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公开(公告)号:US20070031083A1
公开(公告)日:2007-02-08
申请号:US11473242
申请日:2006-06-23
申请人: Yury Logvin , Serge Grabtchak , Kirill Pimenov
发明人: Yury Logvin , Serge Grabtchak , Kirill Pimenov
CPC分类号: G02B6/125 , G02B2006/12097
摘要: Ridge and buried waveguide structures feature a plurality of trenches disposed proximate the waveguides in order to enhance confinement of an optical signal propagating within the waveguide are described. Additionally, an adiabatic transition region where the distance between trenches and waveguide is featured.
摘要翻译: 描述了脊和掩埋波导结构,其特征在于设置在波导附近的多个沟槽,以便增强在波导内传播的光信号的约束。 另外,其中特征在于沟槽和波导之间的距离的绝热过渡区域。
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公开(公告)号:US07609931B2
公开(公告)日:2009-10-27
申请号:US11473242
申请日:2006-06-23
申请人: Yury Logvin , Serge Grabtchak , Kirill Pimenov
发明人: Yury Logvin , Serge Grabtchak , Kirill Pimenov
IPC分类号: G02B6/10
CPC分类号: G02B6/125 , G02B2006/12097
摘要: Ridge and buried waveguide structures feature a plurality of trenches disposed proximate the waveguides in order to enhance confinement of an optical signal propagating within the waveguide are described. Additionally, an adiabatic transition region where the distance between trenches and waveguide is featured.
摘要翻译: 描述了脊和掩埋波导结构,其特征在于设置在波导附近的多个沟槽,以便增强在波导内传播的光信号的约束。 另外,其中特征在于沟槽和波导之间的距离的绝热过渡区域。
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公开(公告)号:US20090136173A1
公开(公告)日:2009-05-28
申请号:US11984922
申请日:2007-11-26
申请人: Yury Logvin , Fang Wu , Kirill Pimenov , Valery Tolstikhin
发明人: Yury Logvin , Fang Wu , Kirill Pimenov , Valery Tolstikhin
CPC分类号: G02B6/12004 , G02B6/131 , G02B6/14
摘要: The invention describes method and apparatus for a mode converter enabling an adiabatic transfer of a higher order mode into a lower order optical mode within a photonic integrated circuit exploiting integrated semiconductor ridge waveguide techniques. As disclosed by the invention, such a mode conversion is achievable by using an asymmetric coupler methodology. In an exemplary embodiment of the invention, the invention is used to provide a low insertion loss optical connection between laterally-coupled DFB laser operating in first order mode and passive waveguide operating in the zero order optical mode. The integrated arrangement fabricated by using one-step epitaxial growth allows for a launch of the laser's light into the waveguide circuitry operating in the zero order lateral mode or efficiently coupling it to single-mode fiber, an otherwise high loss interface due to the difference in laser and optical fiber modes.
摘要翻译: 本发明描述了一种用于模式转换器的方法和装置,该模式转换器使得能够在利用集成半导体脊波导技术的光子集成电路内将较高阶模式绝热转移到低阶光学模式。 如本发明所公开的,通过使用不对称耦合器方法可以实现这种模式转换。 在本发明的示例性实施例中,本发明用于提供以一阶模式工作的横向耦合的DFB激光器和以零阶光学模式操作的无源波导之间的低插入损耗光学连接。 通过使用一步外延生长制造的集成布置允许将激光的光发射到以零级横向模式操作的波导电路中,或者将其有效地耦合到单模光纤,否则由于差的 激光和光纤模式。
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4.发明授权Integrated optics arrangement for wavelength (De)multiplexing in a multi-grade vertical stack 有权用于多位垂直堆叠中波长(De)复用的集成光学布置公开(公告)号:US07444055B2
公开(公告)日:2008-10-28
申请号:US11984759
申请日:2007-11-21
申请人: Valery Tolstikhin , Yury Logvin , Kirill Pimenov
发明人: Valery Tolstikhin , Yury Logvin , Kirill Pimenov
CPC分类号: G02B6/1228 , G02B6/125 , G02B2006/12097 , G02B2006/12119
摘要: The invention describes an integrated-photonics arrangement, implementable in a multi-guide vertical integration structure composed from III-V semiconductors and grown in one epitaxial growth run, that allows for vertical and lateral splitting of optical signals co- or bi-directionally propagating in the common passive waveguide into plurality of the vertically integrated passive or active wavelength-designated waveguides, therefore, enabling the wavelength-designated waveguides operating in different wavelengths to be monolithically integrated onto the same substrate and connected to the shared passive waveguide. In the exemplary embodiments of the invention, two active wavelength-designated waveguides, each of which either laser or photodetector, are vertically integrated with a common passive waveguide connected to the input/output optical port shared by both operating wavelengths, to form a single-fiber, two-wavelength receiver (both wavelength-designated waveguides are waveguide photodetectors) or transmitter (both wavelength-designated waveguides are edge-emitting semiconductor injection lasers) or transceiver (one wavelength-designated waveguide is waveguide photodetector and the other—edge-emitting semiconductor injection laser). Advantageously to the previous art, the proposed vertical splitting and lateral routing allows for a reduced footprint size while greatly improving design flexibility and/or device performance.
