproduced by irradiating the overlapping area 112b with reproducing light. At this time, since no information is recorded on the recording layer of the overlap area 112b, the reproduced information is the same as the information corresponding to the first key information formed as the pit 113 on the substrate 111 below the overlap area 112b. Become. The reproduced first key information is stored in the memory device 226 in the recording / reproducing device 20. Next, the second key information was created on the user side or the drive system side. However, the production of the second key information may be performed before the reproduction of the first key information. Further, the second key information may be created in the recording / reproducing device 20 or may be produced in advance outside the recording / reproducing device. Next, information E was prepared by arithmetically processing the user information using the first and second key information. Next, a laser beam (recording light) modulated according to the second key information was intermittently applied to the overlap area 112b to form the second key information as a recording mark on the recording layer of the overlap area 112b. The recording layers in the areas 112a and 112c were intermittently irradiated with laser light (recording light) modulated according to the information E, and the information E was recorded as recording marks.
[0074]
Next, a method of reproducing the user information of the optical disk 110 manufactured in this example will be described. First, the optical disk 110 on which the user information and the key information are recorded by the above recording method is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and the overlap area 112b of the optical disk 110 is irradiated with light (reproducing light). Information was reproduced by detecting the reflected light from the overlap area 112b. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. Information obtained at this time is information in which first key information formed as pits 113 on the substrate 111 and second key information recorded as a recording mark on the recording layer of the overlap area 112b are mixed (hereinafter, referred to as information). Information A6).
[0075]
Next, light (erasing light) was applied to the overlapping area 112b of the optical disk 110 to erase the second key information recorded on the recording layer of the overlapping area 112b. In this example, as in the first embodiment, the organic dye material is used for the recording layer. Therefore, by irradiating the erasing light to the overlap region 112b, the entire recording layer in the overlap region 112b enters a recording state. As a result, the amount of light reflected from the recording layer in the overlap area 112b becomes constant, and the second key information recorded on the recording layer in the overlap area 112b is erased. After erasing the second key information recorded on the recording layer of the overlap area 112b, the overlap area 112b of the optical disc 110 is irradiated with reproduction light again, and the reflected light from the overlap area 112b is detected. Played the information. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, at this time, the information obtained from the overlap area 112b is not recorded on the substrate 111 below the overlap area 112b because the second key information already recorded on the recording layer of the overlap area 112b has been deleted. The information corresponds to the first key information formed as the pit 113 (hereinafter, referred to as information B6).
[0076]
Next, the difference between the information A6 corresponding to the mixed information of the first and second key information in the overlap area 112b and the information B6 corresponding to the first key information in the overlap area 112b stored in the memory device 226 in the recording / reproducing apparatus 20. And the information corresponding to the second key information recorded on the recording layer of the overlap area 112b was reproduced. The reproduced second key information is stored in the memory device 226 in the recording / reproducing device 20. Next, reproduction light was applied to the regions 112a and 112c of the optical disk 110, and the reflected light from each region was detected to reproduce the information E. Finally, the reproduced information E was inversely processed with the first and second key information stored in the memory device 226 in the recording / reproducing device 20 to reproduce the user information. Note that the reverse operation processing of the information E using the first and second key information may be performed in parallel with the reproduction of the information E recorded in the areas 112a and 112c of the optical disc 110.
[0077]
In the optical disk 110 manufactured in this example, as described above, the second key information recorded on the recording layer of the overlap area 112b is erased during the process of reproducing the user information. When the information is reproduced, the reproduction of the second key information recorded on the recording layer of the overlap area 112b becomes impossible again. Therefore, when the user information is to be reproduced from the optical disk 110 again, the information E and the first key information formed as pits on the substrate 111 can be reproduced from the recording layers of the areas 112a and 112c. Since the two-key information cannot be obtained, the user information cannot be reproduced from the information E by performing the inverse operation processing using the first and second key information. That is, in the optical disk 110 manufactured in this example, reproduction and installation of the user information are performed only once. In the optical disk 110 manufactured in this example, the area 112b where the user information recorded on the recording layer 112 and the key information formed as pits on the substrate 111 overlap each other is reduced as in the third embodiment. Therefore, the amount of memory in the recording / reproducing apparatus 20 required in the process of reproducing the user information can be reduced. Furthermore, by reducing the size of the overlap area 112b, the time for reproducing and calculating the reproduction information obtained from the overlap area 112b is shortened, so that the time for reproducing the user information can be shortened.
