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    • 4. 发明申请
    • MOLD FOR OPTICAL DEVICE WITH ANTI-REFLECTION STRUCTURE, METHOD FOR PRODUCING THE SAME, AND OPTICAL DEVICE
    • 具有抗反射结构的光学装置的模具,其制造方法和光学装置
    • US20120300305A1
    • 2012-11-29
    • US13540364
    • 2012-07-02
    • Kazuma KuriharaTakayuki ShimaJunji Tominaga
    • Kazuma KuriharaTakayuki ShimaJunji Tominaga
    • G02B5/00
    • G02B1/118B29C33/42B29C45/00Y10T428/24355
    • A process for producing through simple operations a molding die for optical device having an antireflective structure of nano-order microscopic uneven plane on a substratum surface. The molding die for optical device having microscopic uneven plane (antireflective structure die plane) on a surface of substratum is produced by a process comprising forming one or more etching transfer layers on substratum; forming thin film for formation of semisperical microparticles on the etching transfer layers; causing the thin film to undergo aggregation, or decomposition, or nucleation of the material by the use of any of thermal reaction, photoreaction and gas reaction or a combination of these reactions so as to form multiple semispherical islandlike microparticles; and using the multiple island like microparticles as a protective mask, carrying out sequential etching of the etching transfer layers and substratum by reactive gas to thereby form a conical pattern on the microscopic surface of the substratum.
    • 一种用于通过简单操作生产用于在基底表面上具有纳米级微观不平坦面的抗反射结构的光学装置的模具的方法。 通过包括在基底上形成一个或多个蚀刻转移层的方法,制备在基底表面上具有微观不平坦平面(抗反射结构裸片平面)的光学器件用成型模具。 在蚀刻转印层上形成用于形成半精细微粒的薄膜; 通过使用任何热反应,光反应和气体反应或这些反应的组合,使薄膜发生聚集,分解或成核,从而形成多个半球状的岛状微粒; 并且使用多岛状微粒作为保护掩模,通过反应性气体进行蚀刻转移层和底层的顺序蚀刻,从而在基底的微观表面上形成圆锥形图案。
    • 5. 发明申请
    • MOLD FOR OPTICAL DEVICE WITH ANTI-REFLECTION STRUCTURE, METHOD FOR PRODUCING THE SAME, AND OPTICAL DEVICE
    • 具有抗反射结构的光学装置的模具,其制造方法和光学装置
    • US20100055397A1
    • 2010-03-04
    • US12515188
    • 2007-10-02
    • Kazuma KuriharaTakayuki ShimaJunji Tominaga
    • Kazuma KuriharaTakayuki ShimaJunji Tominaga
    • B29D11/00B29C33/42
    • G02B1/118B29C33/42B29C45/00Y10T428/24355
    • A process for producing through simple operations a molding die for optical device having an antireflective structure of nano-order microscopic uneven plane on a substratum surface. The molding die for optical device having microscopic uneven plane (antireflective structure die plane) on a surface of substratum is produced by a process comprising forming one or more etching transfer layers on substratum; forming thin film for formation of semispherical microparticles on the etching transfer layers; causing the thin film to undergo aggregation, or decomposition, or nucleation of the material by the use of any of thermal reaction, photoreaction and gas reaction or a combination of these reactions so as to form multiple semispherical island-like microparticles; and using the multiple islandlike microparticles as a protective mask, carrying out sequential etching of the etching transfer layers and substratum by reactive gas to thereby form a conical pattern on the microscopic surface of the substratum.
