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1. 发明申请

US20070014528A1 Optical fiber clad-protective terminations 有权
标题翻译：光纤包层保护终端
公开(公告)号：US20070014528A1
公开(公告)日：2007-01-18
申请号：US11185082
申请日：2005-07-18
申请人： Lynda Busse , Frederic Kung , Jasbinder Sanghera , Ishwar Aggarwal
发明人： Lynda Busse , Frederic Kung , Jasbinder Sanghera , Ishwar Aggarwal
IPC分类号： G02B6/00
CPC分类号： G02B6/262 , G02B6/02347 , G02B6/4296
摘要： This invention pertains to fiber termination combination which includes an optical fiber having a fiber core for transmitting a highly energetic optical signal that can damage the fiber and a structured region around the core for directing the optical signal into the core, the structured region being characterized by multiple channels of smaller internal diameter than the core defined by thin walls disposed around said core; a ferrule, with an opening therein for locating said fiber, at the end of said fiber enveloping said fiber extremity which cooperates with said blocking structure to block the optical signal from impinging on said microstructured region of said fiber; and a blocking structure disposed over the end of said fiber with an opening mating with said fiber core, said blocking structure blocking the optical signal from impinging on said microstructured region of said fiber.
摘要翻译：本发明涉及光纤终端组合，该光纤终端组合包括具有光纤纤芯的光纤，该光纤芯用于传输能够损坏光纤的高能光学信号，以及用于将光信号引导到芯内的结构化区域，该结构区域的特征在于多个通道的内径小于由设置在所述芯周围的薄壁所限定的芯体; 套管，其中具有用于定位所述光纤的开口，在所述光纤的端部包围所述光纤末端，所述光纤末端与所述阻挡结构协作以阻挡光信号撞击所述光纤的所述微结构化区域; 以及阻挡结构，其设置在所述光纤的端部上，具有与所述光纤芯配合的开口，所述阻挡结构阻挡光信号撞击所述光纤的所述微结构化区域。

2. 发明申请

US20050065668A1 MISSILE WARNING AND PROTECTION SYSTEM FOR AIRCRAFT PLATFORMS 有权
标题翻译：飞机平台的故障警告和保护系统
公开(公告)号：US20050065668A1
公开(公告)日：2005-03-24
申请号：US10632211
申请日：2003-08-01
申请人： Jasbinder Sanghera , Lynda Busse , Ishwar Aggarwal
发明人： Jasbinder Sanghera , Lynda Busse , Ishwar Aggarwal
IPC分类号： F41H11/02 , F41H13/00 , G05D3/00 , G06F7/00
CPC分类号： F41H13/00 , F41G7/224 , F41H11/02 , G01S7/495
摘要： This invention pertains to the incorporation of a unitary infrared transmitting glass optical fiber within a jam head as part of an infrared missile seeking protection system for a movable platform. The jam head includes a first part rotatable around a first axis and a second part rotatably connected to said first part and rotatable around a second axis, a viewing port in said first part for viewing an object, at least one reflecting surface for conveying an image through said port, a camera optically connected via said at least one reflecting surface to said camera and a unitary glass fiber of constant core diameter passing through said first and said second parts for conveying an energetic optical signal therethrough and through an exit port through which the optical signal passes. The protection system includes a detector for locating a threat; an electronic and control system connected to said detector for receiving a signal from said detector; a laser connected to said electronic and control system; and a jam head including at least two independently rotatable parts and a tracking scanner connected to said laser and to said electronic and control system for sending a laser burst at the threat in order to disable/disorient same, said jam head comprising a unitary glass fiber of constant core diameter passing from the laser to and through said first and said second parts for conveying an energetic optical signal.
摘要翻译：本发明涉及将一体红外透射玻璃光纤结合在卡头内，作为用于可移动平台的红外导弹寻求保护系统的一部分。卡纸头包括可围绕第一轴线旋转的第一部分和可旋转地连接到所述第一部分并可围绕第二轴线旋转的第二部分，在所述第一部分中用于观察物体的观察口，用于传送图像的至少一个反射表面通过所述端口，通过所述至少一个反射表面与所述照相机光学连接的照相机和通过所述第一和所述第二部分的恒定纤芯直径的整体玻璃纤维，用于传送能量光学信号并通过出口，光信号通过。保护系统包括用于定位威胁的检测器; 连接到所述检测器的电子和控制系统，用于从所述检测器接收信号; 连接到所述电子和控制系统的激光; 以及包括至少两个可独立旋转的部件的卡纸头和连接到所述激光器的跟踪扫描器以及所述电子和控制系统，用于在威胁下发送激光脉冲串以便禁用/迷失方向，所述卡纸头包括单一玻璃纤维恒定芯径从激光器通过并通过所述第一和第二部分，用于传送高能光信号。

