JPH09212923A - Manufacture of optical-disk master disk - Google Patents
Manufacture of optical-disk master diskInfo
- Publication number
- JPH09212923A JPH09212923A JP3903196A JP3903196A JPH09212923A JP H09212923 A JPH09212923 A JP H09212923A JP 3903196 A JP3903196 A JP 3903196A JP 3903196 A JP3903196 A JP 3903196A JP H09212923 A JPH09212923 A JP H09212923A
- Authority
- JP
- Japan
- Prior art keywords
- substrate
- film layer
- recording signal
- face
- manufacturing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Manufacturing Optical Record Carriers (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は光デイスク原盤の製
造方法に関し、光デイスク成形時の金型として使用する
スタンパの製造に適用して好適なものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing an optical disk master, which is suitable for manufacturing a stamper used as a mold for optical disk molding.
【0002】[0002]
【従来の技術】従来、スタンパにおいては、図2(A)
〜(J)に示す以下の手順により製造されている。すな
わち、まず先行するマスタリング工程において使用され
た図2(A)のようなガラス又はニツケルからなる基板
1を用い、当該基板1に化学洗浄処理(3工程)を施す
ことにより図2(B)のようにその表面からニツケル及
びレジスト等の残留物2を除去する。2. Description of the Related Art A conventional stamper is shown in FIG.
It is manufactured by the following procedures shown in (J) to (J). That is, first, the substrate 1 made of glass or nickel as shown in FIG. 2A used in the preceding mastering process is used, and the substrate 1 is subjected to a chemical cleaning treatment (3 processes) to obtain the substrate shown in FIG. Thus, the residue 2 such as nickel and resist is removed from the surface.
【0003】次いで図2(C)のようにこの基板1の一
面1Aを極めて平滑に研磨し(1工程)、図2(D)の
ようにこの基板1を精密洗浄した後(3工程)、図2
(E)のようにこの基板1の一面1A上にスピンコート
法等を用いてフオトレジストを塗布することによりレジ
スト層3を形成する(2工程)。Next, as shown in FIG. 2 (C), one surface 1A of the substrate 1 is polished extremely smoothly (1 step), and after precisely cleaning the substrate 1 as shown in FIG. 2 (D) (3 step), Figure 2
As shown in (E), a photoresist layer is formed on one surface 1A of the substrate 1 by a spin coating method or the like to form a resist layer 3 (2 steps).
【0004】続いて図2(F)に示すように、このレジ
スト層3を記録信号に応じて露光し(1工程)、現像す
ることにより、図2(G)に示すような基板1の一面1
A上に残存レジスト層3Aからなる記録信号に応じた凹
凸パターンが設けられたデイスク・マスタ4を形成し、
この後図2(H)に示すように、このデイスク・マスタ
3の凹凸パターン上にめつき処理(2工程)によりニツ
ケルからなる金属層5を積層形成する。Subsequently, as shown in FIG. 2 (F), the resist layer 3 is exposed (one step) in accordance with a recording signal and developed to develop one surface of the substrate 1 as shown in FIG. 2 (G). 1
A disk master 4 having a concavo-convex pattern corresponding to a recording signal composed of the remaining resist layer 3A is formed on A,
After that, as shown in FIG. 2H, a metal layer 5 made of nickel is laminated and formed on the concavo-convex pattern of the disk master 3 by a plating process (two steps).
【0005】さらにこの後図2(I)のようにこの金属
層5をデイスク・マスタ4から剥離し、洗浄した後、中
心部に開口(センターホール)を穿設する。これにより
図2(J)に示すような一面6Aに記録信号に応じた凹
凸パターンを有するスタンパ6を得ることができる。Thereafter, as shown in FIG. 2 (I), the metal layer 5 is peeled off from the disk master 4 and washed, and then an opening (center hole) is formed at the center. This makes it possible to obtain the stamper 6 having the concavo-convex pattern according to the recording signal on the one surface 6A as shown in FIG.