    • 一种用于通过简单操作生产用于在基底表面上具有纳米级微观不平坦面的抗反射结构的光学装置的模具的方法。 通过包括在基底上形成一个或多个蚀刻转移层的方法,制备在基底表面上具有微观不平坦平面(抗反射结构裸片平面)的光学器件用成型模具。 在蚀刻转印层上形成用于形成半球形微粒的薄膜; 通过使用热反应,光反应和气体反应中的任何一种或这些反应的组合使薄膜发生聚集,分解或成核,从而形成多个半球状的岛状微粒; 并使用多岛状微粒作为保护掩模,通过反应性气体进行蚀刻转移层和底层的顺序蚀刻,从而在基底的微观表面上形成圆锥形图案。
    • 6. 发明授权
    • Mold for optical device with anti-reflection structure, method for producing the same, and optical device
    • 具有防反射结构的光学装置用模具及其制造方法以及光学装置
    • US08226837B2
    • 2012-07-24
    • US12515188
    • 2007-10-02
    • Kazuma KuriharaTakayuki ShimaJunji Tominaga
    • Kazuma KuriharaTakayuki ShimaJunji Tominaga
    • B29D11/00
    • G02B1/118B29C33/42B29C45/00Y10T428/24355
    • A process for producing through simple operations a molding die for optical device having an antireflective structure of nano-order microscopic uneven plane on a substratum surface. The molding die for optical device having microscopic uneven plane (antireflective structure die plane) on a surface of substratum is produced by a process comprising forming one or more etching transfer layers on substratum; forming thin film for formation of semispherical microparticles on the etching transfer layers; causing the thin film to undergo aggregation, or decomposition, or nucleation of the material by the use of any of thermal reaction, photoreaction and gas reaction or a combination of these reactions so as to form multiple semispherical islandlike microparticles; and using the multiple islandlike microparticles as a protective mask, carrying out sequential etching of the etching transfer layers and substratum by reactive gas to thereby form a conical pattern on the microscopic surface of the substratum.
    • 一种用于通过简单操作生产用于在基底表面上具有纳米级微观不平坦面的抗反射结构的光学装置的模具的方法。 通过包括在基底上形成一个或多个蚀刻转移层的方法,制备在基底表面上具有微观不平坦平面(抗反射结构裸片平面)的光学器件用成型模具。 在蚀刻转印层上形成用于形成半球形微粒的薄膜; 通过使用任何热反应,光反应和气体反应或这些反应的组合,使薄膜发生聚集,分解或成核,从而形成多个半球状的岛状微粒; 并使用多岛状微粒作为保护掩模,通过反应性气体进行蚀刻转移层和底层的顺序蚀刻,从而在基底的微观表面上形成圆锥形图案。
    • 7. 发明申请
    • HIGH DENSITY OPTICAL DISK AND REPRODUCTION/TRACKING CONTROL METHOD
    • 高密度光盘和复制/跟踪控制方法
    • US20100142362A1
    • 2010-06-10
    • US12088216
    • 2006-09-25
    • Kazuma KuriharaYuzo YamakawaTakashi NakanoJunji Tominaga
    • Kazuma KuriharaYuzo YamakawaTakashi NakanoJunji Tominaga
    • G11B7/24G11B20/00
    • G11B7/24079G11B7/0901G11B7/24085
    • When a method for increasing density by providing a tracking guide such as a land/groove and introducing a plurality of strings of super-resolution pits into one track thereof is applied to a reproduction-dedicated optical disk, there are problems in that the production cost is increased, the structure is complicated, and the space which can be used for a recording pits is narrowed because of the land/groove structure.In the invention, a concept of group tracking is applied. One track is formed by a plurality of pit strings having a size not greater than the optical resolution limit in the radial direction and a size not less than or not greater than the optical resolution limit or only not greater than the optical resolution limit in the tangential direction. Reproduction of the super-resolution pit itself is performed by using a non-linear phenomenon generated locally, but, in tracking, a plurality of strings of pits are considered to be one track, and detection of the movement of a laser light for read out is realized by the method used for an existing optical disk by using a reflected light or a transmitted light from the optical disk.
    • 当通过提供诸如平台/凹槽的跟踪引导件和将多个超分辨率凹坑串引入其一个轨道中的密度增加的方法被应用于再现专用光盘时,存在生产成本 增加,结构复杂,可以用于记录坑的空间由于槽脊/槽结构而变窄。 在本发明中,应用了组跟踪的概念。 一个轨迹由具有不大于径向的光学分辨率极限的尺寸的多个凹坑串形成,并且尺寸不小于或不大于光学分辨率极限,或者不大于切向中的光学分辨率极限 方向。 通过使用局部产生的非线性现象来实现超分辨率凹坑本身的再现,但是在跟踪中,多个凹坑串被认为是一个轨道,并且检测用于读出的激光的移动 通过使用来自光盘的反射光或透射光通过用于现有光盘的方法来实现。