公开(公告)号：US09340445B2

公开(公告)日：2016-05-17

申请号：US13840987

申请日：2013-03-15

Applicant: Richard L. Glover ,  William F. Seng

Inventor： Richard L. Glover ,  William F. Seng

IPC: G02B6/02 ,  G02B6/00 ,  C03B37/023 ,  C03B37/014 ,  F27B1/26 ,  F27B1/28 ,  C03B37/025 ,  C03B37/012 ,  C03B37/03 ,  C03B37/029 ,  C03C13/04 ,  C03C25/10 ,  C03B37/027

CPC classification number: C03B37/0253 ,  C03B37/01211 ,  C03B37/0126 ,  C03B37/027 ,  C03B37/029 ,  C03B37/032 ,  C03B2201/78 ,  C03B2201/82 ,  C03B2201/86 ,  C03B2205/00 ,  C03B2205/30 ,  C03B2205/40 ,  C03C13/04 ,  C03C13/042 ,  C03C13/043 ,  C03C25/106 ,  C03C2218/32 ,  G02B6/00 ,  G02B6/02

Abstract: Optical fibers with previously unattainable characteristics and the method of producing the same are disclosed and claimed herein. Specifically, the application discloses and claims a method to produce ZBLAN, Indium Fluoride, Germanate and Chalcogenide optical fibers and other similar optical fibers in a microgravity environment. The resulting optical fibers have unique molecular structures not attainable when optical fibers with the identical chemical composition are produced in a standard 1 gravity environment.The method of the invention requires a novel draw tower and modified preform, which are specifically designed to operate in microgravity environments. A lead wire is inserted into the preform that, when wound onto a spool in the draw tower, causes a fiber to form. The pull rate of the lead wire controls the diameter of the fiber.

Abstract translation: 具有先前无法实现的特性的光纤及其制造方法在此公开和要求保护。 具体地，本申请公开了一种在微重力环境中生产ZBLAN，氟化铟，德国酸盐和硫族化物光纤和其他类似光纤的方法。 当在标准1重力环境中产生具有相同化学成分的光纤时，所得到的光纤具有不可获得的独特的分子结构。 本发明的方法需要一种新颖的拉制塔和改进的预制件，其被专门设计成在微重力环境中操作。 将引线插入预成型件中，当将其引导到拉制塔中的线轴上时，导致形成纤维。 引线的拉伸速度控制纤维的直径。

公开(公告)号：US20160041333A1

公开(公告)日：2016-02-11

申请号：US14749850

申请日：2015-06-25

Applicant: Daniel J. Gibson ,  Jasbinder S. Sanghera ,  Frederic H. Kung ,  Ishwar D. Aggarwal

Inventor： Daniel J. Gibson ,  Jasbinder S. Sanghera ,  Frederic H. Kung ,  Ishwar D. Aggarwal

IPC: G02B6/02 ,  C03B37/027 ,  C03B37/012

CPC classification number: G02B6/02338 ,  C03B37/0122 ,  C03B37/0279 ,  C03B2201/60 ,  C03B2201/80 ,  C03B2201/84 ,  C03B2201/86 ,  C03B2203/14 ,  C03B2203/222 ,  C03B2203/42 ,  G02B6/02328 ,  G02B6/02347

Abstract: The present invention is generally directed to a photonic bad gap fiber and/or fiber preform with a central structured region comprising a first non-silica based glass and a jacket comprising a second non-silica based glass surrounding the central structured region, where the Littleton softening temperature of the second glass is at least one but no more than ten degrees Celsius lower than the Littleton softening temperature of the first glass, or where the base ten logarithm of the glass viscosity in poise of the second glass is at least 0.01 but no more than 2 lower than the base ten logarithm of the glass viscosity in poise of the first glass at a fiber draw temperature. Also disclosed is a method of making a photonic bad gap fiber and/or fiber preform

Abstract translation: 本发明一般涉及具有中心结构化区域的光子不良间隙纤维和/或纤维预制件，该中心结构化区域包括第一非二氧化硅基玻璃和包含围绕中心结构化区域的第二非二氧化硅基玻璃的护套，其中Littleton 第二玻璃的软化温度比第一玻璃的利特尔顿软化温度低至少一个但不超过十摄氏度，或者第二玻璃的玻璃粘度的基准十对数为至少0.01，但是没有 在纤维拉伸温度下，第一玻璃的玻璃粘度的基数为10以下的基准值低于2。 还公开了制造光子不良间隙纤维和/或纤维预制件的方法

