JPH0660461A - Cylindrical magneto-optical recording medium - Google Patents

Abstract

PURPOSE:To produce a recording medium easily at low cost and to enable high- density and large-capacity recording by forming a tracking guide by magneto-optical recording method in a recording film layer. CONSTITUTION:The magneto-optical recording medium 18 consists of a glass cylindrical substrate 10, a recording film layer 11 formed on the outer wall of the cylinder body, and a protective film 12 comprising thermosetting resin which covers the surface of the cylinder body of the medium 18. The recording film layer consists of such a structure, from the substrate 10, a reflecting film, dielectric film, magnetic film having perpendicular magnetic anisotropy. Centering hubs 14 are attached to the both ends of the medium 18 so that the medium 18 can rotate around the substrate 10 with a spindle motor 13. Further, the recording film layer 11 has tracking guides 17 formed by magneto-optical recording method to realize high-density recording. The guide 17 can be easily formed by magneto-optical recording method so that the cylindrical magneto-optical recording medium for high-density recording can be produced at low cost, in which large capacity of information can be recorded.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to document files, images,
The present invention relates to a cylindrical magneto-optical recording medium for recording information such as code data.

[0002]

2. Description of the Related Art In a magneto-optical recording / reproducing apparatus capable of realizing high-density recording, as a recording medium capable of recording / reproducing information at random and retrieving information at high speed, as shown in FIG. Disk-shaped magneto-optical disk 2
9 is used.

The magneto-optical disk 29 is a disk-shaped substrate 2
1a and 21b, and recording film layers 23a and 23b formed on the disk-shaped substrates 21a and 21b, respectively.
The disk-shaped substrates 21a and 21b are manufactured by, for example, an injection molding method using a stamper, and have guide grooves 22a and 22b for tracking. In addition, the recording film layer 2 formed on each of the disk-shaped substrates 21a and 21b
3a and 23b are composed of a reflective film, a dielectric film, a magnetic film and the like. Then, these disk-shaped substrates 21a, 21
By bonding b with an adhesive 24, a magneto-optical disk 29 capable of recording on both sides can be obtained.

Further, the magneto-optical disk 29 has centering hubs 26, 26 as rotary bearings attached to both sides at the center thereof, and is driven to rotate by a spindle motor 25.

To write information on the magneto-optical disk 29, the magneto-optical disk 29 is irradiated with high-intensity laser light from the optical pickup 27 provided in the magneto-optical recording / reproducing apparatus, and the recording film layers 23a and 23b are exposed. The temperature is raised and a magnetic field is applied from a magnet 28 provided opposite to the optical pickup 27 with the magneto-optical disk 29 interposed therebetween, and the direction of magnetization of the magnetic films in the recording film layers 23a and 23b is reversed. Done by.

On the other hand, reproduction of information is performed by irradiating the magneto-optical disk 29 with a low intensity laser beam from the optical pickup 27 and detecting the rotation of the polarization plane of the reflected light.

However, in the above configuration, the wobbling and eccentricity of the magneto-optical disk 29 are likely to occur, and the magneto-optical disk 29 is also restricted in increasing the diameter and increasing the rotation speed. There is a problem that it is difficult to record the capacity information.

Therefore, in order to solve this problem, the applicant of the present application has previously proposed a magneto-optical recording / reproducing apparatus using a cylindrical magneto-optical recording medium in which surface wobbling and eccentricity are unlikely to occur (Japanese Patent Application No. Hei. (See No. 141465).

As shown in FIG. 4, a cylindrical magneto-optical recording medium 38 has a cylindrical substrate 30 having guide grooves 37 formed therein.
A recording film layer 31 formed on the outer peripheral surface of the substrate 30,
Further, it has a protective film 32 formed thereon.
Further, the magneto-optical recording medium 38 has centering hubs 34, 34 attached to both side surfaces thereof, and is rotated by a spindle motor 33 provided in the magneto-optical recording / reproducing apparatus.

Information is written on the cylindrical magneto-optical recording medium 38 by using an optical pickup 36 and an electromagnet 35 arranged outside the magneto-optical recording medium 38. It is supposed to be done in the same way as.

When such a cylindrical magneto-optical recording medium 38 is used, random access is possible like the magneto-optical disk, and there is no fear of surface wobbling or eccentricity. Recording of capacity information can be realized,
Since it has a cylindrical shape, the magneto-optical recording / reproducing apparatus can be downsized as compared with the case where a disk-shaped magneto-optical disk is used.

