JPH0477971B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of the Invention) The present invention relates to an optical disk, and more particularly to an optical memory disk using an optical memory medium whose optical characteristics change due to the thermal energy of laser light.

(Prior Art) Recording media, ie, optical memory media, are known in which information is written by changing optical properties such as refractive index or reflectance using thermal energy of laser light, and information is read out by optical effects.

Such optical memory media have so far been developed using Te, Te
It is formed by laminating thin films made of substances such as compounds, thermoplastic resins, reducing oxides, and chalcogenides on non-flexible rigid substrates such as glass, polymethyl methacrylate (PMMA), and polycarbonate (PC). It's here. The optical memory disk formed in this manner is considered to be excellent as a high-density recording medium capable of high-speed access.

However, when manufacturing such optical memory disks, a substrate such as glass that has been formed into the final shape is cleaned and processed into a single disk using batch evaporation, reactive high frequency ion plating, or spin coating. Thin films must be formed one by one, making mass production impossible. In particular, when a multilayer structure is created by providing a base treatment layer or a protective layer on a thin film, or when grooves are formed in a thin film to facilitate tracking control and addressing, productivity is low and manufacturing costs are extremely high. It will be expensive.

(Object of the Invention) In view of the above problems of the prior art, it is an object of the present invention to provide an optical memory disk with good productivity and low manufacturing cost.

(Structure and Main Effects of the Invention) The optical memory disk according to the present invention has an optical memory medium formed by laminating a recording thin film whose optical characteristics change with the thermal energy of laser light on at least one side of a flexible substrate. Two hard support disks (of these, at least the one that is in close contact with the recording thin film has light transmittance) are attached to both the front and back surfaces of an optical memory medium.

In the present invention, the term "flexible substrate" refers to all flexible materials such as plastics such as polyethylene terephthalate and polyimide. It is preferable to use the above materials because they provide excellent surface properties.

In the present invention, the recording thin film is made of Te, Te compound,
It can be formed from materials conventionally used as optical memory media, such as thermoplastic resins, reducible oxides, and chalcogenides. The optical memory medium must have optical characteristics that change sensitively depending on the thermal energy of the laser beam. Therefore, it is necessary to form a recording thin film uniformly and with good surface properties.
For this purpose, it is appropriate to form a memory thin film on a flexible substrate held under sufficient tension at a temperature below room temperature by vacuum evaporation, sputtering, reactive high frequency ion plating, etc. ing.

The optical disk of the present invention can be obtained by sandwiching the thus obtained optical memory medium between hard support disks from both sides. In the present invention, the term "rigid supporting disk" refers to a material that is hard enough to support an optical memory medium and is formed to correspond to the disk-like shape of the final product, such as glass or flexible material. No plastics (for example,
This includes PMMA, etc.).

In addition, in the present invention, "grooved disk" refers to
It refers to a hard support disk in which grooves corresponding to recording and reproducing tracks to be formed in an optical memory medium are formed on the surface that comes into close contact with the medium.

Among these hard supporting disks, the disk that is brought into close contact with the recording thin film of the optical memory medium needs to have optical transparency. In the present invention, "light transparency"
refers to the property of transmitting laser light with sufficient thermal energy to change the optical properties of the recording thin film during recording, and transmitting reading light sufficient to reveal differences in the optical properties of the recording thin film during reproduction. means. The laser light and reading light used here are similar to those used in conventional optical memory disks.

When a grooved support disk is used to form grooves in the optical memory medium, the thickness of the flexible substrate is 20 μm or less in order to increase the flexibility of the optical memory medium.
It is preferable to sandwich the disk from both the front and back sides using a vacuum pressure bonding method, but in other cases, as long as the optical memory medium is supported to an extent that does not interfere with the use of the disk, any method may be used to tightly attach the supporting disk. .

A double-sided disk capable of recording and reproducing on both sides can also be manufactured by forming a recording thin film on both sides of a flexible substrate and sandwiching it between two optically transparent hard supporting disks.

