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    • 1. 发明授权
    • Depolarized fiber optic rotation sensor with low faraday effect drift
    • 具有低法拉第效应漂移的去极化光纤旋转传感器
    • US5598489A
    • 1997-01-28
    • US281339
    • 1994-07-27
    • George A. PavlathRonald J. MichalRalph A. PattersonSidney X. Y. Huang
    • George A. PavlathRonald J. MichalRalph A. PattersonSidney X. Y. Huang
    • G01C19/72G01R33/032G02B6/00
    • G01C19/721
    • A fiber optic sensing coil formed in a polarization-maintaining optical fiber has two optical fiber leads extending therefrom. A multifunction integrated optics chip linearly polarizes optical signals input to the sensing coil. Fiber optic leads formed of polarization-maintaining optical fiber extend from the multifunction integrated optics chip. The fiber optic multifunction integrated optics chip leads are arranged such that the linear polarization of optical signals output from the multifunction integrated optics chip is directed along one of the principal axes of birefringence of each of the fiber optic multifunction integrated optics chip leads. Splices are formed between corresponding the first sensing coil leads and the multifunction integrated optics chip leads. The sensing coil leads and the multifunction integrated optics chip leads are arranged such that their corresponding principal axes of birefringence are at angles of approximately 45.degree. relative to one another. The first splice is formed a distance from the multifunction integrated optics chip such that a selected phase change between polarization components occurs in optical waves that propagate the distance L.sub.1 in the first multifunction integrated optics chip lead.
    • 形成在偏振保持光纤中的光纤感测线圈具有从其延伸的两根光纤引线。 多功能集成光学芯片将输入到感测线圈的光信号线性偏振。 由偏振保持光纤形成的光纤引线从多功能集成光学芯片延伸。 光纤多功能集成光学芯片引线被布置成使得从多功能集成光学芯片输出的光信号的线性偏振沿着每个光纤多功能集成光学芯片引线的双折射的主轴指向。 在对应的第一感测线圈引线和多功能集成光学芯片引线之间形成接头。 感测线圈引线和多功能集成光学芯片引线被布置成使得它们相应的双折射主轴相对于彼此成45°角。 第一接头与多功能集成光学芯片形成一定距离,使得在第一多功能集成光学芯片引线中传播距离L1的光波中产生偏振分量之间所选择的相位变化。
    • 2. 发明授权
    • Apparatus for reducing magnetic field-induced bias errors in a fiber
optic gyroscope
    • 用于减少光纤陀螺仪中的磁场引起的偏差误差的装置
    • US5333214A
    • 1994-07-26
    • US17678
    • 1993-02-12
    • Sidney X. HuangRonald J. MichalRalph A. PattersonGeorge A. Pavlath
    • Sidney X. HuangRonald J. MichalRalph A. PattersonGeorge A. Pavlath
    • G01C19/72G02B6/00G01B9/02
    • G01C19/721
    • Apparatus for suppressing the bias errors induced by the Faraday effect in the output of a sensor coil exposed to a magnetic field. Arrangements are formed at two leads of the sensor coil for compensating the bias shifts. One of such arrangements comprises at least one loop of optical fiber for compensating the effect induced by the magnetic field component oriented transverse to the axis of the sensor coil while the other comprises at least one loop oriented at a predetermined pitch angle for compensating the effect induced by a magnetic field component along the axis. In each case, a predetermined degree of twist of a preselected fiber twist mode is imposed upon the compensator loop for creating a counteracting, corrective Faraday effect. Cross-coupling does not occur between the two compensators as their twist rate perodicities are unequal.
