KR20010104803A - High density optical disk - Google Patents

Abstract

A first information substrate having a first entrance surface to which recording / reproducing light is incident and a first recording surface on which an information signal is recorded; A second information substrate having a second entrance surface on which recording / reproducing light is incident, and a second recording surface on which an information signal is recorded; The third recording surface is provided between the first information substrate and the second information substrate, the third recording surface on which the information signal reproduced by the light transmitted through the first reflection layer and the information signal reproduced by the light transmitted through the second reflection layer are A third information substrate having a recorded fourth recording surface; Disclosed is a high density optical disc comprising a pair of space layers having a predetermined thickness and bonding first and second information substrates to each of both surfaces of the third information substrate.

In the disclosed high density optical disc, the thickness of the entire high density optical disc is tt, the thickness of each of the first to third information substrates is t, and when the thickness of the space layer is SL, tt, t and SL are the wavelengths of incident light. ? and the numerical aperture NA of the objective lens used are satisfied.

Equation

Description

High density optical disk

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high density optical disc having at least two pieces of recording layers bonded by using a space layer, in particular an entire information substrate, a space layer and an optical disc in consideration of any optical wavelength and numerical aperture of an objective lens used. A high density optical disc with optimized thickness.

As a standardized two-layer optical disk, a DVD-ROM two-layer optical disk can be mentioned. Referring to Fig. 1, this DVD-ROM optical disc includes first and second information substrates 11 and 21, and recording surfaces 11a and 21a of each of the first and second information substrates 11 and 21, respectively. A space provided between the first and second reflection layers 13 and 23 and the first and second reflection layers 13 and 23 formed thereon to bond the first and second information substrates 11 and 21. Layer 15. In other words, in order to form two recording layers on both sides, the optical disc is bonded so that the total thickness is 1.2 mm by bonding two information substrates.

In the case where the provision of such an optical disc is to be applied to an optical disc composed of three information substrates having a thickness of approximately 0.4 mm, the thickness of each information substrate should be smaller than 0.4 mm in consideration of two space layers. Here, the thickness of each information substrate should be determined differently in consideration of the tilt margin of the optical disc which varies depending on the numerical aperture NA, even when the wavelength of the incident light is set to, for example, 400 nm.

That is, it is determined as in Equation 1 at any lambda and NA by the relationship between the tilt margin ∝ incident light wavelength λ / [information substrate thickness t * (NA) ³ ].

When the thickness of the information board is calculated at λ = 400 nm in Equation 1, the thickness of the information board is 0.37 mm at NA 0.6 and 0.29 mm at NA 0.65. Therefore, when using a three-piece information board having the same thickness, the overall thickness There is a problem in that the case that does not correspond to the normal value 1.2mm.

SUMMARY OF THE INVENTION The present invention has been made in view of the above, and an object thereof is to provide a high-density optical disk in which the thickness of the information substrate and the space layer is optimized so as to satisfy the total thickness of the optical disk at an arbitrary wavelength and NA.

1 is a schematic cross-sectional view showing an optical disk of a conventional double-sided one-layer structure.

2 is a schematic cross-sectional view showing a high density optical disc according to an embodiment of the present invention.

3 to 5 are graphs showing the change of the total thickness of the optical disk according to the change of the thickness of the information substrate under given conditions.

<Description of Symbols for Main Parts of Drawings>

111.1st information board 111a ... 1st entrance plane 111b ... 1st recording plane

113 The first reflective layer 121 The second information substrate 121a The second entrance surface

121b ... 2nd recording surface 123 ... 2nd reflective layer 131 ... 3rd information board

131a ... 3rd recording surface 131b ... 4th recording surface 133 ... 3rd reflective layer

135 ... 4th reflective layer 141, 143 ... space layer

In order to achieve the above object, the present invention provides a light emitting device comprising: a first information substrate having a first entrance surface to which recording / reproducing light is incident, a first recording surface on which an information signal is recorded, or an information signal is not recorded; A second information substrate having a second incidence surface into which recording / reproducing light is incident, a second recording surface on which an information signal is recorded or in which no information signal is recorded; A third recording surface provided between the first information substrate and the second information substrate, the third recording surface having recorded thereon an information signal reproduced by the light transmitted through the first information substrate, and the light transmitted through the second information substrate; A third information substrate having a fourth recording surface on which information signals to be reproduced are recorded; And a pair of space layers having a predetermined thickness and bonding the first and second information substrates to each of both surfaces of the third information substrate. tt, the thickness of each of the first to third information substrates is t, and when the thickness of the space layer is SL, the tt, t and SL are the wavelength? of the incident light and the numerical aperture of the objective lens used. It is characterized by satisfying the following equation for NA.

