JP2008027488A - Optical information recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an optical information recording medium which records useful information when recording or reproducing. <P>SOLUTION: The optical information recording medium has a first substrate 2 on which a control information layer 6 is formed, a second substrate 3, and a hologram recording layer 5 for recording an interference pattern 5a surrounded by a shield material 4 between the first substrate and second substrate. The second substrate transmits a control light 11 for recording or reproducing the control information on the control information layer, and transmits a recording/reproducing light 12 for recording or reproducing the interference pattern on the hologram recording layer, while the shield material 4 transmits control light 11 at least and can record or reproduce the control information on the overlapped area 1b of the control information layer on the shield material. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an optical information recording medium having a hologram recording layer on which interference fringes formed by information light carrying information and reference light are recorded, and in particular, optical information having a control information layer superimposed on the hologram recording layer. The present invention relates to a recording medium.

  Holographic recording, in which information is recorded on a recording medium using holography, is generally performed by superimposing light having image information and reference light inside the recording medium, and forming the interference fringes formed at that time on the recording medium. Done by writing. At the time of reproducing the recorded information, the image information is reproduced by diffraction by interference fringes by irradiating the recording medium with reference light.

  In recent years, volume holography, particularly digital volume holography, has been developed and attracted attention for practical use for ultra-high density optical recording. Volume holography is a method of writing interference fringes in three dimensions by actively utilizing the thickness direction of the recording medium. Increasing the thickness increases the diffraction efficiency and increases the recording capacity using multiple recording. There is a feature that can be planned. Digital volume holography is a computer-oriented holographic recording method that uses a recording medium and a recording method similar to those of volume holography, but restricts image information to be recorded to a binarized digital pattern. In this digital volume holography, for example, image information such as an analog picture is once digitized, developed into two-dimensional digital pattern information, and recorded as image information. At the time of reproduction, the digital pattern information is read and decoded so that the original image information is restored and displayed. As a result, even if the S / N ratio (signal to noise ratio) is somewhat poor at the time of reproduction, the original information is reproduced very faithfully by performing differential detection or encoding binary data and performing error correction. It becomes possible.

  As an optical information recording medium 41 for performing such holographic recording and reproduction using volume holography, Patent Documents 1 and 2 have a reflective layer 46 and a transparent layer 47 having embossed pits 46a as shown in FIG. The disc-shaped first substrate 42 and the transparent disc-shaped second substrate 43 are inserted into the outer peripheral portion and the inner peripheral portion thereof by inserting spacers 44 so as to secure a predetermined gap. A structure in which a hologram recording layer 45 for recording the interference fringes 45a is enclosed has been proposed.

  Servo information and address information are recorded by the embossed pits 46a formed on the first substrate. The servo information includes a servo clock pit that is a reference for various operation timings, a servo pit for performing focus servo and tracking servo, and the like. The address information includes pre-amble, synchronization mark, address part, end address mark, post-synchronization mark, and post-amble. When recording or reproducing the interference fringes, the optical information recording / reproducing apparatus reproduces servo information and address information with the servo light 13, performs focusing and tracking, and information light in each hologram recording area, recording reference The irradiation positions of the recording / reproducing light 12 such as the light and the reproducing reference light are matched.

JP 2003-331464 A JP 2004-126041 A

  In holographic recording / reproduction, it is necessary to irradiate the reference light for reproduction under the same conditions as the irradiation conditions of the reference light for recording when recording interference fringes. Further, when a plurality of pieces of information are recorded on the optical information recording medium 41, it is necessary to specify the position of the interference fringes 45a where the predetermined information is recorded. Furthermore, when recording a series of information divided into a plurality of interference fringes, there is a method of recording by dispersing the interference fringes in the plane direction of the optical information recording medium instead of recording the interference fringes continuously. If the dispersion method of interference fringes at the time of recording is not known, a plurality of interference fringes cannot be reproduced as a series of information. The conditions such as the pitch and order of the interference fringes may be changed depending on the recording capacity and track pitch of the optical information recording medium 41.

  In the conventional optical information recording medium 41, only the servo information and the address information are recorded on the first substrate 42. Furthermore, the condition information (recording position and dispersion method of the interference fringe recording condition or reproducing condition is changed). Medium information such as the recording capacity and track pitch of the optical information recording medium is preferably recorded on the optical information recording medium 41.