    • 用于抑制暴露于磁场的传感器线圈的输出中由法拉第效应引起的偏置误差的装置。 在传感器线圈的两个引线处形成用于补偿偏置偏移的布置。 这种布置之一包括至少一个光纤环路,用于补偿由横向于传感器线圈的轴线定向的磁场分量引起的效应,而另一个环路包括以预定的俯仰角定向的至少一个环路,用于补偿诱发的效应 通过沿轴的磁场分量。 在每种情况下,预先选择的纤维扭转模式的预定捻度被施加在补偿器回路上,以产生抵消的纠正法拉第效应。 两个补偿器之间不会发生交叉耦合,因为它们的扭曲率百分比不相等。
    • 3. 发明授权
    • Methods for rugged attachment of fibers to integrated optics chips and
product thereof
    • 用于将纤维坚固地附接到集成光学芯片及其产品的方法
    • US5146522A
    • 1992-09-08
    • US719085
    • 1991-06-18
    • George A. Pavlath
    • George A. Pavlath
    • G02B6/30G02B6/42
    • G02B6/4248G02B6/30Y10S359/90
    • Methods are disclosed for providing a rugged attachment of an optical fiber to an integrated optics chip. A first plate is attached to a first surface of the chip, the thickness of the chip is reduced to a value less than the diameter of the fiber but of sufficient optical thickness so that the evanescent field of a guided mode is negligible outside the chip, a second plate is attached to a second major surface of the reduced-thickness chip, the fiber is coaxially jacketed with a material suitable for attachment to the first and second plates, the fiber is positioned with respect to a waveguide on the chip, and the jacket of the fiber at its end face is symmetrically attached to both the first and second plates at a plurality of locations. Alternatively, a single plate can be attached to the first surface of the chip without reducing the thickness of the chip and either a jacket on the fiber or the curved periphery of the fiber itself can be attached symmetrically to both the plate and the substrate. The resulting connection between the optical fiber and the integrated optics chip is rugged, thermally insensitive, and suited for batch production processes. A wafer comprising a plurality of chips can be sandwiched between first and second plates or reinforced with a single plate, and subsequently subdivided into individual chips to which optical fibers can then be attached.
    • 公开了提供光纤到集成光学芯片的坚固附件的方法。 第一板附接到芯片的第一表面,芯片的厚度减小到小于光纤的直径但具有足够的光学厚度的值,使得引导模式的渐逝场在芯片外部可忽略不计, 第二板连接到厚度小的芯片的第二主表面上,该纤维与适合于连接到第一和第二板的材料同轴地夹套,光纤相对于芯片上的波导定位,并且 在其端面处的纤维的护套在多个位置对称地附接到第一和第二板。 或者,可以将单个板连接到芯片的第一表面,而不会减小芯片的厚度,并且纤维上的护套或纤维本身的弯曲周边可以对称地附接到板和基板两者。 由此产生的光纤和集成光学芯片之间的连接是坚固的,热不敏感的,并且适用于批量生产过程。 包括多个芯片的晶片可以夹在第一和第二板之间或用单个板增强,并且随后被细分成单独的芯片,光纤然后可以附着到芯片上。
    • 5. 发明授权
    • Passive sampling interferometric sensor arrays
    • 被动采样干涉传感器阵列
    • US4632551A
    • 1986-12-30
    • US619119
    • 1984-06-11
    • George A. Pavlath
    • George A. Pavlath
    • G01D5/26G01D5/353G01D21/00G01H9/00G01J1/02G01N21/00G01R9/00G01R33/032G02B6/00G02B6/28G01B9/02
    • G01D5/35383G01H9/004G02B6/2821G02B6/2861
    • This invention provides a sensor array using a plurality of fiber optic sensors connected between transmit fibers and receive fibers. The laser transmitter supplies pulses to the transmit fiber and fiber optic couplers couple the pulses from the transmit fiber into the fiber optic sensors. The pulses from the laser transmitter may be frequency chirped or frequency stepped to provide passive sampling of interferometric sensors in addition to intensity sensors, or otherwise frequency modulated. Each sensor is configured to respond to changes in a predetermined physical parameter by altering the shape of the pulse input thereto. Fiber optic couplers couple the sensor output signals into the receive fiber for input to a receiver, which converts the optical signals into electrical signals for input to a processer. A timing reference correlates the sensor output pulses with the sensors.
