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    • 1. 发明申请
    • Linear optical sampling method and apparatus
    • 线性光学取样方法及装置
    • US20050185255A1
    • 2005-08-25
    • US10782003
    • 2004-02-19
    • Christopher DoerrChristophe DorrerPeter Winzer
    • Christopher DoerrChristophe DorrerPeter Winzer
    • G01J11/00G02F2/00
    • G01J11/00
    • A linear optical sampling apparatus, temporally samples a modulated optical signal using the amplitude of the interference of its electric field with the electric field of a laser pulse. The apparatus includes a 90° optical hybrid that combines the optical signal and laser pulse in order to generate two quadratures interference samples SA and SB. A processor compensates for optical and electrical signal handling imperfections in the hybrid, balanced detectors, and A/D converters used in the optical sampling apparatus. The processor numerically scales the two quadratures interference samples SA and SB over a large collection of samples by imposing that the average = =0 and = and then minimizes 2 /( + )=cos(φB−φA)). This is done by adjusting the phase between the two quadratures (ideally either −π/2 or +π/2) so that cos(φB−φA)) is zero. The processor then generates a demodulated sample signal using the quadratures interference samples SA and SB. According to one feature, the hybrid sets the relative phase between two quadratures of their interferometric component so that the phase sensitivity inherent to linear optics is removed. A variety of hybrid arrangements is disclosed that can be implemented using integrated waveguide technology. The apparatus enables sampling of picosecond pulses up to 640 Gb/s with high sensitivity and temporal resolution.
    • 线性光学采样装置利用其电场的干涉幅度与激光脉冲的电场在时间上对调制光信号进行采样。 该装置包括组合光信号和激光脉冲以产生两个正交干涉样本S A和B B的90°光混合。 处理器补偿在光采样装置中使用的混合,平衡检测器和A / D转换器中的光信号和电信号处理缺陷。 处理器通过将平均值 A 数字地对两个正交干涉样本S A S和S B B进行数字缩放, =< S< B< B< B< 2>< 2< / SUP >>,然后最小化2 A /( 2 +< S< B< 2> 2< / SUP>)= cos(phi)。 这是通过调整两个正交之间的相位(理想地为-pi / 2或+ pi / 2)来完成的,以使得cos(phi-B-ψA) 零。 然后,处理器使用正交干涉样本S SUB和S B B生成解调采样信号。 根据一个特征,混合器设置它们的干涉分量的两个正交之间的相对相位,使得线性光学器件固有的相位灵敏度被去除。 公开了可以使用集成波导技术实现的各种混合布置。 该器件能够以高灵敏度和时间分辨率对高达640 Gb / s的皮秒脉冲进行采样。
    • 2. 发明申请
    • Optical equalizer for intersymbol interference mitigation
    • 用于符号间干扰减轻的光均衡器
    • US20050058459A1
    • 2005-03-17
    • US10922690
    • 2004-08-19
    • Sethumadhavan ChandrasekharAndrew ChraplyvyChristopher DoerrPeter Winzer
    • Sethumadhavan ChandrasekharAndrew ChraplyvyChristopher DoerrPeter Winzer
    • G02F1/01G02B6/26H04B10/02H04B10/18H04J14/00H04J14/02H04B10/00
    • H04B10/2507G02B6/266H04J14/0221
    • A multi-channel optical equalizer for intersymbol interference mitigation compensates for single- or multi-wavelength channels simultaneously and requires few adjustable parameters. The optical equalizer also compensates for overshoots and signal transition degradations in semiconductor optical amplifiers. The equalizer unit uses one control signal for magnitude and one to control signal phase. The equalizer includes a controllable coupling ratio coupler for splitting the light into two portions and a controllable interferometer having two arms, one arm having an additional delay which is equal to an integer multiple of 1/Δf, where Δf is the channel spacing between adjacent wavelengths utilized in the optical system. The controllable interferometer has a controllable delay in a first or second arm for adjusting the relative phase of the light passing therethrough. A coupler combines the two signal portions from the first and second arms to form the equalized output signal. A multistage optical equalizer is implemented using a plurality of optical signal equalizers.