3. 发明授权

US07242835B2 Optical fiber clad-protective terminations 有权
公开(公告)号：US07242835B2
公开(公告)日：2007-07-10
申请号：US11185082
申请日：2005-07-18
申请人： Lynda Busse , Frederic H. Kung , Jasbinder Sanghera , Ishwar Aggarwal
发明人： Lynda Busse , Frederic H. Kung , Jasbinder Sanghera , Ishwar Aggarwal
IPC分类号： G02B6/38 , G02B6/02 , G02B6/00 , G02B6/32
CPC分类号： G02B6/262 , G02B6/02347 , G02B6/4296
摘要： This invention pertains to fiber termination combination which includes an optical fiber having a fiber core for transmitting a highly energetic optical signal that can damage the fiber and a structured region around the core for directing the optical signal into the core, the structured region being characterized by multiple channels of smaller internal diameter than the core defined by thin walls disposed around said core; a ferrule, with an opening therein for locating said fiber, at the end of said fiber enveloping said fiber extremity which cooperates with said blocking structure to block the optical signal from impinging on said microstructured region of said fiber; and a blocking structure disposed over the end of said fiber with an opening mating with said fiber core, said blocking structure blocking the optical signal from impinging on said microstructured region of said fiber.

4. 发明授权

US06873893B1 Missile warning and protection system for aircraft platforms 有权
标题翻译：飞机平台导弹预警和保护系统
公开(公告)号：US06873893B1
公开(公告)日：2005-03-29
申请号：US10632211
申请日：2003-08-01
申请人： Jasbinder Sanghera , Lynda Busse , Ishwar Aggarwal
发明人： Jasbinder Sanghera , Lynda Busse , Ishwar Aggarwal
IPC分类号： F41H11/02 , F41H13/00 , G05D3/00 , G06F7/00
CPC分类号： F41H13/00 , F41G7/224 , F41H11/02 , G01S7/495
摘要： This invention pertains to a jam head and to a protection system. The jam head is rotatable around at least two separate axes and includes a first part rotatable around a first axis and a second part rotatably connected to the first part and rotatable around a second axis; a viewing port in the first part for viewing an object; at least one reflecting surface for conveying an image through the port; a camera optically connected via the at least one reflecting surface to the port; and a unitary infrared transmitting glass fiber of constant core diameter passing from the laser to and through the first and the second parts for conveying an energetic infrared optical signal and an exit port through which the optical signal passes. The protection system is mounted on a movable platform and includes a detector for locating a threat; an electronic and control system connected to the detector for receiving a signal from the detector; a laser connected to the electronic and control system; and the jam head.
摘要翻译：本发明涉及卡纸头和保护系统。卡纸头可围绕至少两个分开的轴线旋转并且包括可围绕第一轴线旋转的第一部件和可旋转地连接到第一部件并可围绕第二轴线旋转的第二部件; 第一部分中的观察端口用于观察物体; 至少一个用于通过所述端口传送图像的反射表面; 通过所述至少一个反射表面与所述端口光学连接的照相机; 以及从激光通过第一和第二部分的恒定芯径的单一红外透射玻璃纤维，用于传送能量红外光信号和光信号通过的出口。保护系统安装在可移动平台上，并包括用于定位威胁的检测器; 连接到检测器的电子和控制系统，用于从检测器接收信号; 激光连接到电子和控制系统; 和卡头。

