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    • 1. 发明授权
    • Variable dispersion compensator and optical transmission system
    • 可变色散补偿器和光传输系统
    • US06892003B2
    • 2005-05-10
    • US10114321
    • 2002-04-03
    • Makoto KatayamaToshiaki OkunoMasayuki NishimuraTomomi SanoMasakazu ShigeharaHiroshi SuganumaToru IwashimaTomohiko Kanie
    • Makoto KatayamaToshiaki OkunoMasayuki NishimuraTomomi SanoMasakazu ShigeharaHiroshi SuganumaToru IwashimaTomohiko Kanie
    • H04B10/18G02B6/26G02B6/35H04J14/02
    • H04B10/25133
    • An optical signal, which is to become the subject of dispersion compensation, is split by optical combining/splitting unit 2, and each frequency component of the optical signal that is split is reflected by the corresponding reflective mirror 30 included in reflective mirror group 3 to apply a predetermined phase shift to the respective frequency components Each reflected frequency component is then combined using optical combining/splitting unit 2, to give dispersion compensated optical signal Furthermore, in regards to reflective mirror group 3, which is used to apply phase shift to each frequency component of an optical signal, each of the respective plurality of reflective mirrors 30 is made a movable mirror having a movable reflection position that reflects the frequency components. Through this, dispersion that develops in an optical signal may be compensated with favorable controllability and high accuracy. Therefore, the precision and controllability of dispersion compensation will become superior, and realized is a variable dispersion compensator having a miniaturized optical circuit, and an optical transmission system comprising such variable dispersion compensator,
    • 要成为色散补偿的对象的光信号被光学合成/分离单元2分离,并且被分离的光信号的每个频率分量被包括在反射镜组3中的相应的反射镜30反射到 对相应的频率分量施加预定的相移。然后使用光学合成/分离单元2组合每个反射频率分量,以产生色散补偿的光信号。此外,关于反射镜组3,其用于将相移施加到每个 光信号的频率分量,各个反射镜30中的每一个被制成具有反映频率分量的可移动反射位置的可移动反射镜。 由此,可以以良好的可控性和高精度补偿在光信号中产生的色散。 因此,色散补偿的精度和可控性将变得更好,并且实现了具有小型化光电路的可变色散补偿器和包括这种可变色散补偿器的光传输系统,
    • 6. 发明授权
    • Interleaver
    • 交织器
    • US06724539B2
    • 2004-04-20
    • US10281309
    • 2002-10-28
    • Tamoya KenmochiHiroshi SuganumaTomomi SanoTetsuya Iimura
    • Tamoya KenmochiHiroshi SuganumaTomomi SanoTetsuya Iimura
    • G02B2714
    • G02B6/29349G02B6/29386
    • The light which is input from an optical fiber to a first port is output to an optical path. The light which is input from the optical path to a half mirror is branched into two, and is output to the optical paths. The light which is output to the optical path reaches to and is reflected from a first reflecting mirror, and returns to the half mirror by an optical path. The light which is input to the half mirror by the optical path is branched into two, and is output to the optical paths. The light which is output to the optical path reaches to and is reflected from a second reflecting mirror, and returns to the half mirror by an optical path. The light which is input to the half mirror by the optical path is branched into two, and is output to the optical paths. The light which is output to the optical path is output from a second port to an optical fiber, and the light which is output to the optical path is output from a third port to an optical fiber.