摘要翻译: 本发明描述了一种集成光子学布置,其可以在由III-V半导体构成并且在一个外延生长运行中生长的多导向垂直整合结构中实现,其允许垂直和横向分裂光信号共同或双向传播 将普通的无源波导分为多个垂直集成的无源或有源波长指定的波导,因此能使波长指定的在不同波长下工作的波导单片集成在同一基板上并连接到共用无源波导。 在本发明的示例性实施例中,两个有源波长指定的波导(其中的每个激光器或光电检测器)与连接到由两个工作波长共用的输入/输出光学端口的公共无源波导垂直集成, 光纤,双波长接收器(两个波长指定的波导是波导光电检测器)或发射器(两个波长指定的波导都是边缘发射半导体注入激光器)或收发器(一个波长指定的波导是波导光电检测器,另一个边缘发射 半导体注入激光)。 有利的是,与先前技术相比,所提出的垂直分割和横向布线允许减小占地面积的大小,同时大大提高设计灵活性和/或设备性能。
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5.发明申请Integrated optics arrangement for wavelength (De)multiplexing in a multi-grade vertical stack 有权用于多级垂直堆叠中波长(De)复用的集成光学布置公开(公告)号:US20080138008A1
公开(公告)日:2008-06-12
申请号:US11984759
申请日:2007-11-21
申请人: Valery Tolstikhin , Yury Logvin , Kirill Pimenov
发明人: Valery Tolstikhin , Yury Logvin , Kirill Pimenov
IPC分类号: G02B6/12
CPC分类号: G02B6/1228 , G02B6/125 , G02B2006/12097 , G02B2006/12119
摘要: The invention describes an integrated-photonics arrangement, implementable in a multi-guide vertical integration structure composed from III-V semiconductors and grown in one epitaxial growth run, that allows for vertical and lateral splitting of optical signals co- or bi-directionally propagating in the common passive waveguide into plurality of the vertically integrated passive or active wavelength-designated waveguides, therefore, enabling the wavelength-designated waveguides operating in different wavelengths to be monolithically integrated onto the same substrate and connected to the shared passive waveguide. In the exemplary embodiments of the invention, two active wavelength-designated waveguides, each of which either laser or photodetector, are vertically integrated with a common passive waveguide connected to the input/output optical port shared by both operating wavelengths, to form a single-fiber, two-wavelength receiver (both wavelength-designated waveguides are waveguide photodetectors) or transmitter (both wavelength-designated waveguides are edge-emitting semiconductor injection lasers) or transceiver (one wavelength-designated waveguide is waveguide photodetector and the other—edge-emitting semiconductor injection laser). Advantageously to the previous art, the proposed vertical splitting and lateral routing allows for a reduced footprint size while greatly improving design flexibility and/or device performance.
摘要翻译: 本发明描述了一种集成光子学布置,其可以在由III-V半导体构成并且在一个外延生长运行中生长的多导向垂直整合结构中实现,其允许垂直和横向分裂光信号共同或双向传播 将普通的无源波导分为多个垂直集成的无源或有源波长指定的波导,因此能使波长指定的在不同波长下工作的波导单片集成在同一基板上并连接到共用无源波导。 在本发明的示例性实施例中,两个有源波长指定的波导(其中的每个激光器或光电检测器)与连接到由两个工作波长共用的输入/输出光学端口的公共无源波导垂直集成, 光纤,双波长接收器(两个波长指定的波导是波导光电检测器)或发射器(两个波长指定的波导都是边缘发射半导体注入激光器)或收发器(一个波长指定的波导是波导光电检测器,另一个边缘发射 半导体注入激光)。 有利的是,与先前技术相比,所提出的垂直分割和横向布线允许减小占地面积的大小,同时大大提高设计灵活性和/或设备性能。
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公开(公告)号:US20120106583A1
公开(公告)日:2012-05-03
申请号:US12917553
申请日:2010-11-02
申请人: Christopher Watson , Kirill Pimenov , Valery Tolstikhin , Fang Wu , Yury Logvin
发明人: Christopher Watson , Kirill Pimenov , Valery Tolstikhin , Fang Wu , Yury Logvin
IPC分类号: H01S5/22 , H01L33/58 , H01L21/302
CPC分类号: H01S5/2232 , H01S5/0208 , H01S5/0422 , H01S5/1231 , H01S5/2018 , H01S5/2081 , H01S5/22
摘要: A VCSEG-DFB laser, fully compatible with MGVI design and manufacturing methodologies, for single growth monolithic integration in multi-functional PICs is presented. It comprises a laser PIN structure, in mesa form, etched from upper emitter layer top surface through the active, presumably MQW, gain region, down to the top surface of the lower emitter. Lower electrical contacts sit adjacent the mesa disposed on the lower emitter layer with upper strip contacts disposed atop the upper emitter layer on the mesa top. An SEG is defined/etched from mesa top surface, between the upper strip contacts, through upper emitter layer down to or into the SCH layers. Vertical confinement is provided by the SCH structure and the lateral profile in the bottom portion of the mesa provides lateral confinement. The guided mode interacts with the SEG by the vertical tail penetrating the SEG and evanescent field coupling to the SEG.
