公开(公告)号：US20090189302A1

公开(公告)日：2009-07-30

申请号：US12358737

申请日：2009-01-23

申请人： Goro Fujita ,  Seiji Kobayashi ,  Kimihiro Saito ,  Shingo Imanishi

发明人： Goro Fujita ,  Seiji Kobayashi ,  Kimihiro Saito ,  Shingo Imanishi

IPC分类号： B29D11/00

CPC分类号： B29D11/00365 ,  G02B3/0031

摘要： A method for manufacturing a microlens includes forming a microlens by pressing a microlens mold having a reverse shape of a microlens formed therein on a microlens-forming film formed on a substrate to transfer the reverse shape of the microlens to the microlens-forming film. The microlens mold is formed by irradiating an inorganic resist film which is formed on a mold substrate with exposure light by relative two-dimensional scanning, and etching an exposed region of the inorganic resist film to form the reverse shape of the microlens. The irradiation intensity of the exposure light is adjusted to correspond to the depth of the reverse shape of the microlens from the surface of the inorganic resist film on the basis of profile data of the reverse shape of the microlens.

摘要翻译： 用于制造微透镜的方法包括通过将形成在其上的微透镜的反向形状的微透镜模具压在形成于基板上的微透镜形成膜上来形成微透镜，以将微透镜的反向形状转印到微透镜形成膜。 通过相对二维扫描用曝光光照射形成在模具基板上的无机抗蚀剂膜，并且蚀刻无机抗蚀剂膜的暴露区域以形成微透镜的反向形状来形成微透镜模具。 基于微透镜的反向形状的轮廓数据，将曝光光的照射强度根据无机抗蚀剂膜的表面的微透镜的倒置形状的深度进行调整。

公开(公告)号：US20090010115A1

公开(公告)日：2009-01-08

申请号：US11815630

申请日：2006-02-07

申请人： Goro Fujita ,  Takashi Shimouma ,  Jun Nakano ,  Shigeki Takagawa ,  Kimihiro Saito

发明人： Goro Fujita ,  Takashi Shimouma ,  Jun Nakano ,  Shigeki Takagawa ,  Kimihiro Saito

IPC分类号： G11B7/00

CPC分类号： G11B20/10 ,  G11B7/24085 ,  G11B20/00086 ,  G11B20/00094 ,  G11B20/00173 ,  G11B20/00586 ,  G11B20/00594 ,  G11B2020/1453

摘要： In an optical disk, a substrate has main data recorded in the form of a combination of pits and lands on one side thereof, and at least a reflective layer and cover layer are stacked on the substrate to cover the pits and lands on the substrate. To the optical disk, sub data is recorded in the form of marks formed by irradiating writing-power laser light to the reflective layer. The marks are formed so that reading signal level will be raised where the marks are formed while it will be lowered where the marks are formed in a counterfeit disk produced based on an authenticated disk, namely, the reading signal level where the marks are formed is different in polarity between in the authenticated and counterfeit disks. Further, in a player for the optical disk, discrimination is made between the authenticated and counterfeit disks by detecting the sub data recorded in the optical disk and judging whether the value of the detected sub data has been read at a correct polarity.

摘要翻译： 在光盘中，基板的一侧具有以凹坑和平台的组合的形式记录的主数据，并且至少反射层和覆盖层堆叠在基板上以覆盖基板上的凹坑和平台。 对于光盘，子数据以通过将写入功率激光照射到反射层而形成的标记的形式被记录。 标记被形成为使得在形成标记的读取信号电平将被升高，同时在基于认证盘产生的伪造盘中形成标记的地方下降，即，形成标记的读取信号电平为 在验证和伪造磁盘之间的极性不同。 此外，在用于光盘的播放器中，通过检测记录在光盘中的子数据并判断检测到的子数据的值是否以正确的极性被读取，从而在认证盘和伪造盘之间进行判别。

公开(公告)号：US08159911B2

公开(公告)日：2012-04-17

申请号：US11915162

申请日：2006-05-11

申请人： Goro Fujita ,  Takeshi Miki ,  Takashi Shimouma ,  Koji Ashizaki ,  Masato Nakakura

发明人： Goro Fujita ,  Takeshi Miki ,  Takashi Shimouma ,  Koji Ashizaki ,  Masato Nakakura