【0006】[0006]
【発明が解決しようとする課題】ところでこのような従
来のスタンパ製造方法においては、上述のように工程数
が多いために製造設備も多く必要となり、その分設備費
が高く、また製造設備の占有面積が大きくなる問題があ
つた。またスタンパ6自身においても、上述のようにレ
ジストの塗布、露光及び現像等の数多くの工程を経て製
造されるため、製造時間が長く、製造コストが高くなる
問題があつた。By the way, in such a conventional stamper manufacturing method, since the number of steps is large as described above, a large amount of manufacturing equipment is required, and the equipment cost is accordingly high and the manufacturing equipment is occupied. There was a problem that the area became large. Further, since the stamper 6 itself is manufactured through many steps such as resist coating, exposure and development as described above, there is a problem that the manufacturing time is long and the manufacturing cost is high.
【0007】さらに上述のようなスタンパ製造方法で
は、基板1の一面1A上に記録信号に応じた凹凸パター
ンを形成する手段としてガラスやニツケルとの密着性や
強度の弱いフオトレジストを用いているため、一枚のデ
イスク・マスタ4からは一枚のスタンパ6しか作成する
ことができない問題があつた。Further, in the stamper manufacturing method as described above, since a photoresist having weak adhesion and strength with glass or nickel is used as a means for forming a concave-convex pattern on the one surface 1A of the substrate 1 according to a recording signal. However, there is a problem that only one stamper 6 can be created from one disk master 4.
【0008】本発明は以上の点を考慮してなされたもの
で、製造を容易にし得る光デイスク原盤の製造方法を提
案しようとするものである。The present invention has been made in consideration of the above points, and it is an object of the present invention to propose a method for manufacturing an optical disk master that can be easily manufactured.
【0009】[0009]
【課題を解決するための手段】かかる課題を解決するた
め本発明においては、基板の一面上に所定厚で高硬度炭
素からなる高硬度炭素膜層を形成し、これに記録信号に
応じてオンオフしながら所定パワーでレーザ光を照射す
るようにして必要部位に開口部又は凹部を形成するよう
にした。In order to solve such a problem, in the present invention, a high hardness carbon film layer made of high hardness carbon is formed on one surface of a substrate, and the high hardness carbon film layer is turned on / off according to a recording signal. On the other hand, a laser beam is irradiated with a predetermined power to form an opening or a recess at a necessary portion.
【0010】このようにすることによつて基板の一面上
に記録信号に応じた凹凸パターンを高硬度炭素膜層によ
つて形成することができる。従つていわゆるデイスク・
マスタを容易に作成することができる。By doing so, a concavo-convex pattern corresponding to a recording signal can be formed on the one surface of the substrate by the high hardness carbon film layer. Therefore, the so-called disk
A master can be created easily.
【0011】[0011]
【発明の実施の形態】以下図面について、本発明の一実
施例を詳述する。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below in detail with reference to the drawings.
【0012】図1(A)〜(I)は、実施例によるスタ
ンパの製造手順を示すものであり、まず図1(A)のよ
うなガラス又はニツケルからなる基板10の一面10A
上に、図1(B)のようにめつき処理(1工程)により
めつき層11を形成することにより、当該基板10の一
面10A側を極めて平滑に仕上げる。FIGS. 1A to 1I show a stamper manufacturing procedure according to an embodiment. First, one surface 10A of a substrate 10 made of glass or nickel as shown in FIG. 1A.
By forming the plating layer 11 on the top by a plating process (one step) as shown in FIG. 1B, the one surface 10A side of the substrate 10 is finished extremely smooth.
【0013】次いで図1(C)に示すように、この基板
10の一面10A上(正確にはめつき層11上)に、蒸
着法等によりDLC(Diamond Like Carbon )からなる
薄膜層(以下、これをDLC膜層と呼ぶ)12を再生波
長やフオーマツトに応じた規定のピツトの深さ(例えば
0.11〔μm 〕)と同じ厚みで形成する。Then, as shown in FIG. 1C, a thin film layer made of DLC (Diamond Like Carbon) is formed on one surface 10A of this substrate 10 (more precisely, on the fitting layer 11) by a vapor deposition method or the like. Is referred to as a DLC film layer) 12 is a prescribed pit depth (for example, according to the reproducing wavelength or format).
0.11 [μm]) and the same thickness.