5. 发明申请

US20080060387A1 FABRICATION OF HIGH AIR FRACTION PHOTONIC BAND GAP (PBG) FIBERS 审中-公开
标题翻译：高分子光滑带隙（PBG）纤维的制造
公开(公告)号：US20080060387A1
公开(公告)日：2008-03-13
申请号：US11934946
申请日：2007-11-05
申请人： Jasbinder Sanghera , Pablo Pureza , Frederic Kung , Daniel Gibson , Leslie Shaw , Ishwar Aggarwal
发明人： Jasbinder Sanghera , Pablo Pureza , Frederic Kung , Daniel Gibson , Leslie Shaw , Ishwar Aggarwal
IPC分类号： C03B37/027
CPC分类号： G02B6/02328 , C03B37/0122 , C03B37/01274 , C03B37/025 , C03B37/02781 , C03B2201/60 , C03B2201/62 , C03B2201/70 , C03B2201/78 , C03B2201/80 , C03B2201/84 , C03B2201/86 , C03B2201/88 , C03B2203/12 , C03B2203/14 , C03B2203/16 , C03B2203/42 , C03B2205/10 , C03C11/00 , C03C13/043 , G02B6/02347 , G02B6/02361 , G02B6/02371
摘要： A photonic band gap fiber and method of making thereof is provided. The fiber is made of a non-silica-based glass and has a longitudinal central opening, a microstructured region having a plurality of longitudinal surrounding openings, and a jacket. The air fill fraction of the microstructured region is at least about 40%. The fiber may be made by drawing a preform into a fiber, while applying gas pressure to the microstructured region. The air fill fraction of the microstructured region is changed during the drawing.
摘要翻译：提供了一种光子带隙光纤及其制造方法。纤维由非二氧化硅基玻璃制成并具有纵向中心开口，具有多个纵向周围开口的微结构区域和护套。微结构区域的空气填充部分为至少约40％。纤维可以通过将预成型件拉入纤维中，同时向微结构化区域施加气体压力。在绘图期间，微结构化区域的空气填充部分发生变化。

6. 发明申请

US20070110377A1 High Air Fraction Photonic Band Gap Fibers 有权
标题翻译：高空气级光子带间隙纤维
公开(公告)号：US20070110377A1
公开(公告)日：2007-05-17
申请号：US11623359
申请日：2007-01-16
申请人： Jasbinder Sanghera , Pablo Pureza , Frederic Kung , Daniel Gibson , Leslie Shaw , Ishwar Aggarwal
发明人： Jasbinder Sanghera , Pablo Pureza , Frederic Kung , Daniel Gibson , Leslie Shaw , Ishwar Aggarwal
IPC分类号： G02B6/032
CPC分类号： G02B6/02328 , C03B37/0122 , C03B37/01274 , C03B37/025 , C03B37/02781 , C03B2201/60 , C03B2201/62 , C03B2201/70 , C03B2201/78 , C03B2201/80 , C03B2201/84 , C03B2201/86 , C03B2201/88 , C03B2203/12 , C03B2203/14 , C03B2203/16 , C03B2203/42 , C03B2205/10 , C03C11/00 , C03C13/043 , G02B6/02347 , G02B6/02361 , G02B6/02371
摘要： A photonic band gap fiber and method of making thereof is provided. The fiber is made of a non-silica-based glass and has a longitudinal central opening, a microstructured region having a plurality of longitudinal surrounding openings, and a jacket. The air fill fraction of the microstructured region is at least about 40%. The fiber may be made by drawing a preform into a fiber, while applying gas pressure to the microstructured region. The air fill fraction of the microstructured region is changed during the drawing.
摘要翻译：提供了一种光子带隙光纤及其制造方法。纤维由非二氧化硅基玻璃制成并具有纵向中心开口，具有多个纵向周围开口的微结构区域和护套。微结构区域的空气填充部分为至少约40％。纤维可以通过将预成型件拉入纤维中，同时向微结构化区域施加气体压力。在绘图期间，微结构化区域的空气填充部分发生变化。