[0078]
Embodiment 7
FIG. 12 shows the optical disk manufactured in Example 7. In the optical disc 120 manufactured in this example, as shown in FIG. 12A, the recording layer is formed in a partial area (area 122) near the outer periphery on the substrate 121, and the area 122 is formed at the center of the optical disc 110. On the other hand, it is formed to have a concentric band shape. However, the optical disk 120 manufactured in this example was manufactured by the same manufacturing method as in Example 1. However, an organic dye material was used for the recording layer in the region 122 as in Example 1. FIG. 12B is a schematic cross-sectional view of the track in the circumferential direction in the region 122. In FIG. 12, the protective layer and the reflective layer are omitted to simplify the description here.
[0079]
In the optical disc 120 manufactured in this example, the key information necessary for reproducing the user information is formed as a recording mark on the recording layer of the area 122. The user information is processed by the key information (hereinafter, the processed information is referred to as information F). The information F is formed as pits 123 over the entire surface of the substrate 121. However, in this example, as shown in FIG. 12B, a portion (123 in FIG. 12B) having a convex shape when viewed from the light incident side (substrate 121 side) was used as a pit. That is, in the optical disc 120 manufactured in this example, as shown in FIG. 12A, the area where the pit information formed on the substrate 121 and the information recorded on the recording layer overlap each other is an area 122 (hereinafter, referred to as an over area). The other regions 124 and 125 are only pit information formed on the substrate 121. Here, the information F is produced by arithmetically processing user information by a technique such as encryption or arrangement change using key information.
[0080]
A method for recording the user information and the key information of the optical disc 120 manufactured in this example will be described. First, information F obtained by arithmetically processing user information with key information was produced. The information F was formed as a pit 123 over the entire surface of the substrate 121 by injection molding using a stamper (not shown) having a concavo-convex pattern corresponding to the information F, as in the first embodiment. On the other hand, the key information recording method is as follows. The optical disc 120 manufactured in this example is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and the overlap area 122 is intermittently irradiated with laser light (recording light) modulated in accordance with the key information. Key information was recorded as a recording mark on the recording layer 122.
[0081]
Next, a method of reproducing the user information of the optical disc 120 manufactured in this example will be described. First, the optical disc 120 on which the user information and the key information are recorded by the above recording method is mounted on the recording / reproducing apparatus 20 shown in FIG. 2, and the overlap area 122 of the optical disc 120 is irradiated with light (reproducing light). Information was reproduced by detecting reflected light from the overlap region 122. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. The reproduced information obtained at this time is information in which a part of information F formed as pits 123 below the overlap area 122 and key information recorded on the recording layer of the overlap area 122 are mixed (hereinafter, information A7). ).
[0082]
Next, light (erasing light) was applied to the overlap area 122 of the optical disc 120 to erase the key information recorded on the recording layer of the overlap area 122. In this example, as in the first embodiment, the organic dye material is used for the recording layer. Therefore, by irradiating the overlap area 122 with erasing light, the entire recording layer in the overlap area 122 is in a recording state. As a result, the amount of light reflected from the recording layer in the overlap area 122 becomes constant, and the key information recorded on the recording layer in the overlap area 122 is erased. After erasing the key information recorded on the recording layer of the overlap area 122, the overlap area 122 of the optical disc 120 is irradiated with reproduction light again, the reflected light from the overlap area 122 is detected, and the information is read. Replayed. The reproduced information is stored in the memory device 226 in the recording / reproducing device 20. However, in this case, since the key information already recorded on the recording layer of the overlap area 122 has been erased from the information obtained from the overlap area 122, the pits 123 are formed on the substrate 121 below the overlap area 122. (Hereinafter referred to as information B7) corresponding to a part of the information F formed as.