    • 本发明提供了使用连接在发射光纤和接收光纤之间的多个光纤传感器的传感器阵列。 激光发射器向发射光纤提供脉冲,光纤耦合器将来自发射光纤的脉冲耦合到光纤传感器中。 来自激光发射器的脉冲可以是频率啁啾或频率阶梯以提供除了强度传感器之外的干涉测量传感器的被动采样,或以其他方式频率调制。 每个传感器被配置为通过改变输入到其中的脉冲的形状来响应预定物理参数的变化。 光纤耦合器将传感器输出信号耦合到接收光纤中,以便输入到接收器,该接收器将光信号转换成电信号以输入到处理器。 定时参考将传感器输出脉冲与传感器相关联。
    • 6. 发明授权
    • Optical fiber for reducing optical signal reflections
    • 用于减少光信号反射的光纤
    • US5970197A
    • 1999-10-19
    • US227871
    • 1999-01-08
    • George A. Pavlath
    • George A. Pavlath
    • G02B6/02G02B6/24H01S3/06H01S3/17G02B6/10
    • G02B6/243G02B6/02G02B6/03638G02B6/03694
    • Attenuation of an optical signal at the end of an optical fiber is achieved by positioning a high absorption region at the end of the fiber. A first embodiment teaches highly doped wedges within a tapered end of the fiber. The highly doped wedges adjacent the light transmitting core serve to absorb light at the end of the fiber. The light transmitting core of the fiber is reduced in diameter due to the tapering, causing the field of light to expand beyond the core. The highly doped wedges are in proximity to the core due to the tapering. The wedges, which are preferably heavily doped with a rare earth such as erbium, absorbs the escaping light in sufficient quantities, both in the initial pass through the tapered region and again upon reflection of the light at the end of the tapered region, such that the attenuation of the reflected light is within acceptable limits without regard to the condition of the fiber's end surface.
    • 通过在光纤端部放置高吸收区域来实现光纤末端的光信号的衰减。 第一实施例教导在光纤的锥形端部内的高度掺杂的楔形物。 邻近光传输芯的高掺杂楔形物用于吸收光纤末端的光。 纤维的透光芯由于锥形而直径减小,导致光场扩展到芯之外。 高度掺杂的楔子由于锥形而靠近芯部。 优选地重掺杂有诸如铒的稀土的楔子在初始通过锥形区域中并且再次在锥形区域的端部的光反射时,以足够的量吸收逸出的光,使得 反射光的衰减在可接受的范围内,而不考虑光纤端面的状况。
    • 7. 发明授权
    • Optical interconnection apparatus
    • 光互连装置
    • US5933564A
    • 1999-08-03
    • US562160
    • 1995-11-22
    • George A. Pavlath
    • George A. Pavlath
    • G02B6/38G02B6/00
    • G02B6/3839G02B6/3865G02B6/3885
    • The optical interconnection apparatus includes one or more terminator blocks which hold a plurality of jacketed optical fibers and a flexible matrix which encloses the jacketed optical fibers and partially surrounds the terminator blocks so as to anchor the terminator blocks within the matrix. Each terminator block comprises a jacket holder and a jacket clamp. The jacket holder has a surface with a plurality of grooves for receiving a plurality of jacketed optical fibers. The jacket clamp clamps a plurality of jacketed optical fibers in the plurality of grooves of a jacket holder. The terminator blocks are used with a mold having one or more guide structures for use in guiding each of the terminator blocks into the mold, a terminator block having one or more guide followers which engage and follow the guide structures of the mold when the terminator block is inserted into the mold. The optical interconnection apparatus further comprises one or more connector blocks, each of which is attachable to two terminator blocks. The connector block holds the bare optical fibers protruding from a terminator block when the connector block is attached to the terminator block and bare optical fibers are protruding from the terminator block. Each connector block comprises a fiber holder and a fiber clamp. The fiber holder has a surface with a plurality of grooves dimensioned to receive a plurality of bare optical fibers. The fiber clamp provides the means for clamping the bare optical fibers in the grooves of a fiber holler.
