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1. 发明授权

US07835065B2 Optical packages and methods for aligning optical packages 有权
标题翻译：用于对准光学封装的光学封装和方法
公开(公告)号：US07835065B2
公开(公告)日：2010-11-16
申请号：US12200661
申请日：2008-08-28
申请人： Etienne Almoric , Jacques Gollier , Lawrence Hughes , Garrett Andrew Piech
发明人： Etienne Almoric , Jacques Gollier , Lawrence Hughes , Garrett Andrew Piech
IPC分类号： G02F1/35 , G02F2/02 , H01S3/08
CPC分类号： G02B6/4214 , G01B11/272 , G02F1/377 , G02F2001/3546 , H01S5/005 , H01S5/0071 , H01S5/0092
摘要： An optical package includes a semiconductor laser, a wavelength conversion device and a MEMS-actuated mirror oriented on a base module to form a folded optical pathway between an output of the semiconductor laser and an input of the wavelength conversion device. An optical assembly is located in a mechanical positioning device and the mechanical positioning device is disposed on the base module along the optical pathway such that the beam of the semiconductor laser passes through the optical assembly, is reflected by the MEMS-actuated mirror back through the optical assembly and into the waveguide portion of the wavelength conversion device. The MEMS-actuated mirror is operable to scan the beam of the semiconductor laser over the input of the wavelength conversion device. The optical assembly may be adjusted along the optical pathway with the mechanical positioning device to focus the beam into the waveguide portion of the wavelength conversion device.
摘要翻译：光学封装包括半导体激光器，波长转换器件和面向基底模块的MEMS致动镜，以在半导体激光器的输出端与波长转换器件的输入端之间形成折叠光路。光学组件位于机械定位装置中，并且机械定位装置沿着光学路径设置在基座模块上，使得半导体激光器的光束通过光学组件，被MEMS致动的反射镜反射回通过光学组件并进入波长转换装置的波导部分。 MEMS致动反射镜可操作以通过波长转换装置的输入来扫描半导体激光束的光束。光学组件可以利用机械定位装置沿光学路径调节，以将光束聚焦到波长转换装置的波导部分中。

2. 发明申请

US20090190624A1 Optical Packages and Methods for Aligning Optical Packages 有权
标题翻译：光学封装和对准光学封装的方法
公开(公告)号：US20090190624A1
公开(公告)日：2009-07-30
申请号：US12200661
申请日：2008-08-28
申请人： Etienne Almoric , Jacques Gollier , Lawrence Charles Hughes, JR. , Garrett Andrew Piech
发明人： Etienne Almoric , Jacques Gollier , Lawrence Charles Hughes, JR. , Garrett Andrew Piech
IPC分类号： H01S3/08 , G02F1/35 , G02B26/08
CPC分类号： G02B6/4214 , G01B11/272 , G02F1/377 , G02F2001/3546 , H01S5/005 , H01S5/0071 , H01S5/0092
摘要： An optical package includes a semiconductor laser, a wavelength conversion device and a MEMS-actuated mirror oriented on a base module to form a folded optical pathway between an output of the semiconductor laser and an input of the wavelength conversion device. An optical assembly is located in a mechanical positioning device and the mechanical positioning device is disposed on the base module along the optical pathway such that the beam of the semiconductor laser passes through the optical assembly, is reflected by the MEMS-actuated mirror back through the optical assembly and into the waveguide portion of the wavelength conversion device. The MEMS-actuated mirror is operable to scan the beam of the semiconductor laser over the input of the wavelength conversion device. The optical assembly may be adjusted along the optical pathway with the mechanical positioning device to focus the beam into the waveguide portion of the wavelength conversion device.
摘要翻译：光学封装包括半导体激光器，波长转换器件和面向基底模块的MEMS致动镜，以在半导体激光器的输出端与波长转换器件的输入端之间形成折叠光路。光学组件位于机械定位装置中，并且机械定位装置沿着光学路径设置在基座模块上，使得半导体激光器的光束通过光学组件，被MEMS致动的反射镜反射回通过光学组件并进入波长转换装置的波导部分。 MEMS致动反射镜可操作以通过波长转换装置的输入来扫描半导体激光束的光束。光学组件可以利用机械定位装置沿光学路径调节，以将光束聚焦到波长转换装置的波导部分中。