7. 发明申请

US20050074215A1 FABRICATION OF HIGH AIR FRACTION PHOTONIC BAND GAP FIBERS 审中-公开
标题翻译：高空玻璃带隙光纤的制造
公开(公告)号：US20050074215A1
公开(公告)日：2005-04-07
申请号：US10904062
申请日：2004-10-21
申请人： Jasbinder Sanghera , Pablo Pureza , Frederic Kung , Daniel Gibson , Leslie Shaw , Ishwar Aggarwal
发明人： Jasbinder Sanghera , Pablo Pureza , Frederic Kung , Daniel Gibson , Leslie Shaw , Ishwar Aggarwal
IPC分类号： B32B1/00 , C03B37/012 , C03C11/00 , C03C13/04 , G02B20060101 , G02B6/02 , G02B6/20
CPC分类号： G02B6/02328 , C03B37/0122 , C03B37/01274 , C03B37/025 , C03B37/02781 , C03B2201/60 , C03B2201/62 , C03B2201/70 , C03B2201/78 , C03B2201/80 , C03B2201/84 , C03B2201/86 , C03B2201/88 , C03B2203/12 , C03B2203/14 , C03B2203/16 , C03B2203/42 , C03B2205/10 , C03C11/00 , C03C13/043 , G02B6/02347 , G02B6/02361 , G02B6/02371
摘要： A photonic band gap fiber and method of making thereof is provided. The fiber is made of a non-silica-based glass and has a longitudinal central opening, a microstructured region having a plurality of longitudinal surrounding openings, and a jacket. The air fill fraction of the microstructured region is at least about 40%. The fiber may be made by drawing a preform into a fiber, while applying gas pressure to the microstructured region. The air fill fraction of the microstructured region is changed during the drawing.
摘要翻译：提供了一种光子带隙光纤及其制造方法。纤维由非二氧化硅基玻璃制成并具有纵向中心开口，具有多个纵向周围开口的微结构区域和护套。微结构区域的空气填充部分为至少约40％。纤维可以通过将预成型件拉入纤维中，同时向微结构化区域施加气体压力。在绘图期间，微结构化区域的空气填充部分发生变化。

8. 发明申请

US20060230792A1 Hollow core photonic band gap infrared fibers 审中-公开
公开(公告)号：US20060230792A1
公开(公告)日：2006-10-19
申请号：US11129489
申请日：2005-05-16
申请人： Jasbinder Sanghera , Ishwar Aggarwal , L. Shaw , P. Pureza , Fred Kung , Brian Cole
发明人： Jasbinder Sanghera , Ishwar Aggarwal , L. Shaw , P. Pureza , Fred Kung , Brian Cole
IPC分类号： G02B6/02 , C03C3/32 , C03B37/022 , C03B37/02 , C03B37/075 , C03B37/027
CPC分类号： G02B6/02328 , C03B37/0122 , C03B37/01274 , C03B2201/86 , C03B2201/88 , C03B2203/12 , C03B2203/14 , C03B2203/16 , C03B2203/42 , C03C11/00 , C03C13/043 , G02B6/02347 , Y10T428/265 , Y10T428/2913
摘要： This invention pertains to a hollow core photonic band gap chalcogenide optical glass fiber and to a fabrication method for making the fiber. The fiber, which is 80-1000 microns in outside diameter, is characterized by a solid glass circumferential region and a structured region disposed centrally within the solid region, the structured region includes a hollow core of 1 micron to several hundreds of microns in diameter surrounded by a plurality of parallel hollow capillaries extending parallel to the core, the core being centrally and longitudinally located within the fiber. Ratio of open space to glass in the structured region is 30-99%. The fabrication method includes the steps of providing a mold, placing chalcogenide micro-tubes around the mold, stacking chalcogenide micro-canes around the stacked micro-tubes, fusing the micro-tubes and the micro-canes to form a preform, removing the mold and drawing the preform to obtain the fiber. In an alternative fabrication method, the fiber is made by extruding flowing chalcogenide glass through suitably made plate to form a preform and then drawing the preform to form the fiber.