IPC分类号： G11B5/00

CPC分类号： G11B7/00452 ,  G11B7/006 ,  G11B7/268

摘要： An optical disc recording medium is irradiated with laser light having a predetermined laser power to deform an irradiated portion of a substrate into a protruding portion. Since the substrate is deformed so as to have protruding portions, a reflecting layer arranged on the substrate is also deformed so as to have protruding portions. For a pit, the deformed state of a protruding portion allows to obtain a reproduced signal level equivalent to that in each land. For a land, the deformed state of a protruding portion allows to obtain a reproduced signal level equivalent to that in each pit. Since the deformed state of each protruding portion can be controlled on the basis of the power of the laser light for irradiation, pit-to-land deformation and land-to-pit deformation can be performed by setting the laser power. Thus, recorded data can be rewritten on the optical disc recording medium recorded with the data using a combination of pits and lands formed in the substrate.

摘要翻译： 用具有预定激光功率的激光照射光盘记录介质，使基片的照射部分变形为突出部分。 由于基板变形以具有突出部分，所以布置在基板上的反射层也变形以具有突出部分。 对于凹坑，突出部分的变形状态允许获得与每个平台相同的再现信号电平。 对于陆地，突出部分的变形状态允许获得与每个坑中相同的再现信号电平。 由于可以基于用于照射的激光的功率来控制每个突出部分的变形状态，所以可以通过设置激光功率来进行凹坑到地面变形和地 - 坑变形。 因此，可以使用在基板中形成的凹坑和平台的组合，在记录有数据的光盘记录介质上重写记录数据。

公开(公告)号：US07803444B2

公开(公告)日：2010-09-28

申请号：US11768490

申请日：2007-06-26

申请人： Takeshi Miki ,  Goro Fujita

发明人： Takeshi Miki ,  Goro Fujita

IPC分类号： B32B3/02

CPC分类号： G11B7/268 ,  G11B7/00736 ,  G11B7/259 ,  Y10T428/21

摘要： An optical disk is disclosed. The optical disk includes a substrate having lands and pits arranged and formed along a recording track so that data are recorded; a reflective film deposited on the substrate; and a protective layer formed on the reflective film, where an edge of the pits in the array direction is irradiated with light from a side of the protective layer to deform the pits, so that pit data are rewritten and recorded, and the reflective film includes an alloy formed of AlFeX having Al as a main component, where X contains any one or more of Ti, Cu, Au, Pt, and Si.

摘要翻译： 公开了一种光盘。 光盘包括具有沿着记录轨道布置和形成的焊盘和凹坑的基板，从而记录数据; 沉积在基板上的反射膜; 以及形成在反射膜上的保护层，其中沿着阵列方向的凹坑的边缘被来自保护层的侧面的光照射以使凹坑变形，使得凹坑数据被重写和记录，并且反射膜包括 以Al为主成分的AlFeX合金，其特征在于，含有Ti，Cu，Au，Pt，Si中的任一种以上。

公开(公告)号：US07586833B2

公开(公告)日：2009-09-08

申请号：US11890617

申请日：2007-08-07

申请人： Takeshi Miki ,  Goro Fujita

发明人： Takeshi Miki ,  Goro Fujita

IPC分类号： G11B7/24

CPC分类号： G11B11/10584 ,  G11B7/24076 ,  G11B7/24079 ,  G11B11/10578

摘要： A magneto-optical recording medium in which the inside of grooves formed along recording tracks is a signal recording area in groove recording, and the domain wall displacement detection method is employed; and a curvature radius R1, in the cross section perpendicular to the recording tracks, of a shoulder portion of a land separating the grooves that is adjacent to the groove is 30 nm or less and a curvature radius R2, in the cross section perpendicular to the recording tracks, of the inside edge portion of the groove for the recording that is adjacent to the land is 20 nm or more, so that a wide recording power margin can be obtained, the jitter can be improved, and the error rate can also be improved.