公开(公告)号：US09207398B2

公开(公告)日：2015-12-08

申请号：US13928633

申请日：2013-06-27

Applicant: Daniel J. Gibson ,  Jasbinder S. Sanghera ,  Leslie Brandon Shaw ,  Ishwar D. Aggarwal

Inventor： Daniel J. Gibson ,  Jasbinder S. Sanghera ,  Leslie Brandon Shaw ,  Ishwar D. Aggarwal

IPC: G02B6/06 ,  C03B37/012 ,  C03B37/028 ,  G02B6/02

CPC classification number: G02B6/06 ,  C03B37/01214 ,  C03B37/01222 ,  C03B37/01288 ,  C03B37/028 ,  C03B2201/86 ,  C03B2203/04 ,  G02B6/02042

Abstract: An optical fiber comprising non-silica, specialty glass that has multiple fiber cores arranged in a square registered array. The fiber cores are “registered” meaning that the array location of any fiber core is constant throughout the entire length of the fiber, including both ends. Optical fiber bundles are fabricated by combining multiple multi-core IR fibers with square-registration. Also disclosed is the related method for making the optical fiber.

Abstract translation: 一种包括非二氧化硅，特种玻璃的光纤，其具有以正方形配准排列的多个纤芯。 纤维芯是“注册的”，这意味着任何纤维芯的阵列位置在纤维的整个长度上是恒定的，包括两端。 通过组合多个多核红外光纤与平方配准制造光纤束。 还公开了制造光纤的相关方法。

公开(公告)号：US20150344342A1

公开(公告)日：2015-12-03

申请号：US14712338

申请日：2015-05-14

Applicant: Vinh Q. Nguyen ,  Mikhail Kotov ,  Daniel J. Gibson ,  Shyam S. Bayya ,  Jasbinder S. Sanghera

Inventor： Vinh Q. Nguyen ,  Mikhail Kotov ,  Daniel J. Gibson ,  Shyam S. Bayya ,  Jasbinder S. Sanghera

IPC: C03B5/187 ,  C03C3/32

CPC classification number: C03C3/321 ,  C03B5/06 ,  C03B5/16 ,  C03B2201/86

Abstract: A method to synthesize striae-free chalcogenide glass using melt processing. A striae-free chalcogenide glass with uniform refractive index.

Abstract translation: 使用熔融加工合成无条纹硫族化物玻璃的方法。 具有均匀折射率的无条纹硫族化物玻璃。

公开(公告)号：US08993176B2

公开(公告)日：2015-03-31

申请号：US13811052

申请日：2010-07-22

Applicant: Yuki Kato ,  Koji Kawamoto ,  Shigenori Hama ,  Takamasa Otomo

Inventor： Yuki Kato ,  Koji Kawamoto ,  Shigenori Hama ,  Takamasa Otomo

IPC: H01M6/18 ,  H01M10/0562 ,  H01B1/12

CPC classification number: H01M10/0562 ,  C03B19/00 ,  C03B2201/86 ,  C03C3/321 ,  C03C14/006 ,  C03C2214/16 ,  H01B1/122 ,  H01M2300/0068

Abstract: An object of the present invention is to provide a sulfide solid electrolyte glass producing a tiny amount of hydrogen sulfide. The present invention attains the above-mentioned object by providing a sulfide solid electrolyte glass including Li3PS4, characterized in that Li4P2S7 is not detected by 31P NMR measurement and the content of Li2S as determined by XPS measurement is 3% by mol or less.

Abstract translation: 本发明的目的是提供一种产生微量硫化氢的硫化物固体电解质玻璃。 本发明通过提供一种含有Li 3 PO 4的硫化物固体电解质玻璃来实现上述目的，其特征在于，通过31P NMR测量未检测到Li 4 P 2 S 7，并且通过XPS测量测定的Li 2 S含量为3摩尔％以下。