  However, servo information and address information are already recorded on the first substrate 42 at a position overlapping the hologram recording layer 45 where the interference fringes 45a are formed. Therefore, in order to record the condition information and the medium information on the first substrate 42, the condition information and the medium information are recorded instead of the servo information and the address information in a part of the area. 41 recording capacity is reduced.

  In particular, the condition information described above increases as the information to be recorded increases, so the area necessary for recording the condition information increases. As a result, the recording capacity of the optical information recording medium 41 is limited. End up.

  In view of the above problems, an object of the present invention is to provide an optical information recording medium on which useful information is recorded during recording or reproduction.

  The optical information recording medium of the present invention includes a first substrate on which a control information layer is formed, a second substrate, and an interference surrounded by a shield material between the first substrate and the second substrate. A hologram recording layer for recording fringes, wherein the second substrate transmits control light for recording or reproducing control information of the control information layer and records interference fringes of the hologram recording layer. Alternatively, the recording / reproducing light to be reproduced is transmitted, the shield material transmits at least the control light, and the control information can be recorded or reproduced in an area superimposed on the shield material of the control information layer.

  Furthermore, in the optical information recording medium, it is preferable that the first substrate has a selective transmission / reflection layer that transmits the control light and reflects the recording / reproducing light.

  Furthermore, in the optical information recording medium, it is preferable that servo information and / or address information is further recorded in the control information layer.

  Furthermore, in the optical information recording medium, the control information may be condition information regarding recording conditions or reproduction conditions of interference fringes or / and medium information of the optical information recording medium.

  According to the optical information recording medium of the present invention, since the control information can be recorded or reproduced in the area superimposed on the shield material, the control information recorded in the hologram recording area can be reduced, and the hologram recording area can be effectively used. can do. Details of the other effects will be clarified in the description of the embodiment described below.

  Embodiments of the present invention will be described below. FIG. 1 shows an embodiment of the optical information recording medium 1 of the present invention. FIG. 1A is a schematic plan view, FIG. 1B is a schematic sectional view in the radial direction, and FIG. A cross-sectional view is shown.

  An optical information recording medium 1 in FIG. 1 includes a first substrate 2, a second substrate 3, and a hologram recording layer 5 surrounded by a shield material 4 between the first substrate 2 and the second substrate 3. The first substrate 2 has a control information layer 6, a selective transmission / reflection layer 7, and a gap layer 8. As shown in FIG. 1A, the optical information recording medium 1 in FIG. 1 has a disk shape, and a hologram recording region 1a in which a hologram recording layer 5 is disposed and a shield region 1b in which a shield material 4 is disposed. And have. Further, in FIG. 1, an opening 1c is formed at the center of the optical information recording medium 1, and the spindle of the optical recording / reproducing apparatus is inserted into the opening 1c so that the optical information recording medium 1 can be held rotatably. It is configured.

  The optical information recording medium 1 may have a track. The tracks in the disc-shaped optical information recording medium may be a plurality of concentric tracks or a single spiral track. As shown in FIG. 1C, the track may be composed of lands 6b and grooves 6c of the first substrate 2, but may be composed of other methods. For example, in a flat layer, the track may be formed by changing the reflectance in a strip shape.

  As the first substrate 2, a plastic substrate such as polycarbonate, a glass substrate, a metal substrate or the like can be used, and a control information layer 6 is formed on the first substrate 2. When a plastic substrate is used as the first substrate 2, a concavo-convex shape can be formed on the surface by pressing or the like, so that pits 6 a, lands 6 b and grooves 6 c described later can be easily formed. In addition, the glass substrate has high strength and smoothness, and can reduce the influence of inclination due to bending of the substrate. When a metal substrate is used, the reflective layer for the control light 11 can also be used.

  In the control information layer 6, control information reproduced by the control light 11 is recorded. The control information refers to all the information recorded on the hologram recording layer 5 by interference fringes, except for information recorded on the optical information recording medium, servo information, and address information. For example, the recording conditions of the interference fringes Alternatively, it is condition information (including a recording position and a dispersion method) regarding reproduction conditions, medium information such as a recording capacity and a track pitch of an optical information recording medium, and the like. At least a part of the control information is recorded in the control information layer 6 in the shield area 1b.