摘要翻译： 一种磁光记录介质，其中沿着记录轨道形成的凹槽的内部是沟槽记录中的信号记录区域，并且采用畴壁位移检测方法; 并且在垂直于记录轨道的横截面中的与凹槽相邻的凹槽的肩部的肩部的曲率半径R1在与该凹槽相邻的横截面中为30nm以下且曲率半径R2为 用于与岸台相邻的记录的槽的内边缘部分的记录轨迹为20nm以上，从而可以获得宽的记录功率余量，可以提高抖动，并且错误率也可以是 改进。

公开(公告)号：US07257076B2

公开(公告)日：2007-08-14

申请号：US10488386

申请日：2003-07-04

申请人： Takeshi Miki ,  Goro Fujita

发明人： Takeshi Miki ,  Goro Fujita

IPC分类号： G11B7/24

CPC分类号： G11B11/10584 ,  G11B7/24076 ,  G11B7/24079 ,  G11B11/10578

摘要： A magneto-optical recording medium in which the inside of grooves formed along recording tracks is a signal recording area in groove recording, and the domain wall displacement detection method is employed; and a curvature radius R1, in the cross section perpendicular to the recording tracks, of a shoulder portion of a land separating the grooves that is adjacent to the groove is 30 nm or less and a curvature radius R2, in the cross section perpendicular to the recording tracks, of the inside edge portion of the groove for the recording that is adjacent to the land is 20 nm or more, so that a wide recording power margin can be obtained, the jitter can be improved, and the error rate can also be improved.

摘要翻译： 一种磁光记录介质，其中沿着记录轨道形成的凹槽的内部是沟槽记录中的信号记录区域，并且采用畴壁位移检测方法; 并且在垂直于记录轨道的横截面中的曲率半径R 1在分隔与槽相邻的凹槽的区域的台肩部分在30cm以下并且曲率半径R 2在垂直于截面的截面中 与纹间相邻的用于记录的槽的内边缘部分的记录轨迹为20nm以上，从而可以获得宽的记录功率余量，可以提高抖动，并且错误率可以 也得到改善。

公开(公告)号：US07433276B2

公开(公告)日：2008-10-07

申请号：US10864395

申请日：2004-06-10

申请人： Takeshi Miki ,  Goro Fujita

发明人： Takeshi Miki ,  Goro Fujita

IPC分类号： G11B11/00

CPC分类号： G11B11/10584 ,  G11B7/24082 ,  G11B11/10515 ,  G11B11/10578 ,  G11B11/10582

摘要： A domain wall displacement detection (DWDD) system magneto-optical recording medium forms a land 3 and a groove 4 as signal recording areas. When a domain wall displacement improvement is changed by irradiating annealing light La on a boundary wall surface 5 between the land 3 and the groove 4, the position of this annealing light is detected by an annealing light scanning position displacement detecting wobbling portion 7 formed at a portion extending along the recording track length direction of the boundary wall surface 5. The annealing light scans this wobbling portion 7, whereby a vibration amplitude of a cycle corresponding to the cycle of the wobbling portion 7 is produced to thereby detect and monitor the miniscule change of the scanning position of the annealing light with high sensitivity. Thus, in the DWDD system magneto-optical recording medium, the scanning position of the annealing light at the boundary wall surface between the land 3 and the groove 4 can be detected with high sensitivity.

摘要翻译： 域壁位移检测（DWDD）系统磁光记录介质形成作为信号记录区域的平台3和凹槽4。 当通过在焊盘3和槽4之间的边界壁表面5照射退火光La来改变畴壁位移改进时，该退火光的位置通过形成在第一焊盘的退火光扫描位置检测摆动部分7 部分沿着边界壁表面5的记录轨道长度方向延伸。 退火光扫描该摆动部7，由此产生与摆动部7的周期对应的周期的振动幅度，从而以高灵敏度检测并监视退火光的扫描位置的微小变化。 因此，在DWDD系统磁光记录介质中，可以高灵敏度地检测焊盘3与槽4之间的边界壁表面处的退火光的扫描位置。

公开(公告)号：US20050030837A1

公开(公告)日：2005-02-10

申请号：US10488386

申请日：2003-07-04

申请人： Takeshi Miki ,  Goro Fujita

发明人： Takeshi Miki ,  Goro Fujita

IPC分类号： G11B7/007 ,  G11B7/24076 ,  G11B7/24079 ,  G11B11/105 ,  G11B7/24

CPC分类号： G11B11/10584 ,  G11B7/24076 ,  G11B7/24079 ,  G11B11/10578

摘要： A magneto-optical recording medium in which the inside of grooves formed along recording tracks is a signal recording area in groove recording, and the domain wall displacement detection method is employed; and a curvature radius R1, in the cross section perpendicular to the recording tracks, of a shoulder portion of a land separating the grooves that is adjacent to the groove is 30 nm or less and a curvature radius R2, in the cross section perpendicular to the recording tracks, of the inside edge portion of the groove for the recording that is adjacent to the land is 20 nm or more, so that a wide recording power margin can be obtained, the jitter can be improved, and the error rate can also be improved.

