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    • 2. 发明申请
    • Optical fiber illuminator, method of fabricating the optical fiber illuminator, and optical recording head and optical recording and reading apparatus having the optical fiber illuminator
    • 光纤照明装置,光纤照明装置的制造方法以及具有光纤照明装置的光记录头和光记录读取装置
    • US20060127003A1
    • 2006-06-15
    • US11262255
    • 2005-10-28
    • Kang ParkEun KimSung Lee
    • Kang ParkEun KimSung Lee
    • G02B6/26
    • G11B7/1387G02B6/241G02B6/262G02B6/32
    • Provided is an optical fiber illuminator used for recording and reading high density optical information according to a near field recording (NFR) scheme, a method of fabricating the optical fiber illuminator, and an optical recording head and recording apparatus having the optical fiber illuminator. The optical fiber illuminator includes: an optical fiber having a core upon which light is incident and a clad that surrounds the core, one end of the optical fiber having a mirror formed in an inclined manner; and a lens formed on an outer surface of the optical fiber for focusing light reflected by the mirror. The optical fiber illuminator has an improved optical arrangement for optical illumination and detection, it is easy to manufacture, its optical input is easy to control, and it can be readily provided in an array form. When an array type optical recording and reading apparatus having an optical recording head and multiple aperture probes adopts the optical fiber illuminator, the resulting simple arrangement and compact size enables size reduction of the overall apparatus, a signal to noise ratio is high, and high density optical information can be recorded and reproduced at an extremely high rate.
    • 提供了一种用于根据近场记录(NFR)方案记录和读取高密度光学信息的光纤照明器,制造光纤照明器的方法,以及具有光纤照明器的光学记录头和记录装置。 光纤照明器包括:具有光入射的芯和围绕芯的包层的光纤,光纤的一端具有以倾斜方式形成的反射镜; 以及形成在光纤的外表面上的用于聚焦由反射镜反射的光的透镜。 光纤照明器具有用于光学照明和检测的改进的光学布置,其易于制造,其光学输入易于控制,并且可以容易地以阵列形式提供。 当具有光学记录头和多个孔径探针的阵列型光学记录和读取装置采用光纤照明器时,所得到的简单布置和紧凑的尺寸使得整个装置的尺寸减小,信噪比高,并且高密度 可以以非常高的速率记录和再现光学信息。
    • 3. 发明申请
    • Small form factor optical/magnetic disk for information storage
    • 用于信息存储的小型光学/磁盘
    • US20060123441A1
    • 2006-06-08
    • US11288693
    • 2005-11-29
    • Woo CheongYong YooSung LeeHo RyuMun PaekEun KimKang Park
    • Woo CheongYong YooSung LeeHo RyuMun PaekEun KimKang Park
    • G11B7/24G11B23/03
    • G11B23/0035
    • Provided is a small form factor optical/magnetic disk including an integrated metal hub and a disk plate. The integrated metal hub includes a circular upper metal hub and a circular lower metal hub integrally formed with and disposed under the upper metal hub. The circular lower metal hub has a smaller diameter smaller than the upper metal hub. A central hole is formed in central portions of the upper and lower metal hubs and passes through the upper and lower metal hubs. The disk plate has a through-hole that is formed in a central portion and is directly associated with the integrated metal hub, and a recess that is formed around the through-hole and allows the upper metal hub to be mounted therein. Since the central portion of the small form factor optical/magnetic disk is not thick, the small form factor optical/magnetic disk can contribute to an ultra thin small form factor information storage device. Also, since manufacturing processes are simple, price and quality competitiveness can be enhanced.
    • 提供了包括集成金属毂和盘片的小型光学/磁盘。 集成金属毂包括圆形上金属毂和与上金属毂一体形成并设置在其下的圆形下金属毂。 圆形下部金属毂具有比上部金属毂更小的直径。 中心孔形成在上下金属轮毂的中心部分,并通过上下金属轮毂。 盘片具有形成在中心部分并且与集成金属毂直接相关联的通孔,以及形成在通孔周围并允许上金属毂安装在其中的凹部。 由于小型光学/磁盘的中心部分不厚,因此小型光学/磁盘可以有助于超薄型小尺寸信息存储装置。 此外,由于制造工艺简单,因此可以提高价格和质量竞争力。
    • 4. 发明申请
    • Method of fabricating near field optical probe
    • 制造近场光学探针的方法
    • US20050230345A1
    • 2005-10-20
    • US11020180
    • 2004-12-27
    • Eun KimSung LeeKi SongKang Park
    • Eun KimSung LeeKi SongKang Park
    • G01Q60/22B44C1/22G01Q70/18G11B7/135G11B9/14
    • G01Q60/22G11B7/1387
    • Provided is a method of fabricating a near-field optical probe adapted to a near-field scanning optical microscopy and a near-field information storage device, in which a cantilever and an optical tip are provided in one body and the optical tip is arranged to face the upper portion of the substrate. High-concentrated boron ions are implanted into an uppermost silicon layer of a silicon on insulator (SOI) substrate, and a silicon layer into which boron ions are implanted while the silicon inside the tip is etched to form the hole to act as an etch stop layer, thereby easily removing the silicon inside the tip even with the cantilever exposed, and simplifying the process due to the simultaneous fabrication of the cantilever and the tip.
