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    • 3. 发明授权
    • Optical information processor and optical element
    • 光信息处理器和光学元件
    • US06618343B1
    • 2003-09-09
    • US09436847
    • 1999-11-09
    • Youichi SaitohJunichi AsadaYuichi TakahashiSeiji NishiwakiKenji NagashimaKazuo MomooJunji Nagaoka
    • Youichi SaitohJunichi AsadaYuichi TakahashiSeiji NishiwakiKenji NagashimaKazuo MomooJunji Nagaoka
    • G11B700
    • G11B7/139G11B7/1353
    • An optical disk device has an aperture of an objective lens in an incoming path of a beam from a semiconductor laser to an optical disk formed larger than an aperture in a return path from the optical disk or an aperture is varied in recording and in reproduction. This configuration improves recording/reproducing ability since light is focused on an optical disk with high numerical aperture. In addition, since reflected light from the optical disk is detected with low numerical aperture, margins for tilt and defocus are not reduced. Furthermore, since unnecessary signal components contained in the reflected light can be eliminated, a S/N (signal-to-noise ratio) of an information signal also increases. Thus, a high-performance optical disk device can be obtained. Alternatively, by varying the aperture of an objective lens in recording and in reproduction, an optical disk device in which recording density and recording quality are increased without deteriorating reproduction quality can be obtained.
    • 光盘装置在从半导体激光器到形成大于来自光盘的返回路径的孔径的光盘的入射路径中具有物镜的孔径,或者在记录和重放中变化。 这种配置改善了记录/再现能力,因为光聚焦在具有高数值孔径的光盘上。 此外,由于以较低的数值孔径检测出来自光盘的反射光,因此不会降低用于倾斜和散焦的余量。 此外,由于可以消除包含在反射光中的不必要的信号分量,信息信号的S / N(信噪比)也增加。 因此,可以获得高性能光盘装置。 或者,通过在记录和再现中改变物镜的孔径,可以获得其中增加记录密度和记录质量而不恶化再现质量的光盘装置。
    • 9. 发明授权
    • Optical information processor and optical element
    • 光信息处理器和光学元件
    • US06888787B2
    • 2005-05-03
    • US10617167
    • 2003-07-10
    • Youichi SaitohJunichi AsadaYuichi TakahashiSeiji NishiwakiKenji NagashimaKazuo MomooJunji Nagaoka
    • Youichi SaitohJunichi AsadaYuichi TakahashiSeiji NishiwakiKenji NagashimaKazuo MomooJunji Nagaoka
    • G11B7/09G11B7/135G11B7/00
    • G11B7/139G11B7/1353
    • An optical disk device has an aperture of an objective lens in an incoming path of a beam from a semiconductor laser to an optical disk formed larger than an aperture in a return path from the optical disk or an aperture is varied in recording and in reproduction. This configuration improves recording/reproducing ability since light is focused on an optical disk with high numerical aperture. In addition, since reflected light from the optical disk is detected with low numerical aperture, margins for tilt and defocus are not reduced. Furthermore, since unnecessary signal components contained in the reflected light can be eliminated, a S/N (signal-to-noise ratio) of an information signal also increases. Thus, a high-performance optical disk device can be obtained. Alternatively, by varying the aperture of an objective lens in recording and in reproduction, an optical disk device in which recording density and recording quality are increased without deteriorating reproduction quality can be obtained.
    • 光盘装置在从半导体激光器到形成大于来自光盘的返回路径的孔径的光盘的入射路径中具有物镜的孔径,或者在记录和重放中变化。 这种配置改善了记录/再现能力,因为光聚焦在具有高数值孔径的光盘上。 此外,由于以较低的数值孔径检测出来自光盘的反射光,因此不会降低用于倾斜和散焦的余量。 此外,由于可以消除包含在反射光中的不必要的信号分量,信息信号的S / N(信噪比)也增加。 因此,可以获得高性能光盘装置。 或者,通过在记录和再现中改变物镜的孔径,可以获得其中增加记录密度和记录质量而不恶化再现质量的光盘装置。