[0012]

However, in the cylindrical magneto-optical recording medium 38 as described above, the guide groove 37 for tracking is formed by the injection molding method or the like used for producing the disk-shaped substrate of the magneto-optical disk. Since it is technically difficult to form the cylindrical substrate 30 having the above, a complicated technique is required for manufacturing the cylindrical substrate 30.
As a result, there is a problem that the cost of the cylindrical magneto-optical recording medium increases.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a magneto-optical recording medium which can be easily manufactured at low cost and which can record high density and large capacity information. To provide.

[0014]

In order to solve the above-mentioned problems, a cylindrical magneto-optical recording medium according to the present invention is provided with a cylindrical substrate and an inner wall body portion or outer wall body portion of the cylindrical substrate. In a cylindrical magneto-optical recording medium having a recording film layer formed in the portion, a tracking guide is formed on the recording film layer by magneto-optical recording.

[0015]

With the above arrangement, the tracking guide is formed on the recording film layer by magneto-optical recording.
It is not necessary to form a guide groove for tracking on a cylindrical substrate by a complicated technique as in the past. In addition, the above-mentioned tracking guide, for example, by a dedicated device,
Since it can be easily manufactured, the cost of the cylindrical magneto-optical recording medium can be reduced.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The following will describe one embodiment of the present invention with reference to FIGS. 1 and 2.

The cylindrical magneto-optical recording medium of the present embodiment (hereinafter,
The magneto-optical recording medium) 18 is, as shown in FIG.
For example, a cylindrical substrate 1 made of glass, plastic, or the like
0, a recording film layer 11 formed on the outer wall side body portion thereof, and a protective film 12 covering the body portion surface of the magneto-optical recording medium 18 and made of, for example, a thermosetting resin. Although the recording area is slightly narrowed, the present invention can be applied to the case where the recording film layer 11 is formed on the inner wall side body of the substrate 10.

The recording film layer 11 has a structure in which a reflective film, a dielectric film, and a magnetic film having perpendicular magnetic anisotropy are laminated in this order from the substrate 10 side. The material of the reflective film is Al, Ni,
A metal having a high reflectance such as Cr is used. Al ₂ O ₃ , AlN, SiO ₂ or the like is used as the material of the dielectric film. As a material of the magnetic film, an alloy of a rare earth metal such as Gd and Tb and a transition metal such as Fe and Co is used. A tracking guide 17 is formed on the recording film layer 11 by magneto-optical recording.

Centering hubs 14 and 14 are attached to both side surfaces of the magneto-optical recording medium 18, and the magneto-optical recording medium 18 is mounted on the cylindrical axis of the substrate 10 by a spindle motor 13 provided in the magneto-optical recording device. It can be rotated around the center. Next, a method of forming the tracking guide 17 on the recording film layer 11 will be described.

Conventionally, the pitch of the guide groove for tracking formed on the substrate is as narrow as 1 to 2 μm. In this embodiment, the tracking guides 17 formed on the recording film layer 11 have the same pitch (1 to 1) as the conventional guide grooves in order to realize high density recording.
2 μm) is required, but a magneto-optical recording / reproducing apparatus used for recording / reproducing information cannot perform magneto-optical recording at such a pitch.

Therefore, the tracking guide 17 is formed by forming a recording film layer 11 made of a magnetic film, a dielectric film and a reflective film on the outer wall side body of the substrate 10, and further forming the protective film 1.
2 is formed, the centering hubs 14, 14 and the like are attached, and the magneto-optical recording medium 18 is completed, after which a dedicated device capable of highly accurate pitch feeding is used. The dedicated device may be, for example, a device having a mechanism for irradiating a laser beam according to a predetermined pattern similarly to a cutting machine used for manufacturing a stamper, and a device having a magnetic field applying function. In this way, the recording film layer 11
Further, the tracking guides 17 are formed in a spiral or concentric pattern with a pitch of 1 to 2 μm, and the recording areas 19 are arranged along the tracking guides 17.

Next, a magneto-optical recording / reproducing apparatus for recording / reproducing information on / from the magneto-optical recording medium 18 will be described. The magneto-optical recording / reproducing apparatus includes a magneto-optical recording medium 1
It is provided with a spindle motor 13 for rotatably driving 8 and an electromagnet 15 and an optical pickup 16 arranged outside the body of the magneto-optical recording medium 18.

The electromagnet 15 has a rod-shaped magnetic core 15 a extending parallel to the cylindrical axis of the magneto-optical recording medium 18, and the magnetic core 1.
It is composed of a coil 15b wound around the end of 5a so that a vertical magnetic field can be applied to the recording film layer 11 in the recording / reproducing light beam, which will be described later, emitted by the optical pickup 16.