摘要翻译: 提出了一种与MGVI设计和制造方法完全兼容的VCSEG-DFB激光器,用于多功能PIC中的单次增长单片集成。 它包括台面形式的激光PIN结构,从上部发射极层顶表面通过有源,大概是MQW,增益区域,到下部发射极的顶部表面蚀刻。 较低的电触头位于设置在下部发射极层上的台面附近,上部带状触点设置在台面顶部的上部发射极层顶部。 SEG由台面顶面,上部条状接触件之间,通过上部发射极层向下或向SCH层定义/蚀刻。 垂直限制由SCH结构提供,台面底部的侧向轮廓提供横向限制。 引导模式通过穿过SEG的垂直尾翼和耦合到SEG的渐逝场与SEG相互作用。
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7.发明授权公开(公告)号:US08098969B2
公开(公告)日:2012-01-17
申请号:US12632933
申请日:2009-12-08
申请人: Valery Tolstikhin , Fang Wu , Christopher Watson , Yury Logvin , Kirill Pimenov
发明人: Valery Tolstikhin , Fang Wu , Christopher Watson , Yury Logvin , Kirill Pimenov
IPC分类号: G02B6/12
CPC分类号: H01S5/5018 , G02B2006/12121 , G02B2006/12123 , G02B2006/12195 , H01S5/0262 , H01S5/1014
摘要: The invention describes an integrated-photonics arrangement, implementable in a multi-guide vertical integration (MGVI) structure composed from III-V semiconductors and grown in one epitaxial growth run, allowing for the integration of semiconductor optical amplifier (SOA) and PIN photodetector (PIN) structures within a common wavelength-designated waveguide of the plurality of the vertically integrated wavelength-designated waveguides forming the MGVI structure. The integration includes a wavelength filter integrated between the SOA and PIN to reduce noise within the PIN arising from ASE generated by the SOA. In exemplary embodiments of the invention, the wavelength filter is integrated into MGVI structure either within a common wavelength designated waveguide or within the wavelength-designated waveguide. Further in other embodiments the wavelength filter is provided by a thin-film filter abutting a facet of the integrated-photonics arrangement wherein optical signals are coupled by optical waveguides and/or additional optical elements such as a multimode interference device.
摘要翻译: 本发明描述了一种集成光子学布置,其可以在由III-V半导体组成并在一个外延生长运行中生长的多导向垂直积分(MGVI)结构中实现,允许将半导体光放大器(SOA)和PIN光电检测器 PIN)结构,其构成了形成MGVI结构的多个垂直集成的波长指定波导的公共波长指定波导。 集成包括集成在SOA和PIN之间的波长滤波器,以减少由SOA产生的ASE产生的PIN内的噪声。 在本发明的示例性实施例中,波长滤波器在公共波长指定波导内或波长指定波导内集成到MGVI结构中。 此外,在其它实施例中,波长滤波器由抵靠集成光子学装置的小平面的薄膜滤光器提供,其中光信号通过光波导耦合,和/或诸如多模干涉装置的附加光学元件耦合。
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8.发明申请Waveguide Optically Pre-Amplified Detector with Passband Wavelength Filtering 有权具有通带波长滤波的波导光学预放大检测器公开(公告)号:US20110135314A1
公开(公告)日:2011-06-09
申请号:US12632933
申请日:2009-12-08
申请人: Valery Tolstikhin , Fang Wu , Christopher Watson , Yury Logvin , Kirill Pimenov
发明人: Valery Tolstikhin , Fang Wu , Christopher Watson , Yury Logvin , Kirill Pimenov
IPC分类号: H04B10/12
CPC分类号: H01S5/5018 , G02B2006/12121 , G02B2006/12123 , G02B2006/12195 , H01S5/0262 , H01S5/1014
摘要: The invention describes an integrated-photonics arrangement, implementable in a multi-guide vertical integration (MGVI) structure composed from III-V semiconductors and grown in one epitaxial growth run, allowing for the integration of semiconductor optical amplifier (SOA) and PIN photodetector (PIN) structures within a common wavelength-designated waveguide of the plurality of the vertically integrated wavelength-designated waveguides forming the MGVI structure. The integration includes a wavelength filter integrated between the SOA and PIN to reduce noise within the PIN arising from ASE generated by the SOA. In exemplary embodiments of the invention, the wavelength filter is integrated into MGVI structure either within a common wavelength designated waveguide or within the wavelength-designated waveguide. Further in other embodiments the wavelength filter is provided by a thin-film filter abutting a facet of the integrated-photonics arrangement wherein optical signals are coupled by optical waveguides and/or additional optical elements such as a multimode interference device.