3. 发明申请

US20120221264A1 APPARATUS AND METHOD FOR DETERMINING SPARKLE 有权
标题翻译：用于确定SP。的装置和方法
公开(公告)号：US20120221264A1
公开(公告)日：2012-08-30
申请号：US13354827
申请日：2012-01-20
申请人： Jacques Gollier , Shandon Dee Hart , Garrett Andrew Piech , James Andrew West
发明人： Jacques Gollier , Shandon Dee Hart , Garrett Andrew Piech , James Andrew West
IPC分类号： G06F19/00 , G01R31/44
CPC分类号： G02F1/1309 , G01J1/18 , G01J1/4228 , G01J2001/4247 , G02F1/133502
摘要： An apparatus and method for determining and quantifying “sparkle”—the random noise that is generated when a pixelated image is viewed through a roughened surface of a transparent sample. The apparatus includes a pixelated source and an imaging system located in an optical path originating from the pixelated source, wherein a transparent sample may be placed in the optical path between the pixelated source and the optical system. The degree of sparkle is determined by obtaining an integrated image for the pixelated image; and calculating a standard deviation of the integrated pixel power. An objective level of sparkle can be defined by correlating the amount of sparkle provided by the apparatus with visual impressions.
摘要翻译：用于确定和量化“闪烁”的装置和方法 - 当通过透明样品的粗糙表面观察像素化图像时产生的随机噪声。该装置包括位于源自像素化源的光路中的像素化源和成像系统，其中可以将透明样品放置在像素化源和光学系统之间的光路中。通过获得用于像素化图像的积分图像来确定闪光度; 并计算积分像素功率的标准偏差。可以通过将设备提供的闪光量与视觉印象相关联来定义闪光的客观水平。

4. 发明申请

US20110188038A1 Label-Independent Optical Reader System And Methods With Optical Scanning 审中-公开
标题翻译：标签独立光学读取器系统和光学扫描方法
公开(公告)号：US20110188038A1
公开(公告)日：2011-08-04
申请号：US12850075
申请日：2010-08-04
申请人： Jacques Gollier , Garrett Andrew Piech , Michael Brian Webb
发明人： Jacques Gollier , Garrett Andrew Piech , Michael Brian Webb
IPC分类号： G01J3/28
CPC分类号： G01N21/7743 , G02B26/0833 , G02B26/101
摘要： Optical reader systems and methods for label-independent reading of resonant waveguide (RWG) biosensors operably supported by a microplate as defined herein. The system includes a light source, a spectrometer unit, a beam-forming optical system and a scanning optical system that includes a scanning mirror device, a mirror device driver operably coupled to the scanning mirror device, and an F-theta lens arranged between the microplate and the beam-forming optical system. Some systems use multiple optical beams to scan multiple biosensors at once without having to move the microplate. Asynchronous scanning of multiple beams allows for reducing the number of spectrometer units needed.
摘要翻译：光学读取器系统和用于标签无关读取谐振波导（RWG）生物传感器的方法，其可操作地由如本文定义的微孔板支撑。该系统包括光源，光谱仪单元，波束形成光学系统和扫描光学系统，其包括扫描反射镜装置，可操作地耦合到扫描反射镜装置的反射镜装置驱动器和布置在扫描反射镜装置之间的F-theta透镜微板和波束形成光学系统。一些系统使用多个光束一次扫描多个生物传感器，而不必移动微孔板。多个波束的异步扫描允许减少所需的光谱仪单元的数量。

5. 发明授权

US08294130B2 Methods and systems for optimizing the alignment of optical packages 有权
标题翻译：用于优化光学封装对准的方法和系统
公开(公告)号：US08294130B2
公开(公告)日：2012-10-23
申请号：US12813610
申请日：2010-06-11
申请人： Jacques Gollier , Garrett Andrew Piech , Daniel Ohen Ricketts
发明人： Jacques Gollier , Garrett Andrew Piech , Daniel Ohen Ricketts
IPC分类号： G01N21/86
CPC分类号： G02B26/101 , G02F1/377
摘要： A method for optimizing the alignment of an optical package includes directing a beam spot of a laser along a folded optical path and onto a waveguide portion of a wavelength conversion. The output intensity of the wavelength conversion device is measured as a position of an adjustable optical component is adjusted about a first scanning axis and a second scanning axis thereby traversing the beam spot along a first and second scan lines on the waveguide portion of the wavelength conversion device. The change in the output intensity of the wavelength conversion device is then determined based on the adjusted position of the adjustable optical component. The adjustable optical component is then positioned on the first scanning axis and the second scanning axis based on the determined changes in the output intensity of the wavelength conversion device such that the output intensity of the wavelength conversion device is maximized.
摘要翻译：用于优化光学封装的对准的方法包括将激光束的束斑沿着折叠的光路引导到波长转换的波导部分上。测量波长转换装置的输出强度，因为可调节光学部件的位置围绕第一扫描轴和第二扫描轴进行调节，从而沿着波长转换的波导部分上的第一和第二扫描线遍及光束点设备。然后，基于可调节光学部件的调整位置来确定波长转换装置的输出强度的变化。基于所确定的波长转换装置的输出强度的变化，使可调光学部件位于第一扫描轴和第二扫描轴上，使得波长转换装置的输出强度最大化。