    • 用于符号间干扰减轻的多通道光学均衡器同时补偿单波长或多波长通道,并且需要很少的可调参数。 光学均衡器还补偿半导体光放大器中的过冲和信号转换劣化。 均衡器单元使用一个控制信号的幅度和一个来控制信号相位。 均衡器包括可控耦合比耦合器,用于将光分成两部分,以及具有两个臂的可控干涉仪,一个臂具有等于1 / Deltaf的整数倍的附加延迟,其中Deltaf是相邻波长之间的信道间隔 用于光学系统。 可控干涉仪在第一或第二臂中具有可控制的延迟,用于调节通过其中的光的相对相位。 耦合器组合来自第一和第二臂的两个信号部分以形成均衡的输出信号。 使用多个光信号均衡器来实现多级光学均衡器。
    • 3. 发明授权
    • Optical amplifier for multi-core optical fiber
    • 多核光纤光放大器
    • US08548291B2
    • 2013-10-01
    • US13012730
    • 2011-01-24
    • Christopher DoerrPeter Winzer
    • Christopher DoerrPeter Winzer
    • G02B6/30
    • G02B6/4204G02B6/02042G02B6/4249H01S3/0637H01S3/06737H01S3/094019H01S3/1608H01S3/302
    • One aspect provides an optical device. The optical device includes a first and a second array of optical couplers, a plurality of waveguides and a plurality of pump couplers located over a surface of a substrate. The optical couplers of the first array are able to end-couple in a one-to-one manner to the optical cores of a first multi-core fiber having an end facing and adjacent to the first array and the surface. The optical couplers of the second array are able to end-couple in a one-to-one manner to optical cores having ends facing and adjacent to the second array. The plurality of optical waveguides connects in a one-to-one manner the optical couplers of the first array to the optical couplers of the second array. Each optical waveguide has a pump coupler connected thereto between the ends of the waveguide.
    • 一方面提供一种光学装置。 光学装置包括第一和第二阵列的光耦合器,多个波导和位于衬底的表面上方的多个泵耦合器。 第一阵列的光耦合器能够以一对一的方式端接到具有面向第一阵列和表面的一端的第一多芯光纤的光芯。 第二阵列的光耦合器能够以一对一的方式端接到具有面向并邻近第二阵列的端部的光学核心。 多个光波导以一对一的方式连接第一阵列的光耦合器到第二阵列的光耦合器。 每个光波导具有在波导的端部之间连接到其上的泵耦合器。
    • 4. 发明申请
    • OPTICAL AMPLIFIER FOR MULTI-CORE OPTICAL FIBER
    • 用于多核光纤的光学放大器
    • US20120170111A1
    • 2012-07-05
    • US13012730
    • 2011-01-24
    • Christopher DoerrPeter Winzer
    • Christopher DoerrPeter Winzer
    • H01S3/067H01S3/094G02B6/26H01S3/30
    • G02B6/4204G02B6/02042G02B6/4249H01S3/0637H01S3/06737H01S3/094019H01S3/1608H01S3/302
    • One aspect provides an optical device. The optical device includes a first and a second array of optical couplers, a plurality of waveguides and a plurality of pump couplers located over a surface of a substrate. The optical couplers of the first array are able to end-couple in a one-to-one manner to the optical cores of a first multi-core fiber having an end facing and adjacent to the first array and the surface. The optical couplers of the second array are able to end-couple in a one-to-one manner to optical cores having ends facing and adjacent to the second array. The plurality of optical waveguides connects in a one-to-one manner the optical couplers of the first array to the optical couplers of the second array. Each optical waveguide has a pump coupler connected thereto between the ends of the waveguide.
    • 一方面提供一种光学装置。 光学装置包括第一和第二阵列的光耦合器,多个波导和位于衬底的表面上方的多个泵耦合器。 第一阵列的光耦合器能够以一对一的方式端接到具有面向第一阵列和表面的一端的第一多芯光纤的光芯。 第二阵列的光耦合器能够以一对一的方式端接到具有面向并邻近第二阵列的端部的光学核心。 多个光波导以一对一的方式连接第一阵列的光耦合器到第二阵列的光耦合器。 每个光波导具有在波导的端部之间连接到其上的泵耦合器。
    • 10. 发明申请
    • CORE-SELECTIVE OPTICAL SWITCHES
    • 核心选择性光学开关
    • US20120170933A1
    • 2012-07-05
    • US13012712
    • 2011-01-24
    • Christopher DoerrPeter Winzer
    • Christopher DoerrPeter Winzer
    • H04J14/02B23P11/00G02B6/26
    • G02B6/4204G02B6/02042G02B6/4249H01S3/0637H01S3/06737H01S3/094019H01S3/1608H01S3/302
    • An optical device includes a substrate with first and second arrays of optical couplers located along a planar surface thereof. The optical couplers of the first array are laterally arranged along the surface to end-couple in a one-to-one manner to corresponding optical cores of a first multi-core fiber whose end is facing and adjacent to the first array. The optical couplers of the second array of optical couplers are laterally arranged along the surface to end-couple in a one-to-one manner to corresponding optical fiber cores of one or more optical fiber ends facing and adjacent to the second array. An optical switch network is optically connected to selectively couple some of the optical couplers of the first array to the optical couplers of the second array in a one-to-one manner.
    • 光学装置包括具有沿其平面表面定位的第一和第二光耦合器阵列的基板。 第一阵列的光耦合器沿着表面以一对一的方式横向布置成端部与第一阵列相对并相邻的第一多芯光纤的相应的光纤芯。 光耦合器的第二阵列的光耦合器沿着表面横向布置,以一对一的方式结合到面向和相邻于第二阵列的一个或多个光纤端头的对应光纤芯。 光学开关网络被光学连接以选择性地将第一阵列的光耦合器中的一些以一对一的方式耦合到第二阵列的光耦合器。