公开(公告)号：US08731356B2

公开(公告)日：2014-05-20

申请号：US11913417

申请日：2006-05-03

Applicant: Nasser Peyghambarian ,  Axel Schulzgen ,  Valery Temyanko

Inventor： Nasser Peyghambarian ,  Axel Schulzgen ,  Valery Temyanko

IPC: G02B6/02 ,  C03B37/02

CPC classification number: C03B37/0122 ,  C03B2201/70 ,  C03B2201/82 ,  C03B2201/86 ,  C03B2203/14 ,  C03B2203/34 ,  C03B2203/42 ,  G02B6/02333 ,  G02B6/02338 ,  G02B6/02352 ,  H01S3/06729 ,  H01S3/06737 ,  H01S3/06741 ,  H01S3/094003

Abstract: Optical devices and a method for manufacturing these devices. One optical device includes a core region having a first medium of a first refractive index n1, and includes a cladding region exterior to the core region. The cladding region includes a second medium having a second refractive index n2 higher than the first refractive index n1. The cladding region further includes a third medium having a third refractive index n3 lower than the first refractive index n1. The third medium is dispersed in the second medium to form a plurality of microstructures in the cladding region. Another optical device includes a plurality of core regions including at least one core having a doped first medium, and includes a cladding region exterior to the plurality of core regions. The core regions and the cladding region include a phosphate glass.

Abstract translation: 光学装置及其制造方法。 一个光学器件包括具有第一折射率n1的第一介质的核心区域，并且包括在核心区域外部的包层区域。 包层区域包括具有比第一折射率n1高的第二折射率n2的第二介质。 包层区域还包括具有比第一折射率n1低的第三折射率n3的第三介质。 第三介质分散在第二介质中以在包层区域中形成多个微结构。 另一种光学器件包括多个芯区，包括至少一个具有掺杂的第一介质的芯，并且在多个芯区域的外部包括包层区域。 核心区域和包层区域包括磷酸盐玻璃。

公开(公告)号：US08726698B2

公开(公告)日：2014-05-20

申请号：US13483023

申请日：2012-05-29

Applicant: Vinh Q Nguyen ,  Jasbinder S Sanghera ,  Shyam S Bayya ,  Geoff Chin ,  Ishwar D Aggarwal

Inventor： Vinh Q Nguyen ,  Jasbinder S Sanghera ,  Shyam S Bayya ,  Geoff Chin ,  Ishwar D Aggarwal

IPC: C03B37/012 ,  C03B37/075 ,  C03B5/173

CPC classification number: C03B5/2252 ,  C03B5/06 ,  C03B2201/86 ,  C03B2211/00 ,  C03C3/32 ,  Y02P40/57

Abstract: The present invention is generally directed to a method of making chalcogenide glasses including holding the melt in a vertical furnace to promote homogenization and mixing; slow cooling the melt at less than 10° C. per minute; and sequentially quenching the melt from the top down in a controlled manner. Additionally, the present invention provides for the materials produced by such method. The present invention is also directed to a process for removing oxygen and hydrogen impurities from chalcogenide glass components using dynamic distillation.

Abstract translation: 本发明一般涉及一种制备硫族化物玻璃的方法，包括将熔体保持在立式炉中以促进均质化和混合; 以低于每分钟10℃的速度缓慢冷却熔体; 并且以受控的方式从上到下依次淬火熔体。 此外，本发明提供了通过这种方法制造的材料。 本发明还涉及使用动态蒸馏从硫族化物玻璃组分中除去氧和氢杂质的方法。

公开(公告)号：US20130265635A1

公开(公告)日：2013-10-10

申请号：US13915444

申请日：2013-06-11

Applicant: IMRA America, Inc.

Inventor： Liang Dong ,  Brian Thomas ,  Libin Fu

IPC: G02F1/365 ,  G02F1/39 ,  G02B6/02

CPC classification number: G02F1/365 ,  C03B37/0122 ,  C03B2201/82 ,  C03B2201/86 ,  C03B2203/10 ,  C03B2203/14 ,  C03B2203/42 ,  C03B2205/08 ,  C03B2205/10 ,  G02B6/02214 ,  G02B6/02333 ,  G02B6/02357 ,  G02F1/395 ,  H01S3/0057 ,  H01S3/06729 ,  H01S3/06754

Abstract: Various embodiments of optical fiber designs and fabrication processes for ultra small core fibers (USCF) are disclosed. In some embodiments, the USCF includes a core that is at least partially surrounded by a region comprising first features. The USCF further includes a second region at least partially surrounding the first region. The second region includes second features. In an embodiment, the first features are smaller than the second features, and the second features have a filling fraction greater than about 90 percent. The first features and/or the second features may include air holes. Embodiments of the USCF may provide dispersion tailoring. Embodiments of the USCF may be used with nonlinear optical devices configured to provide, for example, a frequency comb or a supercontinuum.