摘要翻译： 一种磁光记录介质，其中沿着记录轨道形成的凹槽的内部是沟槽记录中的信号记录区域，并且采用畴壁位移检测方法; 并且在垂直于记录轨道的横截面中的与凹槽相邻的凹槽的肩部的肩部的曲率半径R1在与该凹槽相邻的横截面中为30nm以下且曲率半径R2为 用于与岸台相邻的记录的槽的内边缘部分的记录轨迹为20nm以上，从而可以获得宽的记录功率余量，可以提高抖动，并且错误率也可以是 改进。

公开(公告)号：US20090028014A1

公开(公告)日：2009-01-29

申请号：US11915162

申请日：2006-05-11

申请人： Goro Fujita ,  Takeshi Miki ,  Takashi Shimouma ,  Koji Ashizaki ,  Masato Nakakura

发明人： Goro Fujita ,  Takeshi Miki ,  Takashi Shimouma ,  Koji Ashizaki ,  Masato Nakakura

IPC分类号： G11B5/00 ,  G11B7/24

CPC分类号： G11B7/00452 ,  G11B7/006 ,  G11B7/268

摘要： An optical disc recording medium is irradiated with laser light having a predetermined laser power to deform an irradiated portion of a substrate into a protruding portion. Since the substrate is deformed so as to have protruding portions, a reflecting layer arranged on the substrate is also deformed so as to have protruding portions. For a pit, the deformed state of a protruding portion allows to obtain a reproduced signal level equivalent to that in each land. For a land, the deformed state of a protruding portion allows to obtain a reproduced signal level equivalent to that in each pit. Since the deformed state of each protruding portion can be controlled on the basis of the power of the laser light for irradiation, pit-to-land deformation and land-to-pit deformation can be performed by setting the laser power. Thus, recorded data can be rewritten on the optical disc recording medium recorded with the data using a combination of pits and lands formed in the substrate.

摘要翻译： 用具有预定激光功率的激光照射光盘记录介质，使基片的照射部分变形为突出部分。 由于基板变形以具有突出部分，所以布置在基板上的反射层也变形以具有突出部分。 对于凹坑，突出部分的变形状态允许获得与每个平台相同的再现信号电平。 对于陆地，突出部分的变形状态允许获得与每个坑中相同的再现信号电平。 由于可以基于用于照射的激光的功率来控制每个突出部分的变形状态，所以可以通过设置激光功率来进行凹坑到地面变形和地 - 坑变形。 因此，可以使用在基板中形成的凹坑和平台的组合，在记录有数据的光盘记录介质上重写记录数据。

公开(公告)号：US20080002530A1

公开(公告)日：2008-01-03

申请号：US11890617

申请日：2007-08-07

申请人： Takeshi Miki ,  Goro Fujita

发明人： Takeshi Miki ,  Goro Fujita

IPC分类号： G11B7/24

CPC分类号： G11B11/10584 ,  G11B7/24076 ,  G11B7/24079 ,  G11B11/10578

摘要： A magneto-optical recording medium in which the inside of grooves formed along recording tracks is a signal recording area in groove recording, and the domain wall displacement detection method is employed; and a curvature radius R1, in the cross section perpendicular to the recording tracks, of a shoulder portion of a land separating the grooves that is adjacent to the groove is 30 nm or less and a curvature radius R2, in the cross section perpendicular to the recording tracks, of the inside edge portion of the groove for the recording that is adjacent to the land is 20 nm or more, so that a wide recording power margin can be obtained, the jitter can be improved, and the error rate can also be improved

摘要翻译： 一种磁光记录介质，其中沿着记录轨道形成的凹槽的内部是沟槽记录中的信号记录区域，并且采用畴壁位移检测方法; 并且在垂直于记录轨道的横截面中的曲率半径R 1在分隔与槽相邻的凹槽的区域的台肩部分在30cm以下并且曲率半径R 2在垂直于截面的截面中 与纹间相邻的用于记录的槽的内边缘部分的记录轨迹为20nm以上，从而可以获得宽的记录功率余量，可以提高抖动，并且错误率可以 也得到改善