[0083]
Next, the information A7 corresponding to the information F of the overlap area 122 and the key information which are stored in the memory device 226 in the recording / reproducing apparatus 20 and the information B7 corresponding to the information F of the overlap area 122 are compared. The difference was obtained, and information corresponding to the key information recorded on the recording layer of the overlap area 122 was reproduced. Next, all the information F was reproduced by irradiating the regions 124 and 125 of the optical disc 120 with reproduction light and reproducing the information F in each region. Finally, all the reproduced information F was inversely processed with the key information stored in the memory device 226 in the recording / reproducing device 20 to reproduce the user information. Note that the inverse operation processing of the information F using the key information may be performed in parallel with the reproduction of the information F recorded in the areas 124 and 125 of the optical disc 120.
[0084]
In the optical disc 120 manufactured in this example, as described above, the key information of the overlap area 122 is erased during the process of reproducing the user information. Therefore, once the user information of the optical disc 120 is reproduced, the overlap area is never reproduced. It becomes impossible to reproduce the key information 122. Therefore, when the user information is to be reproduced from the optical disc 120 again, the information F formed as pits on the substrate 121 can be reproduced, but the key information cannot be obtained. Therefore, it becomes impossible to reproduce the user information by performing the reverse operation processing. That is, in the optical disc 120 manufactured in this example, the reproduction and installation of the user information are performed only once. Such an optical disk 120 is suitable as a medium for distributing or selling software. In the optical disk 120 manufactured in this example, the area 122 where the user information formed as pits on the substrate 121 and the key information recorded in the recording layer overlap each other is reduced as in the third embodiment. Therefore, the amount of memory in the recording / reproducing device 20 required in the process of reproducing user information can be reduced. Further, by making the overlap area 122 smaller, the reproduction and calculation time of the reproduction information obtained from the overlap area 122 is shortened, so that the reproduction time of the user information can be shortened.
[0085]
In the above-described Examples 1 to 7, examples in which an organic dye material was used for the recording layer were described, but the present invention is not limited to this. As a material for forming the recording layer, any material whose reflectivity changes by light irradiation may be used. For example, a rewritable material such as a phase change material may be used.
[0086]
In the first to seventh embodiments, information is reproduced after recording information on the recording layer of the optical disk using the recording and reproducing apparatus of the present invention. However, the present invention is not limited to this. It is also possible to prepare an optical disk in which information is recorded in the recording layer in advance by a conventional recording / reproducing device or the like, and reproduce the optical disk with the recording / reproducing device of the present invention.
[0087]
In the first embodiment, the pit is described as a portion that is concave when viewed from the light incident side (substrate side). However, the present invention is not limited to this. The pit may be used as a part. Further, in the above-described Examples 2 to 7, the portion having a convex shape when viewed from the light incident side (substrate side) is described as a pit. However, the present invention is not limited to this, and the present invention is not limited to this. The pit may be a portion that is concave.
[0088]
In the first embodiment, the information is recorded on the recording layer using the light irradiation signal having a cycle shorter than the cycle of the master exposure signal of the pit pattern. However, the present invention is not limited to this. Information may be recorded on the recording layer using a light irradiation signal having a cycle longer than the cycle of the master exposure signal of the pit pattern, or using a light irradiation signal having the same cycle as the cycle of the master exposure signal of the pit pattern. Information may be recorded on the recording layer. In the first to seventh embodiments, the period and modulation method of the information formed as pits on the substrate and the information recorded on the recording layer may be independently set, or may be set to the same setting. Is also good.
[0089]
In the seventh embodiment, an example in which a recording layer is deposited on a part of a substrate of an optical disc and key information is recorded on the recording layer has been described. However, the present invention is not limited to this. The key information necessary for reproducing the user information may be recorded in a part of the recording layer by depositing over the entire surface.
[0090]
In the above-described Embodiments 2 to 6, an example has been described in which information relating to user information is mainly recorded on the recording layer of the optical disk, and key information necessary for reproducing the user information is recorded as a pit pattern on the substrate. The invention is not limited to this, and the pit pattern formed on the substrate may include information on user information in addition to the key information. In the seventh embodiment, the key information is recorded on the recording layer of the optical disc, and the information related to the user information is recorded as a pit pattern on the substrate. However, the present invention is not limited to this. May include information on user information in addition to the key information.