The optical pickup 16 is provided with an objective lens 16a for condensing laser light on the magneto-optical recording medium 18, and along a guide shaft 16b arranged parallel to the cylindrical axis of the magneto-optical recording medium 18. , Can be moved.
For example, a linear motor or the like is used as the driving device for moving. Further, this optical pickup 16 is shown in FIG.
As shown in, the tracking guide 17 formed by magneto-optical recording is irradiated with the tracking light beam 20, and the recording area 19 arranged along the tracking guide is irradiated with the recording / reproducing light beam 21. And has a function of detecting each reflected light.

In the above structure, the magneto-optical recording medium 18 is rotationally driven by the spindle motor 13 shown in FIG. 1, and the recording area 19 is irradiated with the laser light from the optical pickup 16 as a recording / reproducing light beam. It

During recording of information, a direct current is supplied to the coil 15b of the electromagnet 15 while irradiating the recording film layer 11 with high-intensity laser light from the optical pickup 16, and the recording film layer 11 is recorded.
Apply a vertical magnetic field to. The region of the recording film layer 11 irradiated with the high-intensity laser light is heated to the Curie point or higher, and the magnetization of the region is oriented in the direction of the vertical magnetic field applied by the electromagnet 15. This allows information to be recorded as the direction of magnetization.

Further, at the time of reproducing information, the recording film layer 11 is irradiated with low-intensity laser light from the optical pickup 16 and the rotation direction of the polarization plane of the reflected light is detected. The rotation direction of the plane of polarization depends on the direction of magnetization, as is known as the magnetic Kerr effect. Therefore, by utilizing this, the information stored in the magneto-optical recording medium 18 can be reproduced.

On the other hand, at the time of erasing information, while irradiating the recording film layer 11 with the high intensity laser beam from the optical pickup 16,
A DC current in the opposite direction to that at the time of recording is supplied to the coil 15b of the electromagnet 15. As a result, the magnetization of the region of the recording film layer 11 irradiated with the laser beam is aligned in the direction of the perpendicular magnetic field opposite to that at the time of recording, and the information stored in the magneto-optical recording medium 18 can be erased.

As described above, in the cylindrical magneto-optical recording medium 18 of this embodiment, the tracking guide 17 is formed on the recording film layer 11 by the magneto-optical recording. As described above, it is not necessary to form a guide groove for tracking on the substrate, and the cylindrical magneto-optical recording medium 18 capable of recording high-density and large-capacity information can be easily manufactured at low cost.

Further, like the conventional magneto-optical disk,
Random access used for retrieval of stored information is possible, and moreover, the linear velocity of the cylindrical magneto-optical recording medium 18 can be made constant only by making the rotation speed of the spindle motor 13 constant, so that a complicated speed is achieved. There is no need to use a variable rotation mechanism or a variable circuit for the writing frequency. Further, since surface wobbling and eccentricity, which have been problems in the magneto-optical disk described above, are less likely to occur, when the cylindrical magneto-optical recording medium 18 described above is used, high density recording is possible, and it is small and compact. It is possible to configure a simple magneto-optical recording / reproducing device.

[0031]

The cylindrical magneto-optical recording medium according to the present invention comprises:
As described above, the tracking guide is formed on the recording film layer by magneto-optical recording.

Therefore, since the tracking guide formed on the recording film layer is easily formed by magneto-optical recording, a cylindrical magneto-optical recording medium capable of high density recording can be easily manufactured at low cost. Has the effect.

[Brief description of drawings]

FIG. 1 is a partially cutaway perspective view showing a schematic configuration of a cylindrical magneto-optical recording medium of the present invention.

FIG. 2 is an explanatory diagram showing an optical pickup that irradiates a tracking guide and a recording area formed on the magneto-optical recording medium of FIG. 1 with a light beam.

FIG. 3 is a partially cutaway perspective view showing a schematic configuration of a conventional magneto-optical disk.

FIG. 4 is a partially cutaway perspective view showing a schematic configuration of a conventional cylindrical magneto-optical recording medium.

[Explanation of symbols]

 10 Substrate 11 Recording Film Layer 17 Tracking Guide 18 Cylindrical Magneto-Optical Recording Medium

Claims (1)

[Claims] 1. A cylindrical magneto-optical recording medium having a cylindrical substrate and a recording film layer formed on an inner wall side body portion or an outer wall side body portion of the cylindrical substrate. A cylindrical magneto-optical recording medium, wherein the tracking guide is formed by magneto-optical recording.