  The servo information is a servo clock pit that is a reference for various operation timings, and a servo pit for performing focus servo and tracking servo, and address information is a pre-amble, a synchronization mark, an address part, End address mark, post-synchronization mark, post-amble, and the like. Servo information and address information may be recorded in the control information layer 6.

  The control information layer 6 may be a read-only one in which information is recorded in advance, or may be capable of recording and reproducing information. As the reproduction-only control information layer 6, concavo-convex shapes such as pits 6a, lands 6b, and grooves 6c can be used. If a concavo-convex shape is formed in advance on the first substrate 2, control information can be recorded by a change in light reflectance or transmittance due to the concavo-convex shape. As the recordable / reproducible control information layer 6, an organic dye layer, a phase change layer, or the like can be used. When the control information layer 6 is an organic dye layer, information can be recorded only once, and pits can be formed by decomposing the dye with laser light. Information can be reproduced from the formed pits by changing the reflectance or transmittance of the pits as in the reproduction-only layer. When the control information layer is a phase change layer, information can be rewritten and the pits are formed by changing the crystal structure of the phase change layer by heating with laser light to form a crystalline portion and an amorphous portion. be able to. Since the reflectance or transmittance of the crystalline portion and the non-crystalline portion are different, information can be recorded and reproduced by pits.

  In FIG. 1, pits 6a, lands (protrusions) 6b and grooves (recesses) 6c are formed on the surface of the first substrate 2, and a reflective film (not shown in FIG. 1B) is formed thereon. Thus, the control information layer 6 is a reflection type reproduction-only. The lands (protrusions) 6b and grooves (concaves) 6c of the first substrate 2 can also function as tracks, servo information, or address information, and can be used as a land / groove recording method, a wobble / groove recording method, or a wobble / land groove. The recording method can be used.

  The land / groove recording method has a user data area in which lands 6b and 6c are formed and an address area in which no lands and grooves are formed, and address information is recorded as pits in the address area, on the land or on the groove. Control information pits are recorded as pits. The land / groove recording method is suitable for high-density recording because the land and the groove are repeated at the same pitch, positioning is easy and the track pitch can be narrowed.

  In the wobble groove recording method, wobbles called wobbles are added to lands and grooves, and servo information or address information is held in the lands and grooves themselves, and an address area is unnecessary.

  The wobble / land / groove recording method has a user data area and an address area as in the land / groove recording method, and wobbles are formed in lands and grooves of the user data area.

  As the control light 11 for recording or reproducing information on the control information layer 6, it is preferable to also use servo light for reproducing servo information and address information.

  The second substrate 3 transmits control light 11 for recording or reproducing control information of the control information layer 6 and recording / reproducing light 12 for recording or reproducing interference fringes of the hologram recording layer 5. Further, when using servo light separately, the second substrate 3 also transmits the servo light. As the second substrate 3, a plastic substrate such as polycarbonate or a glass substrate can be used. In this specification, the phrase “transmitting light” does not require 100% transmittance, but may be a transmittance that allows information to be recorded or reproduced by light passing through the member.

  The shield material 4 is disposed between the first substrate 2 and the second substrate 3, and the hologram recording layer 5 is formed in a space formed by the shield material 4, the first substrate 2, and the second substrate 3. The control light 11 is transmitted at least. Furthermore, if an adhesive, a double-sided adhesive seal, or the like is used as the shield material 4, the first substrate 2 and the second substrate 3 can be bonded together by the shield material 4. The shield material 4 may also serve as a spacer that keeps the distance between the first substrate 2 and the second substrate 3 constant, or a separate spacer may be disposed. The shield material 4 may or may not transmit the recording / reproducing light 12 and the servo light. In FIG. 1, shield materials 4 are arranged on the inner edge and the outer edge of the disk so that the hologram recording area 1a becomes wider.