[0091]
In the above-described fourth to seventh embodiments, encryption or array change is used as a method for processing the user information with the key information. However, the present invention is not limited to this. Any method may be used as long as the user information is changed to a state where it cannot be collected by merely reproducing by a method, and an arbitrary processing method that produces the effect may be used.
[0092]
In the third to seventh embodiments, the overlap area between the pit information formed on the substrate and the information recorded on the recording layer is formed in a part of the area near the outer periphery of the optical disc in a concentric band with respect to the center of the optical disc. Although an example in which a shape is provided is described, this is merely an example for describing the present invention, and the present invention is not limited to this. For example, the overlap area may be provided in a part of the area near the inner circumference of the optical disc so as to have a concentric band shape with respect to the center of the optical disc. Further, the overlap area does not have to be concentric with the center of the optical disc, but may be provided in any shape.
[0093]
In the first to seventh embodiments, examples in which pits are used as information patterns formed on a substrate have been described, but the present invention is not limited to this. For example, modulation by any shape that can be applied to a substrate, such as modulation by groove wobbling or groove width, modulation by pit width, length and depth, or a combination thereof, is used as an information pattern. Can be.
[0094]
【The invention's effect】
According to the optical recording medium reproducing method, the recording / reproducing apparatus, and the optical recording medium of the present invention, each information can be individually reproduced from a reproduction signal including pit information and information of a recording layer. Also, there is no need to arrange a read-only area for information and a recordable area in a separate area on a substrate as in a RAM type optical recording medium, and a recordable area for information is provided on a read-only area formed by pits. Even in the case of an optical recording medium, information in each area can be individually reproduced. Therefore, the recording capacity of the optical recording medium can be increased without miniaturizing the pits in the read-only area and the recording marks in the recordable area.
[0095]
According to the optical recording medium reproducing method, the recording / reproducing apparatus, and the optical recording medium of the present invention, information in the recording layer is erased in order to detect a signal of reflected light including only pit information. In an optical recording medium in which the recording layer is written only once, such as a type optical disk, once it is reproduced, it cannot be reproduced again. Therefore, the optical recording medium reproducing method and the recording / reproducing apparatus of the present invention are effective for preventing unlimited copying of an optical recording medium in which writing to the recording layer can be performed only once. It can also be used to confirm the opening of the information recorded in the information, so that the security of the information can be improved.
[Brief description of the drawings]
FIG. 1 is a schematic sectional view of an optical disk manufactured in Example 1.
FIG. 2 is a block diagram illustrating a recording / reproducing apparatus used in the first embodiment.
FIG. 3 is a schematic cross-sectional view showing an arrangement pattern of pits and recording marks of the optical disk manufactured in Example 1, and FIG. 3A shows a case where recording marks exist on the pits. FIG. 3B shows a case where a recording mark does not exist on a pit, FIG. 3C shows a case where a recording mark exists in a region where no pit exists, and FIG. Is not present.
FIG. 4 is a diagram showing a master exposure signal used for forming a pit pattern of the optical disk manufactured in Example 1.
FIG. 5 is a diagram showing a light irradiation signal of information recorded on a recording layer of the optical disc manufactured in Example 1.
FIG. 6 is a diagram illustrating a signal of reflected light for explaining a reproducing method according to the first embodiment. FIG. 6A is a signal of reflected light including pit information and information of a recording layer. 6 (b) is a signal of the reflected light after erasing the information of the recording layer, and FIG. 6 (c) is a signal after calculating the difference between the signal of FIG. 6 (a) and the signal of FIG. 6 (b). Signal.
7A and 7B are schematic views of the optical disk manufactured in Example 2, FIG. 7A is a perspective view of the optical disk, and FIG. 7B is a schematic cross-sectional view of a track in an overlap area 72b in a circumferential direction. is there.
8A and 8B are schematic views of an optical disk manufactured in Example 3, FIG. 8A is a perspective view of the optical disk, and FIG. 8B is a schematic cross-sectional view of a track in an overlap area 82b in a circumferential direction. .