6. 发明申请

US20110303820A1 Methods And Systems For Optimizing The Alignment Of Optical Packages 有权
标题翻译：用于优化光学封装的对准的方法和系统
公开(公告)号：US20110303820A1
公开(公告)日：2011-12-15
申请号：US12813610
申请日：2010-06-11
申请人： Jacques Gollier , Garrett Andrew Piech , Daniel Ohen Ricketts
发明人： Jacques Gollier , Garrett Andrew Piech , Daniel Ohen Ricketts
IPC分类号： G01J1/24 , G01B11/27
CPC分类号： G02B26/101 , G02F1/377
摘要： A method for optimizing the alignment of an optical package includes directing a beam spot of a laser along a folded optical path and onto a waveguide portion of a wavelength conversion. The output intensity of the wavelength conversion device is measured as a position of an adjustable optical component is adjusted about a first scanning axis and a second scanning axis thereby traversing the beam spot along a first and second scan lines on the waveguide portion of the wavelength conversion device. The change in the output intensity of the wavelength conversion device is then determined based on the adjusted position of the adjustable optical component. The adjustable optical component is then positioned on the first scanning axis and the second scanning axis based on the determined changes in the output intensity of the wavelength conversion device such that the output intensity of the wavelength conversion device is maximized.
摘要翻译：用于优化光学封装的对准的方法包括将激光束的束斑沿着折叠的光路引导到波长转换的波导部分上。测量波长转换装置的输出强度，因为可调节光学部件的位置围绕第一扫描轴和第二扫描轴进行调节，从而沿着波长转换的波导部分上的第一和第二扫描线遍及光束点设备。然后，基于可调节光学部件的调整位置来确定波长转换装置的输出强度的变化。基于所确定的波长转换装置的输出强度的变化，使可调光学部件位于第一扫描轴和第二扫描轴上，使得波长转换装置的输出强度最大化。

7. 发明授权

US09411180B2 Apparatus and method for determining sparkle 有权
标题翻译：用于确定闪光的装置和方法
公开(公告)号：US09411180B2
公开(公告)日：2016-08-09
申请号：US13354827
申请日：2012-01-20
申请人： Jacques Gollier , Shandon Dee Hart , Garrett Andrew Piech , James Andrew West
发明人： Jacques Gollier , Shandon Dee Hart , Garrett Andrew Piech , James Andrew West
IPC分类号： G01R31/26 , G02F1/13 , G01J1/18 , G02F1/1335 , G01J1/42
CPC分类号： G02F1/1309 , G01J1/18 , G01J1/4228 , G01J2001/4247 , G02F1/133502
摘要： An apparatus and method for determining and quantifying “sparkle”—the random noise that is generated when a pixelated image is viewed through a roughened surface of a transparent sample. The apparatus includes a pixelated source and an imaging system located in an optical path originating from the pixelated source, wherein a transparent sample may be placed in the optical path between the pixelated source and the optical system. The degree of sparkle is determined by obtaining an integrated image for the pixelated image; and calculating a standard deviation of the integrated pixel power. An objective level of sparkle can be defined by correlating the amount of sparkle provided by the apparatus with visual impressions.
摘要翻译：用于确定和量化“闪烁”的装置和方法 - 当通过透明样品的粗糙表面观察像素化图像时产生的随机噪声。该装置包括位于源自像素化源的光路中的像素化源和成像系统，其中可以将透明样品放置在像素化源和光学系统之间的光路中。通过获得用于像素化图像的积分图像来确定闪光度; 并计算积分像素功率的标准偏差。可以通过将设备提供的闪光量与视觉印象相关联来定义闪光的客观水平。

8. 发明授权

US07414778B1 Wavelength conversion devices and fabrication methods for same 失效
标题翻译：波长转换器件及其制造方法相同
公开(公告)号：US07414778B1
公开(公告)日：2008-08-19
申请号：US11978864
申请日：2007-10-30
申请人： Jacques Gollier , Garrett Andrew Piech
发明人： Jacques Gollier , Garrett Andrew Piech
IPC分类号： G02F1/35 , H01S3/10
CPC分类号： G02F1/3558 , G02F1/3775 , G02F2201/307 , H01S5/0064
摘要： Particular embodiments of the present invention relate generally to a method of fabricating a wavelength conversion device. According to the method, the wavelength conversion device is fabricated by providing a nonlinear optical material and poling the nonlinear optical material to form a plurality of periodically inverted poling domains arranged at an anti-back reflective periodicity Λ. The geometry and the anti-back reflective periodicity Λ of the poled nonlinear material are selected such that the difference between a phase matching wavelength λΦ of the poled nonlinear optical material and a Bragg wavelength λBRAGG of the poled nonlinear optical material is greater than 1 nm.
摘要翻译：本发明的具体实施方案一般涉及制造波长转换装置的方法。根据该方法，通过提供非线性光学材料并极化非线性光学材料以形成以反向反射周期Lambda布置的多个周期性反转的极化畴来制造波长转换器件。极化非线性材料的几何形状和抗背反射周期性λ被选择为使得极化的非线性光学材料的相位匹配波长λPhi 与布拉格波长λBRAGG之间的差极化非线性光学材料的大于1nm。

