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    • 21. 发明申请
    • Free space WDM signal detector
    • 自由空间WDM信号检测器
    • US20090027658A1
    • 2009-01-29
    • US11881557
    • 2007-07-27
    • Raymond G. BeausoleilWei WuDavid A. FattalMarco Fiorentino
    • Raymond G. BeausoleilWei WuDavid A. FattalMarco Fiorentino
    • G01N21/00
    • H04B10/1121
    • A system can include a transmitter that produces an optical signal having a plurality of carrier frequencies and a receiver separated from the transmitter by free space through which the optical signal propagates. The receiver includes an array of detectors of multiple types, with the types being capable of detecting light respectively having the carrier frequencies. A location of an incident area where the optical signal is incident on the detector array generally depends on a misalignment of the receiver relative to the transmitter, but the detectors in the detector array are arranged so that at least one detector of each of the types detects light from the optical signal regardless of where the incident area is on the detector array.
    • 系统可以包括产生具有多个载波频率的光信号的发射机,以及通过光信号传播的自由空间与发射机分离的接收机。 该接收机包括多种类型的检测器阵列,其类型能够检测分别具有载波频率的光。 光信号入射在检测器阵列上的入射区域的位置通常取决于接收器相对于发射器的未对准,但检测器阵列中的检测器被布置成使得每种类型的至少一个检测器检测 来自光信号的光,而不管入射面积在检测器阵列上的哪里。
    • 23. 发明申请
    • ANGLE SENSOR, SYSTEM AND METHOD EMPLOYING GUIDED-MODE RESONANCE
    • 角度传感器,系统和方法使用指导型共振
    • US20100309459A1
    • 2010-12-09
    • US12864234
    • 2008-03-04
    • David A. FattalAnna PyaytRaymond G. BeausoleilWei Wu
    • David A. FattalAnna PyaytRaymond G. BeausoleilWei Wu
    • G01B11/26
    • G01B11/26G01D5/38
    • An angle sensor, system and method employ a guided-mode resonance. The angle sensor includes a guided-mode resonance (GMR) grating and a resonance processor. The resonance processor determines an angle of incidence of a signal incident on the GMR grating. The resonance processor uses a guided-mode resonance response of the GMR grating to the signal to determine the angle of incidence. The angle sensing system includes the GMR grating, the resonance processor and further includes an optical source that produces the signal. The method includes providing a GMR grating, detecting a guided-mode resonance produced in the GMR grating when subjected to an incident signal, and determining an angle of incidence of the incident signal from one or both of a number of and a spectral distance between guided-mode resonances present in a response of the GMR grating to the incident signal.
    • 角度传感器,系统和方法采用导模共振。 角度传感器包括导模谐振(GMR)光栅和谐振处理器。 谐振处理器确定入射在GMR光栅上的信号的入射角。 谐振处理器使用GMR光栅的导模谐振响应信号来确定入射角。 角度感测系统包括GMR光栅,谐振处理器,还包括产生该信号的光源。 该方法包括:提供GMR光栅,检测在受到入射信号时在GMR光栅中产生的导模共振,以及确定入射信号之间的数量和频谱距离之间的一个或两个的入射角 在GMR光栅对入射信号的响应中存在共模谐振。
    • 24. 发明授权
    • MEMS-based pellicle beamsplitter
    • 基于MEMS的防护薄膜分束器
    • US08767301B2
    • 2014-07-01
    • US12864214
    • 2008-01-31
    • Michael Renne Ty TanShih-Yuan (SY) WangWei Wu
    • Michael Renne Ty TanShih-Yuan (SY) WangWei Wu
    • G02B1/10G02B27/14
    • G02B27/142G02B6/125G02B6/4214G02B6/43G02B27/14
    • A method of forming a non-polarizing pellicle beamsplitter having a desired power-tap ratio. The method includes the operation of forming a base layer having a base refractive index on a substrate and arranging a plurality of alternating layers having relatively high and low indexes of refraction respectively over the base layer. The thickness of each of the high index and low index layers is selected to substantially eliminate polarization of the optical beam. The method further includes the operation of removing a selected area of the substrate to create an optical pathway comprised of both the base layer and the plurality of alternating layers, and where the optical pathway is configured to transmit and reflect a selected amount of light in the optical beam.
    • 一种形成具有期望的电力抽头比的非偏振薄膜分束器的方法。 该方法包括在基底上形成具有基底折射率的基底层的操作,并且在基底层上分别布置具有相对较高和较低折射率的多个交替层。 选择每个高折射率层和低折射率层的厚度以基本上消除光束的偏振。 该方法还包括去除衬底的选定区域以创建由基底层和多个交替层两者组成的光学路径的操作,并且其中光学路径被配置为透射和反射所选择的光量 光束。