9A and 9B are schematic views of the optical disk manufactured in Example 4, FIG. 9A is a perspective view of the optical disk, and FIG. 9B is a schematic cross-sectional view of a track in the overlap area 92b in the circumferential direction. is there.
10A and 10B are schematic views of the optical disc manufactured in Example 5, FIG. 10A is a perspective view of the optical disc, and FIG. 10B is a schematic cross-sectional view of a track in the overlap area 102b in the circumferential direction. is there.
11A and 11B are schematic views of the optical disk manufactured in Example 6, FIG. 11A is a perspective view of the optical disk, and FIG. is there.
12A and 12B are schematic views of the optical disk manufactured in Example 7, FIG. 12A is a perspective view of the optical disk, and FIG. is there.
[Explanation of symbols]
10 Optical disk
11,31 substrate
12, 32 recording layer
13,33 reflective layer
14,34 protective layer
20 Recording and playback device
35 pits
36 Recording mark
221 Optical head
225 Playback signal processing unit
226 Memory device
227 arithmetic unit

Claims (17)

Information is recorded / reproduced by an information pattern formed in at least a part of the region on the substrate and a change in reflectance deposited on the region on the substrate including at least a part of the region where the information pattern is formed. Comprising a recording layer, wherein the information is recorded on the recording layer, a method for reproducing an optical recording medium,
Irradiating the optical recording medium with light to detect a first reflected light signal from the optical recording medium;
Irradiating the optical recording medium with light to erase information on the recording layer,
Irradiating light on the optical recording medium from which information on the recording layer has been erased, and detecting a second reflected light signal from the optical recording medium;
Obtaining a difference between the second reflected light signal and the first reflected light signal to generate a signal corresponding to the information of the recording layer. The method according to claim 1, further comprising, after the step of detecting the first reflected light signal, storing the first reflected light signal. 3. The method according to claim 1, wherein the recording layer is formed of an organic dye material. 3. The method according to claim 1, wherein the recording layer is formed of a phase change material. The method according to any one of claims 1 to 4, wherein the information pattern is formed by pits. Information is recorded / reproduced by an information pattern formed in at least a part of the region on the substrate and a change in reflectance deposited on the region on the substrate including at least a part of the region where the information pattern is formed. Recording and reproducing apparatus for an optical recording medium, comprising:
An optical head for irradiating the optical recording medium with light and detecting reflected light;
A reproducing unit that individually reproduces information of an information pattern and information of a recording layer by processing a signal detected by the optical head unit,
A memory unit for storing a first reflected light signal including information of an information pattern detected by the optical head unit and information of a recording layer; a first reflected light signal stored in the memory unit; An optical recording medium, comprising: a processing unit that generates a signal corresponding to the information of the recording layer based on a second reflected light signal including only information of the information pattern detected by the optical head unit. Recording and playback device. The apparatus according to claim 6, wherein the processing unit has a function of calculating a difference between the first reflected light signal and the second reflected light signal. An optical recording medium reproducible by the method for reproducing an optical recording medium according to claim 1, wherein the recording layer is recordable only once. 3. An optical recording medium that can be reproduced by the method of reproducing an optical recording medium according to claim 1 or 2, wherein the recording layer is rewritable twice or more. 10. The optical recording medium according to claim 8, wherein the information pattern is formed by pits. An optical recording medium that can be recorded and reproduced by the optical recording medium recording and reproducing apparatus according to claim 6, wherein the recording layer can be recorded only once. An optical recording medium that can be recorded and reproduced by the recording / reproducing apparatus for an optical recording medium according to claim 6, wherein the recording layer is rewritable twice or more. 13. The optical recording medium according to claim 11, wherein the information pattern is formed by pits. An optical recording medium,
Board and
An information pattern formed in at least a part of the area on the substrate,
A recording layer on which information is recorded / reproduced by a change in reflectance, deposited on a region on the substrate including at least a part of a region where the information pattern is formed,
An optical recording medium, wherein information is recorded in the recording layer in advance. The optical recording medium according to claim 14, wherein the recording layer is not rewritable. The optical recording medium according to claim 14, wherein the recording layer is rewritable. The optical recording medium according to any one of claims 14 to 16, wherein the information pattern is formed by pits.

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