9. 发明授权

US07916769B2 Optical package having deformable mirrors for focus compensation 失效
标题翻译：具有用于聚焦补偿的可变形反射镜的光学封装
公开(公告)号：US07916769B2
公开(公告)日：2011-03-29
申请号：US12427939
申请日：2009-04-22
申请人： Jacques Gollier , Garrett Andrew Piech
发明人： Jacques Gollier , Garrett Andrew Piech
IPC分类号： H01S3/08
CPC分类号： G02B26/0825 , G02B26/0833 , G02F1/377 , G02F2001/3503
摘要： An optical package includes a semiconductor laser, an adjustable mirror and a wavelength conversion device comprising a waveguide portion. The semiconductor laser, adjustable mirror, and wavelength conversion device are oriented to form an optical pathway between an output of the semiconductor laser and an input of the wavelength conversion device. The beam of the semiconductor laser is directed along the optical pathway and onto the adjustable mirror where the beam is reflected by the adjustable mirror onto the waveguide portion of the wavelength conversion device. The adjustable mirror may also be either thermally or mechanically deformable such that, when the adjustable mirror is deformed, the path of the beam along the optical pathway is altered thereby focusing the beam on the waveguide portion of the wavelength conversion device. The adjustable mirror may be adjusted such that the beam of the semiconductor laser is positioned on the waveguide portion of the wavelength conversion device.
摘要翻译：光学封装包括半导体激光器，可调镜和包括波导部分的波长转换器件。半导体激光器，可调镜和波长转换器件被定向成在半导体激光器的输出端和波长转换器件的输入端之间形成光路。半导体激光束的光束沿着光学路径被引导到可调整反射镜上，其中光束被可调节反射镜反射到波长转换器件的波导部分上。可调节反射镜也可以是热或机械可变形的，使得当可调节反射镜变形时，沿着光学路径的光束的路径被改变，从而将光束聚焦在波长转换装置的波导部分上。可调节可调镜，使得半导体激光束的光束位于波长转换装置的波导部分上。

10. 发明申请

US20100150185A1 MULTI-VARIABLE CONTROL METHODS FOR OPTICAL PACKAGES 失效
标题翻译：用于光学包装的多变量控制方法
公开(公告)号：US20100150185A1
公开(公告)日：2010-06-17
申请号：US12335692
申请日：2008-12-16
申请人： Jacques Gollier , Garrett Andrew Piech , Dragan Pikula , Daniel Ohen Ricketts
发明人： Jacques Gollier , Garrett Andrew Piech , Dragan Pikula , Daniel Ohen Ricketts
IPC分类号： H01S3/10
CPC分类号： H01S5/0683 , G02F1/35 , G02F1/3775 , H01S5/0092 , H01S5/06256 , H01S5/0687
摘要： According to one embodiment of the present invention, an optical package comprises one or more semiconductor lasers coupled to a wavelength conversion device with adaptive optics. The optical package also comprises a package controller programmed to operate the semiconductor laser and the adaptive optics based on modulated feedback control signals supplied to the wavelength selective section of the semiconductor laser and the adaptive optics. The wavelength control signal supplied to the wavelength selective section of the semiconductor laser may be adjusted based on the modulated wavelength feedback control signal such that the response parameter of the wavelength conversion device is optimized. Similarly, the position control signals supplied to the adaptive optics may be adjusted based on the modulated feedback position control signals such that the response parameter of the wavelength conversion device is optimized.
摘要翻译：根据本发明的一个实施例，光学封装包括耦合到具有自适应光学器件的波长转换器件的一个或多个半导体激光器。光学封装还包括编程为基于提供给半导体激光器和自适应光学器件的波长选择部分的调制反馈控制信号来操作半导体激光器和自适应光学器件的封装控制器。提供给半导体激光器的波长选择部分的波长控制信号可以基于调制的波长反馈控制信号进行调整，使得波长转换器件的响应参数被优化。类似地，可以基于调制的反馈位置控制信号来调整提供给自适应光学器件的位置控制信号，使得波长转换装置的响应参数被优化。

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