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    • 55. 发明授权
    • Coupling between free space and optical waveguide using etched coupling surfaces
    • 使用蚀刻的耦合表面在自由空间和光波导之间耦合
    • US08121450B2
    • 2012-02-21
    • US12316540
    • 2008-12-11
    • Mark WebsterVipulkumar PatelMary NadeauPrakash GothoskarDavid Piede
    • Mark WebsterVipulkumar PatelMary NadeauPrakash GothoskarDavid Piede
    • G02B6/32G02B6/26G02B6/42
    • G02B6/32G02B6/305G02B6/327
    • A plasma-based etching process is used to specifically shape the endface of an optical substrate supporting an optical waveguide into a contoured facet which will improve coupling efficiency between the waveguide and a free space optical signal. The ability to use standard photolithographic techniques to pattern and etch the optical endface facet allows for virtually any desired facet geometry to be formed—and replicated across the surface of a wafer for the entire group of assemblies being fabricated. A lens may be etched into the endface using a properly-defined photolithographic mask, with the focal point of the lens selected with respect to the parameters of the optical waveguide and the propagating free space signal. Alternatively, an angled facet may be formed along the endface, with the angle sufficient to re-direct reflected/scattered signals away from the optical axis.
    • 使用基于等离子体的蚀刻工艺来将支撑光波导的光学基板的端面特别地成形为轮廓刻面,这将提高波导与自由空间光信号之间的耦合效率。 使用标准光刻技术对光学端面小平面进行图案化和刻蚀的能力允许形成任何所需的刻面几何形状,并跨越制造的整组组件在晶片的表面上复制。 可以使用适当限定的光刻掩模将透镜蚀刻到端面中,相对于光波导的参数和传播的自由空间信号选择透镜的焦点。 或者,可以沿着端面形成成角度的小面,其角度足以将反射/散射信号重新引导远离光轴。
    • 57. 发明授权
    • Silicon modulator offset tuning arrangement
    • 硅调制器偏移调谐布置
    • US07697793B2
    • 2010-04-13
    • US12290285
    • 2008-10-29
    • Mark WebsterVipulkumar PatelPrakash Gothoskar
    • Mark WebsterVipulkumar PatelPrakash Gothoskar
    • G02B6/12G02F1/295
    • G02F1/025G02F1/0147G02F1/225G02F2201/126
    • A silicon-based optical modulator structure includes one or more separate localized heating elements for changing the refractive index of an associated portion of the structure and thereby providing corrective adjustments to address unwanted variations in device performance. Heating is provided by thermo-optic devices such as, for example, silicon-based resistors, silicide resistors, forward-biased PN junctions, and the like, where any of these structures may easily be incorporated with a silicon-based optical modulator. The application of a DC voltage to any of these structures will generate heat, which hen transfers into the waveguiding area. The increase in local temperature of the waveguiding area will, in turn, increase the refractive index of the waveguiding in the area. Control of the applied DC voltage results in controlling the refractive index.
    • 基于硅的光学调制器结构包括一个或多个单独的局部加热元件,用于改变结构的相关部分的折射率,从而提供校正调整以解决器件性能的不期望的变化。 加热由诸如硅基电阻器,硅化物电阻器,正向偏置PN结等的热光器件提供,其中这些结构中的任何一个可以容易地与硅基光学调制器结合。 对这些结构中的任一个施加直流电压将产生热量,母鸡转移到波导区域中。 波导区域的局部温度的增加又将增加该区域中波导的折射率。 施加的直流电压的控制导致控制折射率。
    • 59. 发明申请
    • Offset launch mode from nanotaper waveguide into multimode fiber
    • 从纳米孔波导到多模光纤的偏移发射模式
    • US20090123114A1
    • 2009-05-14
    • US12218367
    • 2008-07-15
    • Mark WebsterPrakash GothoskarVipulkumar PatelDavid Piede
    • Mark WebsterPrakash GothoskarVipulkumar PatelDavid Piede
    • G02B6/35
    • G02B6/30G02B6/3598G02B6/3636G02B6/3652G02B6/3692G02B6/4249
    • One or more nanotaper coupling waveguides formed within an optical substrate allows for straightforward, reproducible offset launch conditions to be achieved between an incoming signal and the core region of a multimode fiber (which may be disposed along an alignment fixture formed in the optical substrate), fiber array or other multimode waveguiding structure. Offset launching of a single mode signal into a multimode fiber couples the signal into favorable spatial modes which reduce the presence of differential mode dispersion along the fiber. This approach to providing single mode signal coupling into legacy multimode fiber is considered to be an improvement over the prior art which required the use of an interface element between a single mode fiber and multimode fiber, limiting the number of propagating signals and applications for the legacy multimode fiber. An optical switch may be used to select the specific nanotaper(s) for coupling into the multimode fiber.
    • 形成在光学衬底内的一个或多个纳米锥耦合波导允许在多模光纤(其可以沿着形成在光学衬底中的对准夹具设置)的入射信号和芯区域之间实现简单,可再现的偏移发射条件, 光纤阵列或其他多模波导结构。 偏移将单模信号发射到多模光纤中将信号耦合到有利的空间模式,这降低了沿着光纤的差分色散的存在。 将单模信号耦合提供给传统多模光纤的这种方法被认为是对需要使用单模光纤和多模光纤之间的接口元件的现有技术的改进,限制了传播信号的数量和遗留的应用 多模光纤 可以使用光学开关来选择用于耦合到多模光纤的特定纳米锥。
    • 60. 发明申请
    • Silicon modulator offset tuning arrangement
    • 硅调制器偏移调谐布置
    • US20090110342A1
    • 2009-04-30
    • US12290285
    • 2008-10-29
    • Mark WebsterVipulkumar PatelPrakash Gothoskar
    • Mark WebsterVipulkumar PatelPrakash Gothoskar
    • G02F1/035
    • G02F1/025G02F1/0147G02F1/225G02F2201/126
    • A silicon-based optical modulator structure includes one or more separate localized heating elements for changing the refractive index of an associated portion of the structure and thereby providing corrective adjustments to address unwanted variations in device performance. Heating is provided by thermo-optic devices such as, for example, silicon-based resistors, silicide resistors, forward-biased PN junctions, and the like, where any of these structures may easily be incorporated with a silicon-based optical modulator. The application of a DC voltage to any of these structures will generate heat, which then transfers into the waveguiding area. The increase in local temperature of the waveguiding area will, in turn, increase the refractive index of the waveguiding in the area. Control of the applied DC voltage results in controlling the refractive index
    • 基于硅的光学调制器结构包括一个或多个单独的局部加热元件,用于改变结构的相关部分的折射率,从而提供校正调整以解决器件性能的不期望的变化。 加热由诸如硅基电阻器,硅化物电阻器,正向偏置PN结等的热光器件提供,其中这些结构中的任何一个可以容易地与硅基光学调制器结合。 对这些结构中的任何一个施加直流电压将产生热量,然后传递到波导区域。 波导区域的局部温度的增加又将增加该区域中波导的折射率。 施加的直流电压的控制导致控制折射率