  As the shielding material 4, an adhesive such as an ultraviolet curable resin or a thermosetting resin may be used, or a double-sided adhesive seal in which an adhesive is applied to both surfaces of a translucent film may be used. A configuration may be adopted in which a plastic sheet such as a ring-shaped polycarbonate or a glass thin piece is used and separately adhered to the first substrate 2 or the second substrate 3 with an adhesive. Since the hologram recording layer 5 is deteriorated by oxygen in the air or the like, it is preferable that the shield material 4 is given a certain width to prevent air from entering from the outside.

  The hologram recording layer 5 is formed inside the shield material 4 and records interference fringes (holograms) 5a of information light and recording reference light. Particularly preferably, the light (recording / reproducing light) 12 for recording or reproducing interference fringes is exposed to light, and the control light 11 for recording or reproducing control information and the servo light for reading address information and clock signals. A material which is not photosensitive is preferable. As the hologram recording layer 5, for example, a photopolymer material can be used. If a photopolymer material sensitive to green or blue light is used as the material of the hologram recording layer 5, green or blue light is used for the recording / reproducing light 12, and the control light 11 and servo light are used. Light having a wavelength other than that, for example, red light may be used. In the present invention, the hologram recording layer 5 is not limited to a photopolymer material.

  As a method for forming the hologram recording layer 5, an injection port is provided in a part of the shield material 4 in a state where the first substrate 2 and the second substrate 3 are bonded together with the shield material 4 interposed therebetween. The space inside the shield material 4 may be evacuated, the hologram recording layer 5 may be injected, and the injection port may be sealed after the injection, or the shield material 4 may be disposed on the first substrate 2 or the second substrate 3. In addition, the hologram recording layer 5 may be dropped between them and the other substrate may be bonded.

  The selective transmission / reflection layer 7 formed on the first substrate 2 reflects the recording / reproducing light 12 and transmits the control light 11 and the servo light. As the selective reflection layer 7, a dichroic mirror layer or a cholesteric liquid crystal layer in which a high refractive index substance and a low refractive index substance are alternately laminated can be used. The reflective surface for the recording / reproducing light 12 in the selective reflection layer 7 is preferably flat so that information can be recorded and reproduced stably.

  The gap layer 8 is formed by applying a resin material, for example, a material such as a UV resin, by spin coating or attaching a resin sheet such as a polycarbonate sheet. The gap layer 8 protects the hologram recording layer 5 and the selective reflection layer 7, and the size of the interference fringes 5 a generated in the hologram recording layer 5 and the focal point of the recording / reproducing light 12 and the control light 11 or servo light. It is also effective for adjusting the distance between distances. Further, since the gap layer 8 can prevent the portion near the focal point of the information light and the recording reference light where the interference fringes are concentrated from being located in the hologram recording layer 5, the hologram recording is performed by the portion near the focal point where the interference fringes are concentrated. The phenomenon that the photosensitive material of the layer 5 is consumed in a large amount and the multiplicity (the amount by which multiple holograms can be recorded at the same location) is reduced can be alleviated. The thickness of the gap layer 8 is preferably in the range of 10 to 100 μm.

  The optical information recording medium of the present invention includes a part of an existing DVD-RAM, DVD-R, DVD-RW, DVD + R, DVD + RW, CD-R, CD-RW, CD + RW, etc. (hereinafter referred to as “DVD-RAM etc.”). A part or all of them can be used. In a DVD-RAM or the like, a land 16b and a groove 6c having wobble information meandering at a constant cycle are formed on a substrate surface, and the wobble information of the groove 6c is reproduced as a clock signal. The wobble information has periodic irregularities when the cross section along the track is viewed. And each structure of the 1st board | substrate 3 of FIG. 1 is producible by providing a selective reflection layer and a gap layer on DVD-RAM etc. FIG.

  In the recording method and the reproducing method using the optical information recording medium of the present invention, first, the control information recorded in the control information layer 6 of the optical information recording medium 1 is reproduced by the control light 11, and the condition information and the medium information are reproduced. Acquire and determine recording conditions or playback conditions. Here, since at least a part of the control information is recorded in the shield area 1b and the shield material 4 transmits the control light 11, the control information in the shield area 1b can also be reproduced. For this reason, the control information recorded in the hologram recording area 1a can be reduced, and the hologram recording area 1a can be used effectively.