【0014】続いて図1(D)に示すように、このDL
C膜層12に紫外線レーザ光を記録信号に応じて強度変
調しながら所定パワーで照射する。これによりDLC膜
層12の各必要部位(例えばピツト相当部位)の炭素分
子の結合をたち切らせて当該各必要部位の炭素分子を昇
華させる(レーザアブレーシヨン)ことによりピツト形
状の開口部12Aを形成し、かくして一面に記録信号に
応じた凹凸パターンを有するデイスク・マスタ13を作
成する。Subsequently, as shown in FIG. 1D, this DL
The C film layer 12 is irradiated with ultraviolet laser light with a predetermined power while the intensity thereof is modulated according to the recording signal. As a result, the carbon molecules in each necessary portion (for example, a portion corresponding to a pit) of the DLC film layer 12 are broken, and the carbon molecules in each required portion are sublimated (laser abrasion), thereby forming a pit-shaped opening 12A. Is formed, and thus, the disk master 13 having the concavo-convex pattern corresponding to the recording signal on one surface is prepared.
【0015】続いて図1(E)に示すように、このデイ
スク・マスタ13の一面上にめつき処理によりニツケル
からなる金属層14を形成し、この後図1(F)のよう
にこの金属層14を基板10から剥離し、洗浄した後、
センターホールを穿設する。これにより図1(I)に示
すような一面15Aに記録信号に応じた凹凸パターンを
有するスタンパ15を得ることができる。Subsequently, as shown in FIG. 1 (E), a metal layer 14 made of nickel is formed on one surface of the disk master 13 by plating, and then this metal layer 14 is formed as shown in FIG. 1 (F). After peeling layer 14 from substrate 10 and washing,
Drill a center hole. This makes it possible to obtain the stamper 15 having the concavo-convex pattern according to the recording signal on the one surface 15A as shown in FIG. 1 (I).
【0016】以上の構成において、この実施例では、基
板10Aの一面10A上にDLC膜層12を形成すると
共に、このDLC膜層12に紫外線レーザ光を記録信号
に応じて強度変調しながら照射することにより一面に記
録信号に応じた凹凸パターンを有するデイスク・マスタ
13を作成し、このデイスク・マスタ13に基づいてス
タンパ15を製造する。In the above structure, in this embodiment, the DLC film layer 12 is formed on the one surface 10A of the substrate 10A, and the DLC film layer 12 is irradiated with the ultraviolet laser light while the intensity thereof is modulated according to the recording signal. As a result, a disk master 13 having a concavo-convex pattern corresponding to a recording signal is formed on one surface, and the stamper 15 is manufactured based on the disk master 13.
【0017】従つてこのスタンパの製造方法では、フオ
トレジストを用いた従来のスタンパ製造方法に比べて製
造工程数を削減することができ、その分スタンパ15の
製造時間を短縮させることができると共にスタンパ15
の製造コストを低減することができる。またこのスタン
パの製造方法では、製造工程数を削減することができる
分、製造設備を削減することができ、その分製造設備費
や製造設備の占有面積を低減することができる。Therefore, in this stamper manufacturing method, the number of manufacturing steps can be reduced as compared with the conventional stamper manufacturing method using the photoresist, and the stamper 15 can be manufactured by a correspondingly short time. 15
Manufacturing cost can be reduced. Further, in this stamper manufacturing method, the number of manufacturing steps can be reduced, so that the manufacturing equipment can be reduced, and the manufacturing equipment cost and the occupied area of the manufacturing equipment can be reduced accordingly.
【0018】さらにこのスタンパの製造方法では、記録
信号に応じた凹凸パターンを形成する手段としてガラス
やニツケルからなる基板10との密着性が良く、かつ硬
質なDLMを使用しているため、一枚のデイスク・マス
タ13から複数枚のスタンパ15を作成することがで
き、その分最終的に生産される光デイスクの生産コスト
や生産効率を向上させることができる。Further, in this stamper manufacturing method, a hard DLM which has good adhesion to the substrate 10 made of glass or nickel and is used as a means for forming a concave-convex pattern according to a recording signal is used. It is possible to create a plurality of stampers 15 from the disk master 13, and the production cost and production efficiency of the finally produced optical disk can be improved accordingly.