    • 光学互连装置包括一个或多个保持多个夹套光纤的终端块,以及包围被夹套的光纤并且部分地包围终端块的柔性矩阵,以将终端块固定在矩阵内。 每个终端块包括护套夹和夹套。 护套保持器具有带有多个槽的表面,用于容纳多个夹套的光纤。 夹套夹持器夹持夹套保持器的多个凹槽中的多个夹套光纤。 终止器块与具有一个或多个引导结构的模具一起使用,用于将每个终止器块引导到模具中;终止器块,其具有一个或多个引导随动件,当终止器阻挡块接合并跟随模具的引导结构时 插入模具中。 光学互连装置还包括一个或多个连接器块,每个连接器块可附接到两个终端块。 当连接器块连接到终端块并且裸露的光纤从终端块突出时,连接器块保持从终端块突出的裸光纤。 每个连接器块包括纤维架和纤维夹。 光纤保持器具有多个凹槽的表面,其尺寸被设计成容纳多个裸光纤。 光纤夹具提供了将裸光纤夹在光纤槽的槽中的装置。
    • 9. 发明授权
    • Fiber optic gyroscope with improved bias stability and repeatability and
method
    • 光纤陀螺具有改进的偏置稳定性和重复性和方法
    • US4915503A
    • 1990-04-10
    • US91972
    • 1987-09-01
    • George A. Pavlath
    • George A. Pavlath
    • G01C19/72G01C19/64G02B6/28G02B6/34
    • G02B6/2835G01C19/72G02B6/2821G02B6/2826
    • A fiber gyroscope provides improved bias stability and repeatability and has a greatly reduced polarizer extinction ratio requirement compared previous devices. This fabrication technique is compatible with both an all fiber gyroscope configuration and an integrated optics or bulk optics device. The present invention comprises a substrate that is preferably formed of fused silica. A pair of optical fibers, or two lengths of one fiber, are mounted to the substrate, and first planar surfaces are formed in the cladding. Optical couplers, polarizers and other components used in forming the rotation sensor are formed on the planar cladding surfaces of the fibers. Polarizers formed on the fibers have a transmission axis aligned with an axis of birefringence of the fiber to remove undesired linear polarization components from optical signals guided by the fibers while permitting a desired linear polarization component to propagate unattenuated. A sensing coil of optical fiber is arranged to guide light between the first and second optical fibers, the first and second optical fibers and the optical coupler cooperating to introduce counterpropagating light waves in the sensing coil.
    • 光纤陀螺仪提供了改进的偏置稳定性和重复性,并且与以前的器件相比具有大大降低的偏振器消光比要求。 该制造技术与全光纤陀螺仪配置和集成光学或体光学器件兼容。 本发明包括优选由熔融二氧化硅形成的基底。 一对光纤或两段长度的一根光纤被安装到基板上,并且在包层中形成第一平面。 用于形成旋转传感器的光耦合器,偏振器和其它部件形成在纤维的平面包覆表面上。 形成在纤维上的偏振器具有与光纤的双折射轴对准的透射轴,以从由光纤引导的光信号中去除不期望的线偏振分量,同时允许期望的线偏振分量传播未衰减。 布置光纤传感线圈,以引导第一和第二光纤之间的光线,第一和第二光纤与光耦合器协同在传感线圈中引入反向传播的光波。
    • 10. 发明授权
    • Fiber optical combiner particularly for a ring laser gyro
    • 光纤组合器,特别适用于环形激光陀螺仪
    • US4818109A
    • 1989-04-04
    • US916152
    • 1986-10-07
    • Thomas J. HutchingsGeorge A. Pavlath
    • Thomas J. HutchingsGeorge A. Pavlath
    • G01C19/66G02B6/28G01C19/64
    • G02B6/2817G01C19/662G02B6/2821
    • Apparatus for producing a three phase signal from two or three optical beams at different optical frequencies, such signal having a frequency equal to the difference frequency or frequencies between the optical frequencies of said beams including, preferably, an equal energy single mode fiber optic coupler and optical focusing means, such as gradient index rods, for directing said light beams onto light conducting fibers, preferably single mode fibers, thence through the coupler, thence onto light detectors to produce a substantially balanced three phase electrical signal at said difference frequency or frequencies.In a preferred embodiment, the light beams are two in number, connected to only two input ports of said coupler, and the light beam sources are the output beams of counter- propagating ring laser beams in a ring laser gyro.
    • 用于在不同光频率下从两个或三个光束产生三相信号的装置,该信号的频率等于所述波束的光频率之间的差频或频率,优选地包括等能量单模光纤耦合器和 用于将光束引导到导光纤维(优选单模光纤)上的光聚焦装置,然后通过耦合器,然后到达光检测器,以产生所述差频或频率的基本平衡的三相电信号。 在一个优选实施例中,光束是两个,仅连接到所述耦合器的两个输入端口,并且光束源是环形激光陀螺仪中的相反传播环形激光束的输出光束。