公开(公告)号：US20120321263A1

公开(公告)日：2012-12-20

申请号：US13160760

申请日：2011-06-15

Applicant: DANIEL J. GIBSON ,  Jasbinder S. Sanghera ,  Frederic H. Kung ,  Pablo C. Pureza ,  Robert E. Miklos ,  Guillermo R. Villalobos ,  Leslie Brandon Shaw ,  Ishwar D. Aggarwal

Inventor： DANIEL J. GIBSON ,  Jasbinder S. Sanghera ,  Frederic H. Kung ,  Pablo C. Pureza ,  Robert E. Miklos ,  Guillermo R. Villalobos ,  Leslie Brandon Shaw ,  Ishwar D. Aggarwal

IPC: G02B6/032 ,  C03B37/022 ,  G02B6/02

CPC classification number: C03B37/0122 ,  C03B37/01274 ,  C03B2201/06 ,  C03B2201/60 ,  C03B2201/62 ,  C03B2201/70 ,  C03B2201/78 ,  C03B2201/86 ,  C03B2201/88 ,  C03B2203/14 ,  C03B2203/16 ,  C03B2203/42 ,  C03C3/321 ,  C03C4/10 ,  C03C13/043 ,  G02B6/02328 ,  G02B6/02347

Abstract: A method and apparatus for making a substantially void-free preform for a microstructured optical fiber using a one-step process is provided. A preform is prepared from specialty glasses using a direct extrusion method. A die for use with the direct extrusion method is also provided, and a method for drawing the preform into a HC-PBG fiber for use in transmitting infra-red wavelength light is also provided. The preform comprises an outer jacket made of solid glass, a cladding having a plurality of air holes arranged in a desired pattern within the jacket, and a core which is hollow.

Abstract translation: 提供一种用于使用一步法制造用于微结构光纤的基本上无空隙的预制件的方法和装置。 使用直接挤出法从特种玻璃制备预制件。 还提供了一种用于直接挤压方法的模具，还提供了一种用于将预成型件拉制成用于传输红外波长光的HC-PBG纤维的方法。 预成型件包括由实心玻璃制成的外套，具有以夹套内的所需图案布置的多个气孔的包层和中空的芯。

公开(公告)号：US08165441B2

公开(公告)日：2012-04-24

申请号：US12407663

申请日：2009-03-19

Applicant: Liang Dong ,  Brian Thomas ,  Libin Fu

Inventor： Liang Dong ,  Brian Thomas ,  Libin Fu

IPC: G02B6/02 ,  G02B6/036

CPC classification number: G02F1/365 ,  C03B37/0122 ,  C03B2201/82 ,  C03B2201/86 ,  C03B2203/10 ,  C03B2203/14 ,  C03B2203/42 ,  C03B2205/08 ,  C03B2205/10 ,  G02B6/02214 ,  G02B6/02333 ,  G02B6/02357 ,  G02F1/395 ,  H01S3/0057 ,  H01S3/06729 ,  H01S3/06754

Abstract: Various embodiments of optical fiber designs and fabrication processes for ultra small core fibers (USCF) are disclosed. In some embodiments, the USCF includes a core that is at least partially surrounded by a region comprising first features. The USCF further includes a second region at least partially surrounding the first region. The second region includes second features. In an embodiment, the first features are smaller than the second features, and the second features have a filling fraction greater than about 90 percent. The first features and/or the second features may include air holes. Embodiments of the USCF may provide dispersion tailoring. Embodiments of the USCF may be used with nonlinear optical devices configured to provide, for example, a frequency comb or a supercontinuum.

Abstract translation: 公开了用于超小芯纤维（USCF）的光纤设计和制造工艺的各种实施例。 在一些实施例中，USCF包括至少部分地被包括第一特征的区域包围的芯。 USCF还包括至少部分围绕第一区域的第二区域。 第二个区域包括第二个特征。 在一个实施例中，第一特征小于第二特征，并且第二特征具有大于约90％的填充分数。 第一特征和/或第二特征可以包括气孔。 USCF的实施例可以提供色散调整。 USCF的实施例可以与被配置为提供例如频率梳或超连续谱的非线性光学装置一起使用。