【0019】以上の構成によれば、基板10の一面10
A上にDLC膜層12を形成すると共に、このDLC膜
層12に紫外線レーザ光を記録信号に応じてオンオフし
ながら照射することにより一面に記録信号に応じた凹凸
パターンを有するデイスク・マスタ13を作成し、この
デイスク・マスタ13に基づいてスタンパ15を製造す
るようにしたことにより、スタンパ15の製造工程数を
削減することができ、かくしてスタンパ15の製造を容
易にし得るスタンパの製造方法を実現できる。According to the above configuration, the one surface 10 of the substrate 10
A DLC film layer 12 is formed on A, and the DLC film layer 12 is irradiated with an ultraviolet laser beam while being turned on and off according to a recording signal, whereby a disk master 13 having a concavo-convex pattern according to the recording signal is formed on one surface. Since the stamper 15 is manufactured and the stamper 15 is manufactured based on the disk master 13, the number of manufacturing steps of the stamper 15 can be reduced, thus realizing the stamper manufacturing method that can facilitate the manufacturing of the stamper 15. it can.
【0020】なお上述の実施例においては、基板10の
一面10A上にピツトの深さに応じた膜厚でDLC膜層
12を形成すると共に、当該DLC膜層12に記録信号
に応じて開口部12Aを形成するようにした場合につい
て述べたが、本発明はこれに限らず、例えば基板10の
一面10A上にDLC膜層を規格によるピツトの深さ以
上の膜厚で形成し、カツテイング工程(図1(D))時
に紫外線レーザ光の出力パワーを制御することにより当
該DLC膜層の必要部位(例えばピツト相当部位)に規
格によるピツトの深さで凹部を形成するようにしても良
い。In the above-described embodiment, the DLC film layer 12 is formed on the one surface 10A of the substrate 10 with a film thickness corresponding to the depth of the pit, and the DLC film layer 12 has an opening portion corresponding to a recording signal. The case of forming 12A has been described, but the present invention is not limited to this, and for example, a DLC film layer is formed on one surface 10A of the substrate 10 with a film thickness equal to or larger than the standard pit depth, and the cutting step ( At the time of FIG. 1D, the output power of the ultraviolet laser light may be controlled to form a recess at a required portion (for example, a portion corresponding to the pit) of the DLC film layer with a standard pit depth.
【0021】また上述の実施例においては、基板10の
一面10A上にめつき層11を形成するようにした場合
について述べたが、本発明はこれに限らず、例えば基板
10の一面10Aを極めて平滑に研磨するようにしても
良い。Further, in the above-mentioned embodiment, the case where the plating layer 11 is formed on the one surface 10A of the substrate 10 is described, but the present invention is not limited to this, and for example, the one surface 10A of the substrate 10 is extremely formed. You may make it grind | polish evenly.
【0022】さらに上述の実施例においては、基板10
の一面10A上にDLC膜層12を形成する方法として
蒸着法を適用するようにする場合について述べたが、本
発明はこれに限らず、例えばプラズマCVD法等を用い
てDLC膜層12を形成するようにしても良く、基板1
0の一面10A上にDLC膜層12を形成する手段とし
ては、この他種々の方法を適用できる。Further, in the above embodiment, the substrate 10
The case where the vapor deposition method is applied as the method of forming the DLC film layer 12 on the one surface 10A has been described, but the present invention is not limited to this, and the DLC film layer 12 is formed using, for example, the plasma CVD method. Alternatively, the substrate 1
As the means for forming the DLC film layer 12 on the one surface 10A of 0, various other methods can be applied.
【0023】さらに上述の実施例においては、基板10
の一面10A上に形成されたDLC膜層12に記録信号
に応じて開口部12Aを形成する手段として紫外線レー
ザ光を適用するようにした場合について述べたが、本発
明はこれに限らず、要は、DLC膜層12に開口を形成
することができる(例えば波長 300〔nm〕以下)のであ
ればこの他エキシマレーザ光等種々のレーザ光を適用で
きる。Further, in the above embodiment, the substrate 10
The case where the ultraviolet laser beam is applied to the DLC film layer 12 formed on the one surface 10A as a means for forming the opening 12A in accordance with the recording signal has been described, but the present invention is not limited to this and is not necessary. As long as an opening can be formed in the DLC film layer 12 (for example, a wavelength of 300 nm or less), various laser lights such as excimer laser light can be applied.
