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    • 7. 发明授权
    • Wavelength division multiplexing/demultiplexing devices employing patterned optical components
    • 采用图案化光学元件的波分复用/解复用器件
    • US06594415B1
    • 2003-07-15
    • US09903613
    • 2001-07-13
    • Gregory G. CappielloRobert H. Dueck
    • Gregory G. CappielloRobert H. Dueck
    • G02B628
    • G02B6/2931G02B6/2938
    • Improved wavelength division multiplexing/demultiplexing devices are disclosed. In the case of an improved wavelength division multiplexing device having a diffraction grating for combining a plurality of narrowband optical beams into a multiplexed, polychromatic optical beam, wherein the plurality of narrowband optical beams are received from a corresponding plurality of optical sources and the multiplexed, polychromatic optical beam is transmitted to a corresponding optical receiver, the improvement comprises employing a plurality of patterned optical input components corresponding to the plurality of narrowband optical beams and the plurality of optical sources for introducing a first patterned phase delay into the plurality of narrowband optical beams, wherein each of the plurality of patterned optical input components has an effective focal length such that each of the plurality of optical sources is disposed substantially inside the effective focal length of a corresponding one of the plurality of patterned optical input components. The improvement also comprises similarly employing a patterned optical output component for introducing a second patterned phase delay into the multiplexed, polychromatic optical beam.
    • 公开了改进的波分复用/解复用器件。 在具有用于将多个窄带光束组合成复用多色光束的衍射光栅的改进的波分复用装置的情况下,其中从相应的多个光源接收多个窄带光束并且被多路复用, 多色光束被传输到对应的光接收机,改进之处在于采用与多个窄带光束相对应的多个图案化光输入部件和多个光源,用于将第一图案化相位延迟引入到多个窄带光束 其中,所述多个图案化光学输入部件中的每一个具有有效焦距,使得所述多个光源中的每一个基本上位于所述多个图案化光学输入部件中对应的一个的有效焦距的内侧。 该改进还包括类似地采用用于将第二图案化相位延迟引入复用的多色光束的图案化光输出部件。
    • 8. 发明授权
    • Wavelength division multiplexing/demultiplexing devices employing patterned optical components
    • 采用图案化光学元件的波分复用/解复用器件
    • US06415073B1
    • 2002-07-02
    • US09545826
    • 2000-04-10
    • Gregory G. CappielloRobert H. Dueck
    • Gregory G. CappielloRobert H. Dueck
    • G02B628
    • G02B6/2931G02B6/2938
    • Improved wavelength division multiplexing/demultiplexing devices are disclosed. In the case of an improved wavelength division multiplexing device having a diffraction grating for combining a plurality of monochromatic optical beams into a multiplexed, polychromatic optical beam, the improvement comprises employing a plurality of patterned optical input components corresponding to the plurality of monochromatic optical beams, wherein each of the plurality of patterned optical input components introduces a first patterned phase delay into a corresponding one of the plurality of monochromatic optical. beams. The improvement also comprises employing a patterned optical output component for introducing a second patterned phase delay into the multiplexed, polychromatic optical beam, wherein the first patterned phase delay and the second patterned phase delay are added so as to reshape the passband of the improved wavelength division multiplexing device.
    • 公开了改进的波分复用/解复用器件。 在具有用于将多个单色光束组合成复用多色光束的衍射光栅的改进的波分复用装置的情况下,改进包括采用对应于多个单色光束的多个图案化光输入部件, 其中所述多个图案化光学输入部件中的每一个将第一图案化相位延迟引入所述多个单色光学器件中的对应的一个。 梁。 该改进还包括采用图案化光输出部件,用于将第二图案化相位延迟引入复用的多色光束,其中添加第一图案化相位延迟和第二图案化相位延迟,以便重新改进改进的波长分割的通带 复用设备。
    • 10. 发明授权
    • Athermalization and pressure desensitization of diffraction grating based spectrometer devices
    • 基于衍射光栅的光谱仪器件的热化和压力脱敏
    • US06556297B1
    • 2003-04-29
    • US09724638
    • 2000-11-28
    • Gregory G. Cappiello
    • Gregory G. Cappiello
    • G01J328
    • H04J14/02G01J3/02G01J3/0208G01J3/0286G01J3/14G01J3/18G01J3/2803G02B5/18G02B6/2931G02B6/29385G02B6/29398G02B7/008G02B7/028G02B27/1073G02B27/108G02B27/1086G02B27/123G02B27/126H04B10/077H04B10/07955H04J14/0201
    • A device for monitoring wavelength division multiplexed optical signals for use in an optical network and in an optical performance monitor. A device has a structure for supporting components of the device. An optical component is supported at one end of the structure for transmitting the optical signals. A diffraction grating is supported at an opposing end of the structure for diffracting the optical signals from the optical component. An optical sensor is supported in relation to the diffraction grating by the structure for monitoring the optical signals. A telephoto lens assembly is supported by the structure and disposed between the optical sensor and the diffraction grating, the lens assembly having a focal length for focusing the optical signals in relation to the optical sensor. Thermal effects on the structure are balanced against thermal effects on the lens assembly. A prism is disposed between the lens assembly and diffraction grating. The prism is configured to anamorphically compress the diffracted optical signals. Thermal effects on the diffraction grating are balanced against thermal effects on the lens and prism.
    • 一种用于监视在光网络和光学性能监视器中使用的波分复用光信号的装置。 装置具有用于支撑装置的部件的结构。 光学部件被支撑在用于传输光信号的结构的一端。 衍射光栅被支撑在用于衍射光学部件的光学信号的结构的相对端。 通过用于监测光信号的结构,相对于衍射光栅支撑光学传感器。 长焦透镜组件由该结构支撑并且设置在光学传感器和衍射光栅之间,透镜组件具有用于相对于光学传感器聚焦光学信号的焦距。 对结构的热效应与透镜组件的热效应相平衡。 棱镜设置在透镜组件和衍射光栅之间。 棱镜被配置成变形地压缩衍射的光信号。 对衍射光栅的热效应与透镜和棱镜上的热效应相平衡。