(Effects of the Invention) The optical memory disk of the present invention uses a combination of an optical memory medium with a flexible substrate and a hard supporting disk, so there is no need to form a thin film on each hard disk one by one as in the conventional case. It is possible to mass produce.

Furthermore, since the optical memory medium used in the present invention has a flexible substrate, it can be easily molded into the required shape of the disk.
Therefore, the optical memory disk of the present invention can be made into various shapes without impairing productivity. In particular, grooved disks can be manufactured very easily by vacuum-pressing an optical memory medium using a thin substrate onto a grooved support disk.

(Embodiments) Hereinafter, embodiments of the present invention will be described with reference to drawings and examples.

FIG. 1 is a side sectional view showing an optical memory disk according to one embodiment of the present invention.

The optical memory disk 1 shown in this drawing is made up of an optical memory medium 2 formed by laminating a recording thin film 2B on a flexible substrate 2A, and hard support disks 3A and 3B in close contact with the hard support disks 3A and 3B. The disk 3A has optical transparency.

When recording information on such an optical memory disk, a laser beam 4 is irradiated, and the optical characteristics of the recording thin film 2B are changed according to the information by the thermal energy. The information recorded in this manner is reproduced by irradiating the recording thin film 2B with the reading light beam 5 and reading the change in optical properties (for example, reflectance) obtained at that time.

FIG. 2 is a side sectional view showing another embodiment of the invention.

A grooved optical memory disk 11 shown in this drawing includes an optical memory medium 12 and a grooved hard support disk 13 formed by laminating a recording thin film 12B on a flexible substrate 12A.
It is made by vacuum-pressing A (light transmitting) and 13B. This disk can record and reproduce information in the same way as the disk shown in FIG. 1 by irradiating it with a laser beam 14 and a reading light beam 15.

FIG. 3 is a side sectional view showing another embodiment of the invention.

The optical memory disk 21 shown in this drawing is made up of an optical memory medium 22 formed by laminating recording thin films 22B and 22C on the front and back surfaces of a flexible substrate 22A, and optically transparent hard support disks 23A and 23B in close contact with each other. Since this disk uses an optical memory medium with recording thin films on both the front and back surfaces, information can be recorded and reproduced on both the front and back surfaces by irradiation with laser beams 24A, 24B and reading light beams 25A, 25B. Furthermore, if the supporting disks 23A and 23B are grooved disks, a double-sided grooved disk can be obtained.

Examples of the present invention will be described below.

Example 1 In a vacuum evaporation apparatus, a polyethylene terephthalate film with a width of 100 mm and a thickness of 80 μm was used as a substrate, and a mixture of TeO ₂ and tungsten powder (ring agent) as an evaporation source was placed in a quartz crucible, and this was heated using a tungsten coil heater. It was electrically heated to about 800℃. The degree of vacuum inside the apparatus was maintained at approximately 1×10 ₋₅ Torr. Place the substrate film along the cooling can for 40 minutes.
Thin thickness with good surface properties when conveyed at a speed of cm/min
A continuous thin film of 1000 Å was formed on the substrate. The composition of this thin film is TeO ₁

Claims (1)

[Scope of Claims] 1. An optical memory medium comprising a flexible substrate and a recording thin film laminated on at least one side of the substrate, the optical characteristics of which are changed by the thermal energy of laser light, and this optical memory. It consists of two hard support disks that are in close contact with the entire front and back surfaces of the medium, and at least of the two hard support disks, at least the hard support disk that is in close contact with the recording thin film is transparent. optical memory disk. 2. The optical memory disk according to claim 1, wherein the glass transition temperature of the substrate is 70° C. or higher. 3. The method according to claim 1 or 2, wherein the substrate has a thickness of 20 μm or less, and the hard support disk is a grooved disk and is vacuum-pressed to the optical memory medium. Optical memory disk.