Equation

Hereinafter, a high density optical disc according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2, the high-density optical disk according to the embodiment of the present invention is composed of three pieces, the first and second information substrates 111 and 121 in which an information signal is recorded on one surface, and the first information. A third information substrate 131 disposed between the substrate 111 and the second information substrate 121 and having information signals recorded on both surfaces thereof, and having a predetermined thickness on each of both sides of the third information substrate; And a pair of space layers 141 and 143 which bond the two information substrates.

The first information substrate 111 has a first incident surface 111a on which the recording / reproducing light L is incident, and a first recording surface 111b on which an information signal is recorded. A first reflective layer 113 is formed on the first recording surface 111b to reflect part of incident light and transmit the remaining part toward the third information substrate 131. In this case, when used exclusively for reproduction, the first recording surface 111b forms a desired physical pit on the material of the first information substrate 111 itself, without adding another configuration, and the formation thereof is completed. do. On the other hand, in the case of forming a structure capable of recording and reproducing by using a phase change method, a dielectric film made of ZnS-SiO ₂ material or a GeSbTe system is formed between the first recording surface 111b and the first reflection layer 113. Alternatively, a recording film and a dielectric film made of AgInSbTe-based material are stacked in this order. Since the configuration of such a phase change film itself is well known, its detailed description and drawings will be omitted.

The first reflective layer 113 is a translucent film, and is preferably made of any one material selected from silver (Ag), Ag alloy of AgPdCu system, SiC, AlN, and Au alloy. In addition, the first reflecting layer 113 is set to a different thickness depending on the material selected to obtain approximately 28% of the reflectance required to reproduce the information recorded on the first recording surface 111b. For example, when AgPdCu material is selected, the reflectance of approximately 28% can be obtained by setting the thickness to approximately 20 nm and the Al reflecting film to approximately 60 nm.

The second information substrate 121 has a second incident surface 121a through which the recording / reproducing light L is incident, and a second recording surface 121b on which the information signal is recorded. A second reflection layer 123 is formed on the second recording surface 121b to reflect part of the incident light.

Like the first information substrate 111, the second information substrate 121 is made of any one material selected from polycarbonate (PC), polymethyl methacrylate (PMMA), amorphous polyolefin (APO), and glass materials. It is composed. In the recording / reproducing of the information on the second information substrate 121, the configuration in the case of being used exclusively for reproduction and the configuration in which both recording and reproduction are possible are as described with reference to the first information substrate 111. Since it is substantially the same, the detailed description is abbreviate | omitted. In addition, the second reflective layer 123 is a translucent film and is formed of a material substantially the same as the material of the first reflective layer 113 described above.

In this case, the first and / or second information substrates 111 and 121 may be dummy boards in which information is not recorded. In this case, the first and / or second reflective layers 113 and 123 are excluded.

The third information substrate 131 is formed to be bonded between the first reflection layer 113 and the second reflection layer 123, and the information signal is recorded / reproduced by the light transmitted through the first reflection layer 113. And a third recording surface 131a and a fourth recording surface 131b in which the information signal is recorded / reproduced by the light transmitted through the second reflection layer 123. Like the first information substrate 111, the third information substrate 131 is made of any one material selected from polycarbonate (PC), polymethyl methacrylate (PMMA), amorphous polyolefin (APO), and glass materials. It is composed. A third reflective layer 133 is formed on the third recording surface 131a, and a fourth reflective layer 135 is formed on the fourth recording surface 131b. The third and fourth reflection layers 133 and 135 are made of a material such as Al alloy and Ag alloy as a total reflection film.

In the case where the third information substrate 131 is used for reproduction only, the configuration is completed by forming physical pits for the third and fourth recording surfaces 131a and 131b. On the other hand, in order to be able to record and reproduce at least one recording surface of the third information substrate 131, a film of a phase change film is required on the third reflection layer 133 and / or the fourth reflection layer 135. That is, a phase change film may be formed by stacking on the third reflection layer 133 and / or the fourth reflection layer 135 in the order of a dielectric film, a recording film, and a dielectric film.