摘要翻译: 本发明描述了一种集成光子学布置,其可以在由III-V半导体组成并在一个外延生长运行中生长的多导向垂直积分(MGVI)结构中实现,允许将半导体光放大器(SOA)和PIN光电检测器 PIN)结构,其构成了形成MGVI结构的多个垂直集成的波长指定波导的公共波长指定波导。 集成包括集成在SOA和PIN之间的波长滤波器,以减少由SOA产生的ASE产生的PIN内的噪声。 在本发明的示例性实施例中,波长滤波器在公共波长指定波导内或波长指定波导内集成到MGVI结构中。 此外,在其它实施例中,波长滤波器由抵靠集成光子学装置的小平面的薄膜滤光器提供,其中光信号通过光波导耦合,和/或诸如多模干涉装置的附加光学元件耦合。
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公开(公告)号:US07539373B1
公开(公告)日:2009-05-26
申请号:US11984922
申请日:2007-11-26
申请人: Yury Logvin , Fang Wu , Kirill Pimenov , Valery Tolstikhin
发明人: Yury Logvin , Fang Wu , Kirill Pimenov , Valery Tolstikhin
IPC分类号: G02B6/26
CPC分类号: G02B6/12004 , G02B6/131 , G02B6/14
摘要: The invention describes method and apparatus for a mode converter enabling an adiabatic transfer of a higher order mode into a lower order optical mode within a photonic integrated circuit exploiting integrated semiconductor ridge waveguide techniques. As disclosed by the invention, such a mode conversion is achievable by using an asymmetric coupler methodology. In an exemplary embodiment of the invention, the invention is used to provide a low insertion loss optical connection between laterally-coupled DFB laser operating in first order mode and passive waveguide operating in the zero order optical mode. The integrated arrangement fabricated by using one-step epitaxial growth allows for a launch of the laser's light into the waveguide circuitry operating in the zero order lateral mode or efficiently coupling it to single-mode fiber, an otherwise high loss interface due to the difference in laser and optical fiber modes.
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10.发明申请Method and System for Determining a Polarization Dependent Characteristic of Optical and Opto-Electrical Devices 失效用于确定光学和光电器件的极化相关特性的方法和系统公开(公告)号:US20070002321A1
公开(公告)日:2007-01-04
申请号:US11427985
申请日:2006-06-30
申请人: Eric Desfonds , Kirill Pimenov
发明人: Eric Desfonds , Kirill Pimenov
IPC分类号: G01J4/00
CPC分类号: G01J4/04 , G01M11/337 , H04Q2213/1301
摘要: The present invention relates to a method for determining a polarization dependent characteristic of an optical or opto-electronic device. Using the Mueller matrix data, a matrix M corresponding to a difference between a first and a second transmission spectrum is determined. The first and the second transmission spectrum correspond to a first Stokes vector and a second Stokes vector, respectively, with the second Stokes vector being opposite to the first Stokes vector. Eigenvalues of the matrix M are then determined and the first Stokes vector is determined by selecting the largest eigenvalue of the matrix M and determining a corresponding eigenvector. The second Stokes vector is then determined as a vector opposite to the first Stokes vector. Finally, the data indicative of the polarization dependent characteristic of the device are determined using the first and the second Stokes vector and the Mueller matrix data. This method is highly beneficial by providing highly accurate data related to polarization dependent parameters while simultaneously providing a nearly instantaneous result with minimum computational effort.
摘要翻译: 本发明涉及一种用于确定光学或光电子器件的偏振相关特性的方法。 使用Mueller矩阵数据,确定与第一和第二透射光谱之间的差对应的矩阵M. 第一和第二透射光谱分别对应于第一斯托克斯矢量和第二斯托克斯矢量,第二斯托克斯矢量与第一斯托克斯矢量相反。 然后确定矩阵M的特征值,并且通过选择矩阵M的最大特征值并确定对应的特征向量来确定第一斯托克斯向量。 然后将第二斯托克斯矢量确定为与第一斯托克斯矢量相反的向量。 最后,使用第一和第二斯托克斯矢量和米勒矩阵数据确定指示设备的偏振相关特性的数据。 该方法通过提供与偏振相关参数相关的高精度数据而非常有益,同时以最小的计算量提供几乎瞬时的结果。
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