    • 从光纤输入到第一端口的光被输出到光路。 从光路输入到半反射镜的光被分支为两个,并被输出到光路。 输出到光路的光到达并被第一反射镜反射,并通过光路返回到半反射镜。 通过光路输入到半反射镜的光被分支为两个,并被输出到光路。 输出到光路的光到达并被第二反射镜反射,并通过光路返回到半反射镜。 通过光路输入到半反射镜的光被分支为两个,并被输出到光路。 输出到光路的光从第二端口输出到光纤,并且输出到光路的光从第三端口输出到光纤。
    • 7. 发明申请
    • Polarization interleaver and optical communication system
    • 极化交织器和光通信系统
    • US20050013007A1
    • 2005-01-20
    • US10499038
    • 2002-12-10
    • Tomomi SanoHiroshi SuganumaTamoya Kenmochi
    • Tomomi SanoHiroshi SuganumaTamoya Kenmochi
    • G02B5/30H04J14/02H04J14/06G02B27/14
    • G02B5/3083H04J14/02H04J14/06
    • In a polarized wave interleaver 100, signal light of a first wavelength band Λ1 of polarized light component in a first orientation, which enters an input port 111, proceeds to a first path P1 through a first polarized wave separation element 131. Even after passing through a wavelength filter 140, the polarized light component in the first orientation is maintained as it is. And the light proceeds to a third path P3 through a second polarized wave separation element 132, and is output from a first output port 121. Signal light of a second wavelength band Λ2 of polarized light component in a second orientation, which enters the input port 111, proceeds to a second path P2 through the first polarized wave separation element 131, and is converted to the polarized light component in the first orientation by the wavelength filter 140. And the light proceeds to a fourth path P4 through the second polarized wave separation element 132, and is output from a second output port 122. The wavelength filter 140 includes a first multi-refraction material 141, a second multi-refraction material 142 and a third multi-refraction material 143. The optical thickness of the three multi-refraction materials 141-143 has a predetermined ratio; and the orientation of the C axis falls within a predetermined range.
    • 在偏振波交织器100中,进入输入端口111的第一取向的偏振光分量的第一波长带λ1的信号光通过第一偏振波分离元件131进入第一路径P1。 一个波长滤波器140,保持第一取向中的偏振光分量原样。 并且光通过第二偏振波分离元件132进入第三路径P3,并且从第一输出端口121输出。第二方向的偏振光分量的第二波长带λ2的信号光进入输入端口 111通过第一偏振波分离元件131进入第二路径P2,并通过波长滤波器140被转换成第一取向的偏振光分量。并且光通过第二偏振波分离进行到第四路径P4 元件132,并且从第二输出端口122输出。波长滤波器140包括第一多折射材料141,第二多折射材料142和第三多折射材料143.三个多折射材料141的光学厚度, 折射材料141-143具有预定比例; 并且C轴的取向落在预定范围内。
    • 9. 发明授权
    • Optical signal processor
    • 光信号处理器
    • US06810170B2
    • 2004-10-26
    • US10458374
    • 2003-06-11
    • Michiko TakushimaTomomi SanoHiroshi Suganuma
    • Michiko TakushimaTomomi SanoHiroshi Suganuma
    • G02B628
    • G02B6/29307G02B6/29313G02B6/2938
    • Light output from the distal end of an optical fiber collimator is input to a first diffraction grating formed on a first surface of a transparent member, and diffracted by the first diffraction grating at angles corresponding to wavelengths, and thus wavelength-branched. The light components of the respective wavelengths branched by the first diffraction grating and having propagated through the transparent member, are diffracted by a second diffraction grating formed on a second surface of the transparent member, and output from the transparent member. Each of the light components of the respective wavelengths, which are diffracted by the second diffraction grating and output from the transparent member, is input to the distal end of a corresponding one of optical fiber collimators, focused, and propagates through the optical fiber.
    • 从光纤准直器的远端输出的光输入到形成在透明构件的第一表面上的第一衍射光栅,并由第一衍射光栅以对应于波长的角度衍射,因此波长分支。 由第一衍射光栅分支且已经透过透明构件的各波长的光分量被形成在透明构件的第二表面上的第二衍射光栅衍射,并从透明构件输出。 通过第二衍射光栅衍射并从透明构件输出的各个波长的每个光分量被输入到相应的一个光纤准直器的远端,聚焦并且传播通过光纤。