The high-density optical disc thus constructed has a total thickness tt, which is a standard for high-density optical discs, satisfies 1.2 ± 0.060 mm with respect to the wavelength? The thickness t of the first to third information substrates 111, 121 and 131 should be set. The factors for determining the total thickness tt include the thickness t of the information substrate and the thickness SL of the space layers 141 and 143. As shown in FIG. 2, when forming the layer structure of the optical disc, the total thickness tt satisfies Equation 2.

FIG. 3 shows the change of the total thickness tt of the optical disc according to the change in the thickness t of the information substrate when the thickness SL of the space layers 141 and 143 at the wavelength of use of 400 nm and NA 0.65 has a deviation of 32 μm from 18 μm. It is shown. Referring to the results of FIG. 3, it can be seen that the thickness t of the information substrate must satisfy 0.371 mm to 0.384 mm in order to match the total thickness of the optical disc under the above conditions.

4 shows the change in the total thickness tt of the optical disc according to the change in the thickness t of the information substrate when the wavelength of use is 400 nm and NA 0.6, and SL has a deviation of 25 μm to 43 μm. Referring to the results of FIG. 4, it can be seen that the thickness t should satisfy 0.379 mm to 0.388 mm in order to match the total thickness of the optical disc 1.2 mm.

On the other hand, with respect to the results of Equations 2, 3 and 4, as shown in Equation 3, tt is 1.197 mm to 1.33 mm for NA 0.65, considering the variation of the total optical disc thickness defined in the DVD optical disc standard. And for NA 0.60 tt is from 1.196 mm to 1.38 mm.

3 and 4, the deviation of the thickness SL of the space layer is set within a range that satisfies the condition as in the expression (4) with respect to the used wavelength? And the numerical aperture NA.

On the other hand, considering the case where the wavelength used does not coincide with 400 nm and has a predetermined deviation, and NA has a predetermined deviation with respect to 0.6 or 0.65, the thickness SL and the total thickness tt of the space layer are in the range of the equation (5). It is desirable to satisfy.

Here, the deviation of the total thickness tt reflects this when the maximum deviation of the optical disc is converted into 400 nm, which is 30 μm.

When the conditions of SL and tt are given as shown in Equation 5, the change in the total thickness tt according to the change in thickness t of the information substrate is shown in FIG. 5. The hatched region in Fig. 5 is a region corresponding to the thickness of the information substrate for having three pieces at a wavelength of 400 nm. Here, it can be seen that the thickness t of the information substrate satisfies Equation 6 based on 1.2 mm, which is a normal value of the entire thickness.

As described above, the high-density optical disc according to the present invention can correctly set the thickness of the information substrate according to the variation of the thickness SL of the space layer for a given wavelength of use λ and the numerical aperture NA so that the total thickness of the optical disc becomes a desired thickness. There is an advantage.

Claims (3)

A first information substrate having a first incident surface to which recording / reproducing light is incident, a first recording surface on which an information signal is recorded, or an information recording surface is excluded; A second information substrate having a second incidence surface into which recording / reproducing light is incident, a second recording surface in which an information signal is recorded, or an information recording surface is excluded; A third recording surface provided between the first information substrate and the second information substrate, the third recording surface having recorded thereon an information signal reproduced by the light transmitted through the first information substrate, and the light transmitted through the second information substrate; A third information substrate having a fourth recording surface on which information signals to be reproduced are recorded; A high density optical disc comprising: a pair of space layers having a predetermined thickness and bonding the first and second information substrates to each of both surfaces of the third information substrate. When the thickness of the entire high-density optical disk is tt, the thickness of each of the first to third information substrates is t, and the thickness of the space layer is SL, And tt, t and SL satisfy the following equation for the wavelength? Of the incident light and the numerical aperture NA of the objective lens used. Equation The high density optical disc according to claim 1, wherein each of the thickness tt of the entire high density optical disc and the thickness of the space layer SL satisfies the following conditional expression. <Conditional expression> The high density optical disc according to claim 1 or 2, wherein the thickness t of the first to third information substrates satisfies the following conditional expression. <Conditional expression>