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    • 1. 发明申请
    • Coupling optical system for optical communications
    • 光通信耦合光学系统
    • US20060262427A1
    • 2006-11-23
    • US11429988
    • 2006-05-09
    • Masao MoriYu KitaharaMakoto OomuraYoko YamamotoToshiaki Katsuma
    • Masao MoriYu KitaharaMakoto OomuraYoko YamamotoToshiaki Katsuma
    • G02B13/02G01J1/04
    • G02B6/4206G02F1/167G02F2001/294
    • A coupling optical system for coupling light into an optical fiber of an optical communications system includes a liquid that includes a dispersion of microscopic particles and two transparent media that hold the liquid between them along an optical axis. The refractive power of the liquid is variable according to the electromagnetic field applied to the liquid to vary the migration of the microscopic particles of the dispersion within the liquid. The position of a light collecting point of the coupling optical system is adjustable based on the variation in the refractive power of the liquid so that light can be efficiently coupled into optical fibers at different distances along the optical axis from the coupling optical system. At the light collecting point, the end surface of an optical fiber collects light from a light source or another optical fiber. One or more collimator lenses may help converge the light.
    • 用于将光耦合到光通信系统的光纤中的耦合光学系统包括液体,其包括微观颗粒的分散体和沿着光轴将液体保持在它们之间的两个透明介质。 液体的屈光力根据施加到液体的电磁场而变化,以改变液体中分散体的微观颗粒的迁移。 耦合光学系统的聚光点的位置可以基于液体的屈光力的变化来调节,使得光可以有效地耦合到光耦合光学系统沿光轴不同的距离。 在光收集点,光纤的端面收集来自光源或另一光纤的光。 一个或多个准直透镜可以帮助会聚光。
    • 6. 发明申请
    • Objective optical system and optical pickup device using it
    • 物镜光学系统和使用它的光学拾取装置
    • US20050259554A1
    • 2005-11-24
    • US11128279
    • 2005-05-13
    • Toshiaki KatsumaMasao MoriTetsuya OriYu Kitahara
    • Toshiaki KatsumaMasao MoriTetsuya OriYu Kitahara
    • G11B7/135G11B7/00
    • G11B7/1367G11B7/1374G11B7/1376G11B7/13922G11B2007/0006G11B2007/13727
    • An objective optical system is formed of a diffractive optical element with a diffractive surface formed on a planar ‘virtual surface’ (i.e., a surface that would be planar but for the diffractive structure) and an objective lens for focusing three collimated light beams of three different wavelengths at three different numerical apertures onto desired positions of three different recording media with substrates of different thicknesses, such as an AOD, a DVD, and a CD, that introduce different amounts of spherical aberration in the focused beams. The objective optical system provides compensating spherical aberration to the three light beams while keeping equal the distance between the diffractive optical element and the objective lens, and focuses second-order diffracted light of one wavelength and first-order diffracted light of the other two wavelengths. An optical pickup device includes the objective optical system, the recording media, and a light source supplying the three light beams.
    • 物镜光学系统由具有衍射面的衍射光学元件形成,该衍射面形成在平面“虚拟表面”(即,对于衍射结构为平面的表面)和用于聚焦三个准直光束的物镜 不同波长的三个不同数值孔径到具有不同厚度的衬底(例如AOD,DVD和CD)的三种不同记录介质的所需位置,其在聚焦光束中引入不同量的球面像差。 物镜光学系统对三个光束提供补偿球面像差,同时保持衍射光学元件和物镜之间的距离相等,并且聚焦一个波长的二次衍射光和另外两个波长的一次衍射光。 光拾取装置包括物镜光学系统,记录介质和提供三个光束的光源。