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    • 1. 发明授权
    • Apparatus for measuring surface form
    • 用于测量表面形状的装置
    • US06459493B1
    • 2002-10-01
    • US08663742
    • 1996-06-14
    • Minako SugiuraShigeo KubotaNaoya Eguchi
    • Minako SugiuraShigeo KubotaNaoya Eguchi
    • G01B1124
    • G01B11/06
    • A second harmonic generating element radiates a laser beam having a wavelength of 532 nm onto a substrate surface. The laser beam corresponds to the second harmonic beam of a fundamental laser beam having a wavelength of 1064 nm. An emitting optical system emits the laser beam vertically to the substrate surface so that the laser beam is made linear. An observing means has a optical axis Lo oriented in a different direction from a optical axis Li of the emitting optical system and provides a CCD image sensor served as a two-dimensional imaging device located in conjugation with the height or thickness of the substrate surface. The observing means operates to observe a light section image formed by the linear beam fired by the emitting optical system onto the substrate surface. Then, an image processing means precisely measures the form of the surface of an object to be measured as suppressing degrade of an S/N ratio, on the basis of the image data of the light section image observed by the observing means.
    • 二次谐波发生元件将具有532nm波长的激光束辐射到衬底表面上。 激光束对应于波长为1064nm的基本激光束的二次谐波。 发射光学系统将激光束垂直地发射到衬底表面,使得激光束被线性化。 观察装置具有沿与发射光学系统的光轴Li不同的方向定向的光轴Lo,并且提供用作与基板表面的高度或厚度共轭的二维成像装置的CCD图像传感器。 观察装置用于观察由发射光学系统激发的线性光束形成的光线图像到基板表面上。 然后,图像处理装置基于由观察装置观察到的光截面图像的图像数据,精确地测量待测物体的表面的形状,以抑制S / N比的降低。
    • 2. 再颁专利
    • Optical pickup device
    • 光学拾取装置
    • USRE37717E1
    • 2002-05-28
    • US09556129
    • 2000-04-20
    • Naoya EguchiShigeo Kubota
    • Naoya EguchiShigeo Kubota
    • G02B900
    • G11B7/1381G02B5/005G11B7/1369G11B7/1374G11B7/139G11B7/13922G11B2007/0006G11B2007/13727
    • An optical pickup device for condensing the light from a light source on a signal recording surface by an objective lens and for detecting the return light from the signal recording surface by a light detection unit is disclosed. The optical pickup device is capable of recording and/or reproducing at least two different sorts of optical recording media. The light beam radiated from a light source is condensed by an objective lens. An aperture varying unit varies the size of an aperture of the objective lens depending upon the sorts of the optical recording media. The return light from the optical recording medium is detected by a light detection unit. The size of the aperture of the objective lens for condensing the light from the light source is varied depending upon the difference in substrate thickness of the different sorts of the optical recording media, thus assuring high-quality recording/reproduction for two or more different sorts of optical recording media.
    • 公开了一种光拾取装置,用于通过物镜将来自光源的光聚焦在信号记录表面上,并且用于通过光检测单元检测来自信号记录表面的返回光。 光学拾取装置能够记录和/或再现至少两种不同种类的光学记录介质。 从光源辐射的光束被物镜会聚。 孔径变化单元根据光学记录介质的种类来改变物镜的孔径的尺寸。 来自光记录介质的返回光由光检测单元检测。 用于聚光来自光源的光的物镜的孔径的大小根据不同种类的光学记录介质的基板厚度的差异而变化,从而确保用于两种或多种不同类型的高质量记录/再现 的光学记录介质。
    • 3. 发明授权
    • Lens device, ultraviolet-ray emitting device, and optical disc recording
device
    • 透镜装置,紫外线发射装置和光盘记录装置
    • US5852508A
    • 1998-12-22
    • US649759
    • 1996-05-15
    • Shigeo KubotaNaoya Eguchi
    • Shigeo KubotaNaoya Eguchi
    • G02B13/18G02B1/10G02B3/02G02B13/14G11B7/135G02B9/04
    • G11B7/1378G02B13/143
    • A lens device for focusing a beam of an ultraviolet-ray region, provided with at least one aspherical lens made of synthetic quartz in which an aspherical portion is formed by a coating a fluororesin on a spherical portion of a side polished to a spherical surface; an ultraviolet-ray emitting device provided with a laser beam source emitting a beam in the ultraviolet-ray region and an object lens which has at least one of the above aspherical lenses; and an optical disc recording device provided with a laser beam source emitting a beam in the ultraviolet-ray region, a light intensity modulating means for modulating the intensity of the laser beam emitted from the laser beam source in accordance with a data signal; and the above object lens.
    • 一种透镜装置,用于聚焦紫外线区域的光束,所述透镜装置设置有至少一个由合成石英制成的非球面透镜,其中通过在抛光到球面的一侧的球形部分上涂覆氟树脂而形成非球面部分; 设置有在紫外线区域发射光束的激光束源的紫外线发射装置和具有至少一个上述非球面透镜的物镜; 以及设置有在紫外线区域发射光束的激光束源的光盘记录装置,用于根据数据信号调制从激光束源发射的激光束的强度的光强调制装置; 和上述物镜。
    • 9. 发明申请
    • 3-D image display unit
    • 3-D图像显示单元
    • US20050225629A1
    • 2005-10-13
    • US10502733
    • 2003-12-02
    • Shigeo KubotaToshitaka KawashimaJunichi OhsakoNaoya Eguchi
    • Shigeo KubotaToshitaka KawashimaJunichi OhsakoNaoya Eguchi
    • G02B26/08G02B27/22H04N13/00H04N13/04
    • G02B27/2271G02B26/0808G02B27/2235G02B27/2242H04N13/388
    • The present invention is to provide a three-dimensional image display apparatus, in which three-dimensional images of a moving image and a still image are directly obtained without using a hologram technology and a high speed operation can be attained. The three-dimensional image display apparatus of the present invention includes an optical modulator array which modulates the light intensity of an incident light to be an image signal light and an optical deflector array which shifts an image focusing position of each pixel light from the optical modulator array in the direction of an optical axis to form a three-dimensional section image, wherein the optical modulator array is formed of a diffractive type array in which a plurality of light reflective films are driven and correspond to a light of one pixel and the optical reflector array 4 is formed of an array in which a plurality of light reflective films are driven and correspond to a light of one pixel.
    • 本发明提供一种三维图像显示装置,其中可以直接获得运动图像和静止图像的三维图像而不使用全息图技术并且可以实现高速操作。 本发明的三维图像显示装置包括调制作为图像信号光的入射光的光强度的光学调制器阵列和将来自光学调制器的每个像素光的图像聚焦位置偏移的光学偏转器阵列 在光轴的方向上排列以形成三维截面图像,其中光调制器阵列由衍射型阵列形成,其中多个光反射膜被驱动并对应于一个像素的光,并且光学 反射器阵列4由其中多个光反射膜被驱动并对应于一个像素的光的阵列形成。