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    • 83. 发明申请
    • Polarization Control in a Photonic Integrated Circuit
    • 光子集成电路中的极化控制
    • US20110293275A1
    • 2011-12-01
    • US12790779
    • 2010-05-28
    • Peter W. EvansPavel V. StudenkovMatthew FisherCharles H. Joyner
    • Peter W. EvansPavel V. StudenkovMatthew FisherCharles H. Joyner
    • H04J14/06
    • H04B10/2572H04B10/801
    • The present invention provides a system, apparatus and method to maintain the polarization state of an optical signal propagating within a photonic integrated circuit, or from a first photonic integrated circuit to a second photonic integrated circuit. According to various embodiments of the invention, an optical circuit is provided which includes an optical coupler configured to accept a first optical signal on a first input and a second optical signal on a second input, the second optical signal having a polarization state. The optical coupler may combine the first and second optical signals into an optical output signal. A principle axis of a first end of an optical fiber is may be configured to align with the polarization state of the second optical signal, such that a polarization maintaining connection is established. The polarization state may be a TM polarization state, a TE polarization state, or another polarization state. The optical circuit may include birefringent structures, such as birefringent waveguides and birefringent wavelength selective couplers, to further maintain the polarization of optical signals propagating through the photonic integrated circuits.
    • 本发明提供了一种保持光信号在光子集成电路内或从第一光子集成电路传播到第二光子集成电路的偏振状态的系统,装置和方法。 根据本发明的各种实施例,提供了一种光电路,其包括被配置为在第一输入端接受第一光信号的光耦合器和在第二输入端上的第二光信号,所述第二光信号具有偏振状态。 光耦合器可以将第一和第二光信号组合成光输出信号。 光纤的第一端的主轴可以被配置为与第二光信号的偏振状态对准,从而建立偏振保持连接。 极化状态可以是TM极化状态,TE极化状态或另一极化状态。 光电路可以包括双折射结构,例如双折射波导和双折射波长选择耦合器,以进一步保持通过光子集成电路传播的光信号的偏振。
    • 85. 发明授权
    • Method of fabricating an expanded beam optical waveguide device
    • 制造扩展光束光波导器件的方法
    • US6162655A
    • 2000-12-19
    • US228218
    • 1999-01-11
    • John Evan JohnsonLeonard Jan-Peter KetelsenJanet L. LentzCharles H. JoynerSharon Kay Sputz
    • John Evan JohnsonLeonard Jan-Peter KetelsenJanet L. LentzCharles H. JoynerSharon Kay Sputz
    • G02B6/12G02B6/122H01S5/026H01S5/10H01S5/20H01S5/50H01L21/302
    • G02B6/1228G02B2006/12195H01S5/026H01S5/0265H01S5/1014H01S5/1032H01S5/2077H01S5/50
    • A method of fabricating an expanded beam optical waveguide device (e.g., a laser), comprises the steps of (a) forming a first semiconductor waveguide region having first and second sections of different thickness and an intermediate vertical taper section of varying thickness coupling the first and second sections to one another, the first waveguide region being effective to expand the size of the beam as it propagates from the first section to the second section, (b) forming a second semiconductor region (e.g., a laser active region) on the first waveguide region, (c) etching the second region so as to form an essentially vertical first surface of length A-B which extends obliquely across the propagation axis of the device, (d) forming a third semiconductor region (e.g., a cladding region) on the second region and over the first surface, and (e) etching an elongated mesa along the axis, the mesa extending through at least the second region and the first surface so as to form a second waveguide region having an oblique, essentially second vertical surface which has a length a-b
    • 一种制造扩展光束光波导器件(例如,激光器)的方法包括以下步骤:(a)形成具有不同厚度的第一和第二部分的第一半导体波导区域和具有变化厚度的中间垂直锥形部分, 和第二部分,第一波导区域有效地在从第一部分传播到第二部分时扩大光束的尺寸,(b)在第二部分上形成第二半导体区域(例如,激光有源区域) (c)蚀刻所述第二区域以便形成长度为AB的基本上垂直的第一表面,所述第一表面倾斜延伸穿过所述器件的传播轴线,(d)在所述第一区域上形成第三半导体区域(例如包层区域) 所述第二区域和所述第一表面之上,以及(e)沿着所述轴线蚀刻细长的台面,所述台面至少延伸穿过所述第二区域和所述第一表面,以形成第二 波导区域具有斜长,基本上第二垂直表面,其具有长度ab