【0024】さらに上述の実施例においては、基板10
の一面10A上にDLCからなるDLC膜層12を形成
するようにした場合について述べたが、本発明はこれに
限らず、この他種々の高硬度炭素からなる高硬度炭素膜
層を形成するようにしても良い。Further, in the above embodiment, the substrate 10
The case where the DLC film layer 12 made of DLC is formed on the one surface 10A has been described, but the present invention is not limited to this, and other high hardness carbon film layers made of high hardness carbon may be formed. You can
【0025】[0025]
【発明の効果】上述のように本発明によれば、基板の一
面上に所定厚で高硬度炭素からなる高硬度炭素膜層を形
成し、これに記録信号に応じてオンオフしながら所定パ
ワーでレーザ光を照射するようにして必要部位に開口部
又は凹部を形成するようにしたことにより、基板の一面
上に記録信号に応じた凹凸パターンを高硬度炭素膜層に
よつて形成することができる。従つていわゆるデイスク
・マスタを容易に作成することができ、かくするにつき
製造を容易に製造し得る光デイスク原盤の製造方法を実
現できる。As described above, according to the present invention, a high hardness carbon film layer made of high hardness carbon having a predetermined thickness is formed on one surface of a substrate, and a predetermined power is applied to the high hardness carbon film layer while turning it on and off according to a recording signal. By forming the opening or the recess in the necessary portion by irradiating the laser beam, the concavo-convex pattern corresponding to the recording signal can be formed on the one surface of the substrate by the high hardness carbon film layer. . Therefore, a so-called disc master can be easily produced, and thus, a method for producing an optical disc master that can be easily produced can be realized.
【図1】実施例によるスタンパの製造手順を示す断面図
である。FIG. 1 is a cross-sectional view showing a procedure for manufacturing a stamper according to an embodiment.
【図2】従来のスタンパの製造手順を示す断面図であ
る。FIG. 2 is a cross-sectional view showing a procedure for manufacturing a conventional stamper.
10……基板、10A……一面、12……DLC膜層、
12A……開口部、13……デイスク・スタンパ、14
……金属層、15……スタンパ。10 ... Substrate, 10A ... One side, 12 ... DLC film layer,
12A ... Aperture, 13 ... Disk stamper, 14
…… Metal layer, 15 …… Stamper.
Claims (2)
原盤の製造方法において、 一面が平滑に形成された基板の当該一面上に所定厚で高
硬度炭素からなる高硬度炭素膜層を形成する第1の工程
と、 記録信号に応じてオンオフしながら所定パワーでレーザ
光を照射するようにして上記高硬度炭素膜層の必要部位
に開口部又は凹部を形成する第2の工程とを具えること
を特徴とする光デイスク原盤の製造方法。1. A method of manufacturing an optical disk master, which is a mold for optical disk molding, wherein a high-hardness carbon film layer having a predetermined thickness and made of high-hardness carbon is formed on the one surface of a substrate having one surface smoothed. And a second step of forming an opening or a recess in a necessary portion of the high hardness carbon film layer by irradiating a laser beam with a predetermined power while turning on and off according to a recording signal. A method for manufacturing an optical disc master, which is characterized in that
とを特徴とする請求項1に記載の光デイスク原盤の製造
方法。2. The method of manufacturing an optical disc master according to claim 1, wherein the laser light is an ultraviolet laser light.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3903196A JPH09212923A (en) | 1996-01-31 | 1996-01-31 | Manufacture of optical-disk master disk |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3903196A JPH09212923A (en) | 1996-01-31 | 1996-01-31 | Manufacture of optical-disk master disk |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH09212923A true JPH09212923A (en) | 1997-08-15 |
Family
ID=12541749
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3903196A Pending JPH09212923A (en) | 1996-01-31 | 1996-01-31 | Manufacture of optical-disk master disk |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH09212923A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR19990018744A (en) * | 1997-08-28 | 1999-03-15 | 윤종용 | Diamond Information Storage Discs and Information Recording and Playback Methods |
JP2008234752A (en) * | 2007-03-19 | 2008-10-02 | Ricoh Co Ltd | Write once information recording medium and master substrate |
-
1996
- 1996-01-31 JP JP3903196A patent/JPH09212923A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR19990018744A (en) * | 1997-08-28 | 1999-03-15 | 윤종용 | Diamond Information Storage Discs and Information Recording and Playback Methods |
JP2008234752A (en) * | 2007-03-19 | 2008-10-02 | Ricoh Co Ltd | Write once information recording medium and master substrate |
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