  Compared to the hologram recording region 1a, the shield region 1b includes not the hologram recording layer 5 but the shield material 4 or an adhesive. Although it is preferable to make the refractive index of the control light 11 in the shield region 1b coincide with that in the hologram recording region 1a, it is not always necessary to make it coincide. Even if the control light 11 is not focused on the control information layer 6 in the shield area 1b, it is sufficient if the pit 6a can be reproduced, and the focus servo is used only when reproducing the control information in the shield area 1b. You can also focus. Further, the size of the pits indicating the control information in the shield area 1b may be increased, or the reproducible range may be widened, or the position of the control information layer in the shield area 1b in the thickness direction is focused. May be. The control information may be reproduced only once at the beginning, may be reproduced periodically, or may be performed every recording / reproduction.

  Next, servo information and address information are reproduced by servo light (same as control light in FIG. 1), the irradiation position of the recording / reproducing light 12 is matched, and the recording / reproducing light 12 is set at a predetermined recording / reproducing position. To record or reproduce the interference fringes 5a.

  FIG. 2 is a schematic sectional view in the radial direction of another embodiment of the optical information recording medium 21 of the present invention. 2, the same components as those in FIG. 1 are denoted by the same reference numerals as those in FIG.

  The optical information recording medium 21 of FIG. 2 is provided with first and second control information layers 26a and 26b on a first substrate 22, and the first control information layer 26a has a hologram recording area 1a. Control information, servo information, and address information are recorded, and control information is recorded in the second control information layer 26b in the shield region 1b.

  A material having a higher refractive index than that of the hologram recording layer 5 is used as the shield material 4 in FIG. 2, and the second control information is set so that the control light 11 in the shield region 1b is focused on the second control information layer 26b. If the layer 26 b is disposed, the same light as the servo light can be used as the control light 11. The second control information layer 26b can be formed by attaching an optical film having control information recorded on the shield region 1b.

  FIG. 3 shows another embodiment of the optical information recording medium 31 of the present invention. FIG. 3A is a schematic plan view, and FIG. 3B is a schematic cross-sectional view. The optical information recording medium 31 in FIG. 3 is basically the same as the optical information recording medium 1 in FIG. 1 except that the shape is not a disk shape but a rectangular card type, and the same configuration as FIG. Are given the same reference numerals as in FIG.

  In addition, this invention is not limited to embodiment mentioned above, A various change is possible as needed. For example, in FIG. 1, the control information layer 6 has an uneven shape, but may be flat.

(A) is a schematic plan view of an embodiment of the optical information recording medium of the present invention, (B) is a schematic cross-sectional view in the radial direction, and (C) is a schematic cross-sectional view in which the vicinity of the outer periphery is enlarged. Schematic sectional view in the radial direction of another embodiment of the optical information recording medium of the present invention (A) is a schematic plan view of one embodiment of the optical information recording medium of the present invention, and (B) is a schematic cross-sectional view in the radial direction. Schematic sectional view of a conventional optical information recording medium

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Optical information recording medium 1a Hologram recording area | region 1b Shield area | region 2 1st board | substrate 3 2nd board | substrate 4 Shielding material 5 Hologram recording layer 5a Interference fringe 6 Control information layer 7 Selective transmission / reflection layer 11 Control light 12 Recording / reproducing light

Claims (4)

Hologram recording layer for recording an interference fringe surrounded by a shield material between the first substrate, the second substrate, and the first substrate and the second substrate on which the control information layer is formed And
The second substrate transmits control light for recording or reproducing control information of the control information layer, and transmits recording / reproducing light for recording or reproducing interference fringes of the hologram recording layer;
The optical information recording medium, wherein the shield material transmits at least the control light and can record or reproduce control information in an area of the control information layer superimposed on the shield material.   The optical information recording medium according to claim 1, wherein the first substrate has a selective transmission / reflection layer that transmits the control light and reflects the recording / reproducing light.   The optical information recording medium according to claim 1, wherein servo information and / or address information is further recorded in the control information layer.   4. The optical information recording medium according to claim 1, wherein the control information is condition information relating to recording conditions or reproduction conditions of interference fringes or / and medium information of an optical information recording medium. 5. .

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