    • 本发明提供一种制造适用于近场扫描光学显微镜和近场信息存储装置的近场光学探针的方法,其中悬臂和光学尖端设置在一体内,并且光学尖端布置成 面对基板的上部。 将高浓度硼离子注入到绝缘体上硅(SOI)衬底的最上层的硅层中,并且注入硼离子的硅层,同时蚀刻尖端内部的硅以形成蚀刻停止孔 从而即使悬臂暴露也容易去除尖端内的硅,并且由于悬臂和尖端的同时制造而简化了工艺。
    • 5. 发明申请
    • Drive head and personal atomic force microscope having the same
    • 驱动头和个人原子力显微镜具有相同的
    • US20060123895A1
    • 2006-06-15
    • US11298041
    • 2005-12-08
    • Sung LeeKang ParkEun Kim
    • Sung LeeKang ParkEun Kim
    • G01B5/28
    • G01Q10/04G01Q60/38
    • Provided are a drive head and a personal atomic force microscope having the same, and the drive head includes a cantilever provided with a bend detector and for moving a probe, a drive head for moving the cantilever up and down, and a scanner for moving a sample in x- and y-axis directions. The cantilever has a simple structure provided with the bend detector, and the drive head and the scanner are bi-directionally movable and have a large displacement due to the elasticity of the flexible hinge. The personal atomic force microscope has little hysteresis or creep due to its high linearity. Therefore, there is no necessity of a separate sensor system for calibration, and it is possible to obtain a desired image through a single initial calibration.
    • 提供具有该驱动头和个人原子力显微镜的驱动头和驱动头包括设置有弯曲检测器并用于移动探头的悬臂,用于上下移动悬臂的驱动头,以及用于移动 样品在x轴和y轴方向。 悬臂具有设置有弯曲检测器的简单结构,并且驱动头和扫描器是双向可移动的并且由于柔性铰链的弹性而具有大的位移。 个人原子力显微镜由于其高线性度而具有很小的滞后或蠕变。 因此,不需要用于校准的单独的传感器系统,并且可以通过单次初始校准获得期望的图像。
    • 8. 发明申请
    • Near-field optical probe based on SOI substrate and fabrication method thereof
    • 基于SOI衬底的近场光探针及其制造方法
    • US20070128854A1
    • 2007-06-07
    • US11633820
    • 2006-12-05
    • Eunkyoung KimSung LeeKang Park
    • Eunkyoung KimSung LeeKang Park
    • H01L21/4763
    • G01Q60/22Y10S977/873Y10S977/875Y10S977/878
    • Provided is near-field optical probe including: a cantilever arm support portion that is formed of a lower silicon layer of a silicon-on-insulator (SOI) substrate, the cantilever arm support portion having a through hole formed therein at a side of the lower silicon layer; and a cantilever arm forming of a junction oxidation layer pattern and an upper silicon layer pattern on the SOI substrate that are supported on an upper surface of the lower silicon layer and each have a smaller hole than the through hole, a silicon oxidation layer pattern having a tip including an aperture at a vertical end, corresponding with the hole on the upper silicon layer pattern, and an optical transmission prevention layer that is formed on the silicon oxidation layer pattern and does not cover the aperture.
    • 本发明提供的近场光学探针包括:由绝缘体上硅(SOI)衬底的下硅层形成的悬臂支撑部,所述悬臂臂支撑部在其一侧形成有通孔, 下硅层; 以及形成在所述SOI衬底上的结氧化层图案和上硅层图案的悬臂,所述支撑在所述下硅层的上表面上并且具有比所述通孔更小的孔,硅氧化层图案具有 对应于上硅层图案上的孔的垂直端的开孔,以及形成在硅氧化层图案上并且不覆盖该孔的防透光层。
    • 10. 发明授权
    • 3-dimension scanning system for computer-aided tooth modelling and method thereof
    • 计算机辅助牙齿建模的三维扫描系统及其方法
    • US07020325B2
    • 2006-03-28
    • US10148924
    • 2001-10-06
    • Kang Park
    • Kang Park
    • G06K9/00
    • A61C9/0053A61C5/77A61C13/0004
    • Disclosed is a 3-dimension (3D) scanning system for a computer-aided tooth modeling capable of extracting a configuration of a tooth into a 3D configuration data in a short time. The 3D scanning system includes an image detecting part for extracting an image data of a tooth plaster model, a moving part for changing a location and a position of the tooth plaster model measured by the image detecting part, and a control part for changing and controlling the location and the position of the tooth plaster model by controlling the moving part to measure the tooth plaster model using the image detecting part.
    • 公开了一种用于计算机辅助牙齿建模的三维(3D)扫描系统,其能够在短时间内将牙齿的构型提取为3D配置数据。 3D扫描系统包括用于提取牙膏模型的图像数据的图像检测部分,用于改变由图像检测部分测量的牙膏模型的位置和位置的移动部分,以及用于改变和控制的控制部分 通过使用图像检测部分控制移动部分来测量牙膏模型来确定牙膏模型的位置和位置。