KR950003183B1 - Optical recording medium - Google Patents

Abstract

A recording layer that has Bi-Te as main component and one component selected among Sb, In, Pb, Si is formed in the thickness of 100-800 Augs. on a base plate. An intermediate layer that has one or two component selected among GeOx, TeOx, InOx, BiOx, MoOx (o<x<2), In2O3, In2O3, PbO is formed in the thickness of 100-1000 Augs.. A protecting layer is formed on the intermediate layer.

Description

Magneto-optical recording media

1 is a structural diagram of a conventional magneto-optical recording medium.

2 is a structural diagram of a magneto-optical recording medium of the present invention.

* Explanation of symbols for main parts of the drawings

4 substrate 5 recording layer

6: intermediate layer 7: protective layer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magneto-optical recording medium, and more particularly, to a structure in which a CD format signal of high density recording is recorded and reproduced by a commercial CD player.

The conventional DRAW (Direct Read After Write) type information recording medium is made of metal or semi-metal such as Sn, In, Te, Sc, Ge, etc. on a disc-shaped transparent substrate 1 made of plastic, glass or the like as the first degree. The recording layer 2 is formed, and the protective layer 3 is formed on this recording layer.

Recording on a recording medium having such a structure is performed by irradiating a laser beam to the recording layer 2. When the laser beam is irradiated, the irradiation portion of the laser beam absorbs a part of the light locally on the recording layer. The temperature rises.

As a result, information is recorded by causing a chemical change such as a physical change or a phase change such as a pit or a bubble and changing its optical properties. Deformation of the recording part causes scattering of the light in some form during reproduction, resulting in a clear reflectance difference from the unrecorded part.

The information is reproduced by detecting the reflected light or transmitted light corresponding to the change in optical characteristics of the recording unit.

Such a conventional DRAW type information recording medium rotates an optical disc at a high linear speed when it is recorded, so that information cannot be recorded without a wide pit gap. The recording of information was not possible.

In addition, even if information recording is possible, the edge of the recording bit was unclear due to the metallic characteristic (good thermal conductivity) of the recording film and detected as an error, making it impossible to read information on a commercially available CD player.

As optical discs for recording CD format signals, optical information recording methods using optical discs and similar optical discs having a recording layer made of a pigment or a dye composition on a substrate have been commercialized. It is known.

Accordingly, the present invention is to improve the conventional problems by forming an intermediate layer made of a metal or a semimetal oxide between the recording layer and a protective layer, and forming an intermediate layer made of a metal or a semimetal oxide between the recording layer and the protective layer. The purpose is.

Hereinafter, the present invention will be described.

2 is a structural diagram of a recording medium of the present invention, wherein the substrate 4 is made of polycarbonate (PC) and polymethacrylate (PMMA) in consideration of the planar processability, ease of handling, time stability, and manufacturing cost in conventional materials. ), Glass, etc.

The recording layer 5 is formed on the substrate 4, and since the recording layer 5 records information by a change in reflectance with respect to light, it is easy to change the shape of a Pit or Bubble type by irradiating light, A material having low thermal conductivity was selected so that the thermal energy transferred to the recording layer was easily diffused in the vertical direction.

The material constituting the recording layer 5 is made by adding Bi-Te as a main component and one selected from Sb, In, Pb, and Si.

At this time, the composition range is made of the following formula.

That is, as (Bi _x Te _y ) _z M, 70≤x≤85, 15≤y≤30 (where x and y are atom% of Bi and Te, respectively), Z≥90 atom%, (M: Sb, 1 type selected from In, Pb, and Si). The thickness of the recording layer 5 having such a composition is in the range of 100 to 800 mW. In order to increase the diffuse reflection or scattering effect of light in the recording portion, an intermediate layer 6, which is a material whose transmittance is lowered by the laser beam, is formed on the recording layer 5. As a substance whose transmittance decreases due to light irradiation, the light transmittance decreases as the transition temperature of the transmittance of the substance decreases.

Such materials include one or two or more of metals or semimetals such as GeOx, SnOx, TeOx, InOx, BiOx, MoOx (where x is 0 <x <2), In ₂ O, In ₂ O ₃ , PbO It is set as the intermediate | middle layer formed by this.

The double interlayer 6 has a function of accelerating the change of the shape of the recording layer by raising the temperature of the recording layer by irradiation of laser light, and the thickness is about 100 to 1000 mW. Finally, the protective layer 7 made of cured resin is formed on the intermediate layer 6.

The recording light of the semiconductor laser light or the like is irradiated from the recording side while rotating at a constant linear velocity within a range of 1.2 to 1.4 m / s of the recording medium having such a structure.

In general, semiconductor laser light having an oscillation wavelength in the range of 750 to 850 mm is used, and recording is performed at a laser power of 6 to 8 mW.

When the recording laser is irradiated in the above manner, the optical disk of the present invention having a pregroove for tracking during recording and having a recording layer, an intermediate layer, and a protective layer thereon generates and records a physical shape of a Pit or Bubble type in the recording layer. This is done so that the CD format signal is recorded in concentric or spiral shape.

Part of the energy applied to the recording layer is applied to the intermediate layer to serve to promote the shape change of the recording layer.

In this way, the optical disk on which the CD format signal is recorded can be reproduced on a CD player by rotating a semiconductor laser of about 0.5 mW from the substrate axis and detecting the reflected light while rotating at a constant linear velocity under the same conditions as at the time of recording.

The following is described according to the embodiment.

A conventional recording film containing Te as a component on a disc-shaped PC substrate having a groove for tracking, and a recording film of the present invention in which a small amount of material Sb selected from Sb, In, Pb, and Si is added to Bi-Te, respectively. By vacuum deposition, the CD format signals were recorded at the selected speeds of 1.2 m / sec, 1.3 m / sec, and 1.4 m / sec, respectively, and the playback characteristics of the CD player were evaluated.

As a result, as shown in Table 1, it can be seen that the reproduction characteristics of the present invention are superior to the conventional reproduction characteristics as the linear velocity decreases to increase the recording density.

TABLE 1

※ ○: Excellent, △: Normal, ×: Poor

Claims (4)

Bi-Te is the main component on the substrate, and a recording layer 5 including one selected from Sb, In, Pb, and Si is formed thereon, and GeOx, SnOx, TeOx, InOx, BiOx, and MoOx (where x is formed of one or two or more intermediate layers 6 selected from 0 <x <2), In ₂ O, In ₂ O ₃ , and PbO, and a protective layer 7 is formed on the double interlayer. Magneto-optical recording medium. The composition of claim 1, wherein the composition of the recording layer 5 is (Bi _x Te _y ) _z M, wherein 70≤x≤85, 15≤y≤30 (x, y are Bi and Te, respectively). Atom%), Z≥90 atom%, (M: Sb, In, Pb, Si) one of the magneto-optical recording medium. The magneto-optical recording medium according to claim 1, wherein the recording layer (5) has a thickness of 100 to 800 Å. The magneto-optical recording medium according to claim 1, characterized in that the intermediate layer (6) has a thickness of 100 to 1000 mm.