9. 发明授权

US06993230B2 Hollow core photonic band gap infrared fibers 有权
标题翻译：空心光子带隙红外光纤
公开(公告)号：US06993230B2
公开(公告)日：2006-01-31
申请号：US10632210
申请日：2003-08-01
申请人： Jasbinder Sanghera , Ishwar Aggarwal , Leslie B. Shaw , Pablo C. Pureza , Fred Kung , Brian Cole
发明人： Jasbinder Sanghera , Ishwar Aggarwal , Leslie B. Shaw , Pablo C. Pureza , Fred Kung , Brian Cole
IPC分类号： G02B6/02
CPC分类号： G02B6/02328 , C03B37/0122 , C03B37/01274 , C03B2201/86 , C03B2201/88 , C03B2203/12 , C03B2203/14 , C03B2203/16 , C03B2203/42 , C03C11/00 , C03C13/043 , G02B6/02347 , Y10T428/265 , Y10T428/2913
摘要： This invention pertains to a hollow core photonic band gap chalcogenide optical glass fiber and to a fabrication method for making the fiber. The fiber, which is 80-1000 microns in outside diameter, is characterized by a solid glass circumferential region and a structured region disposed centrally within the solid region, the structured region includes a hollow core of 1 micron to several hundreds of microns in diameter surrounded by a plurality of parallel hollow capillaries extending parallel to the core, the core being centrally and longitudinally located within the fiber. Ratio of open space to glass in the structured region is 30-99%. The fabrication method includes the steps of providing a mold, placing chalcogenide micro-tubes around the mold, stacking chalcogenide micro-canes around the stacked micro-tubes, fusing the micro-tubes and the micro-canes to form a preform, removing the mold and drawing the preform to obtain the fiber. In an alternative fabrication method, the fiber is made by extruding flowing chalcogenide glass through suitably made plate to form a preform and then drawing the preform to form the fiber.
摘要翻译：本发明涉及中空光子带隙硫族化物光学玻璃纤维及其制造方法。外径为80-1000微米的纤维的特征在于固体玻璃圆周区域和设置在固体区域中心的结构区域，该结构区域包括直径为1微米至几百微米的中空芯体通过平行于芯部延伸的多个平行的中空毛细管，芯部居中并且纵向位于纤维内。结构区域的开放空间与玻璃的比例为30-99％。该制造方法包括以下步骤：提供模具，将硫族化物微管放置在模具周围，在堆叠的微管周围堆放硫族化物微型手杖，将微管和微型手杖熔合以形成预成型件，移除模具并拉制预制件以获得纤维。在替代的制造方法中，纤维通过将流动的硫族化物玻璃通过适当制成的板挤出以形成预成型件然后拉伸预制件以形成纤维而制成。

10. 发明申请

US20070087203A1 Low loss visible-IR transmitting glass-aluminum oxynitride composites and process 有权
标题翻译：低损耗可见红外透射玻璃 - 氮氧化铝复合材料及工艺
公开(公告)号：US20070087203A1
公开(公告)日：2007-04-19
申请号：US11250696
申请日：2005-10-13
申请人： Shyam Bayya , Jasbinder Sanghera , Guillermo Villalobos , Geoffrey Chin , Ishwar Aggarwal
发明人： Shyam Bayya , Jasbinder Sanghera , Guillermo Villalobos , Geoffrey Chin , Ishwar Aggarwal
IPC分类号： B32B17/06
CPC分类号： C03C3/253 , B32B2315/02 , C03C17/00 , C04B35/581 , C04B35/6455 , C04B37/005 , C04B37/04 , C04B37/042 , C04B37/045 , C04B2235/6562 , C04B2235/6565 , C04B2235/6567 , C04B2235/6581 , C04B2235/662 , C04B2235/77 , C04B2235/94 , C04B2235/96 , C04B2235/9607 , C04B2235/9653 , C04B2237/10 , C04B2237/125 , C04B2237/366 , C04B2237/52 , C04B2237/592 , C04B2237/70 , C04B2237/704 , C04B2237/76 , C04B2237/78
摘要： This invention pertains to a composite of AlON and a germanate glass, and to a process for bonding AlON to the glass. The composite includes AlON and glass bonded together and having transmission in the visible and mid-infrared wavelength region. The process includes the step of heating them together above the softening temperature of the glass, the composite having excellent, i.e., typically in excess of about 60%, transmission in the 0.4-5 wavelength region.
摘要翻译：本发明涉及AlON和锗酸盐玻璃的复合物，以及将AlON与玻璃结合的方法。该复合材料包括AlON和玻璃结合在一起并且在可见光和中红外波长区域具有透射。该方法包括将它们一起加热到高于玻璃的软化温度的步骤，该复合材料在0.4-5波长区域具有优异的，即通常超过约60％的透射率。

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