Having Particular Optical Characteristic Modifying Chemical Composition Patents (Class 385/141)
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Publication number: 20130343717Abstract: A coated optical fiber 1 comprising a glass fiber 10 and a primary coating layer 20 on the outer circumference of the glass fiber 10, wherein a resin constituting the primary coating layer 20 contains ingredient(s) having a molecular weight of more than 1,000, which is extracted with methyl ethyl ketone, in an amount of 5% by weight or more and 21% by weight or less and has a Young's modulus of 0.2 to 1.0 MPa. The resin constituting the primary coating layer 20 of the coated optical fiber 1 has a good curability, and the coated optical fiber 1 exhibits a reduced microbending loss.Type: ApplicationFiled: June 21, 2013Publication date: December 26, 2013Inventors: Kumiko TACHIBANA, Takashi FUJII, Takashi TAKADA, Noriaki IWAGUCHI, Yoshinori YAMAMOTO
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Publication number: 20130330051Abstract: A coated glass fiber 1 comprising a glass fiber 10 and a resin coating layer containing an inner layer 20 and an outer layer 30 provided on the outer circumference of the glass fiber 10, wherein the resin constituting the inner layer 20 is formed by curing a urethane-based ultraviolet curable resin composition containing a surfactant in an amount of 0.1 to 1.0% by weight and Young's modulus thereof is from 0.3 to 10 MPa. The coated optical fiber has a good water immersion resistance.Type: ApplicationFiled: June 10, 2013Publication date: December 12, 2013Inventors: Kumiko TACHIBANA, Takashi FUJII, Takashi TAKADA, Noriaki IWAGUCHI
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Patent number: 8600210Abstract: A GI type optical fiber of the present invention is a GI type optical fiber having a core component and a cladding component disposed around the outer periphery of the core component, the core component includes a polymer containing at least 55 wt % chlorostyrene monomer and a dopant, and the cladding component includes a polymer of a monomer containing at least 35 wt % methyl methacrylate. It is an object of the present invention to provide a GI type optical fiber in which chlorostyrene is used as the predominant component of the monomer that constitutes the core component, and therefore has excellent transparency and good flexibility, and allows high-speed communication.Type: GrantFiled: February 4, 2010Date of Patent: December 3, 2013Assignees: Sekisui Chemical Co., Ltd., Keio UniversityInventors: Hirotsugu Yoshida, Tazuru Okamoto, Ryosuke Nakao, Hiroka Inabe, Yuki Masabe, Yasuhiro Koike
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Patent number: 8600206Abstract: Disclosed is a reduced-diameter optical fiber that employs a novel coating system. When combined with a bend-insensitive glass fiber, the novel coating system according to the present invention yields an optical fiber having exceptionally low losses. The coating system features (i) a softer primary coating with excellent low-temperature characteristics to protect against microbending in any environment and in the toughest physical situations and, optionally, (ii) a colored secondary coating possessing enhanced color strength and vividness. The secondary coating provides improved ribbon characteristics for structures that are robust, yet easily entered (i.e., separated and stripped). The optional dual coating is specifically balanced for superior heat stripping in fiber ribbons, with virtually no residue left behind on the glass. This facilitates fast splicing and terminations.Type: GrantFiled: November 6, 2009Date of Patent: December 3, 2013Assignee: Draka Comteq, B.V.Inventor: Bob J. Overton
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Publication number: 20130315553Abstract: An apparatus produces an optical fiber by applying light to a photocurable composition and thereby curing the composition. The apparatus includes a nozzle for discharging the photocurable composition; a light irradiator for applying light to the fibrous photocurable composition discharged from the nozzle; and a controller that controls a light irradiation intensity at the nozzle orifice to 0.2 mW/cm2 or less. The nozzle is preferably a double-tube nozzle having an outer tube; and an inner tube arranged inside the outer tube.Type: ApplicationFiled: January 27, 2012Publication date: November 28, 2013Applicant: DAICEL CORPORATIONInventors: Masaki Takebe, Tomoaki Mahiko, Yoshinori Funaki, Shinji Syuto, Hitomi Omae
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Patent number: 8588573Abstract: A method for manufacturing an optical fiber in which a flow of a cooling gas within a cooling device is made to be an upward flow and the cooling gas is discharged to outside from an upper end of the cooling device by connecting the cooling device and a coating device in an airtight manner, and closing a flow of the cooling gas which flows toward a coating device within the cooling device using a meniscus of resin within the coating device. A temperature of the cooling gas is increased toward an upper portion of the cooling device from a lower portion of the cooling device by adjusting the flow rate of the cooling gas.Type: GrantFiled: July 15, 2011Date of Patent: November 19, 2013Assignee: Fujikura Ltd.Inventor: Kenji Okada
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Publication number: 20130301115Abstract: Various embodiments described herein comprise a laser and/or an amplifier system including a doped gain fiber having ytterbium ions in a phosphosilicate glass. Various embodiments described herein increase pump absorption to at least about 1000 dB/m-9000 dB/m. The use of these gain fibers provide for increased peak-powers and/or pulse energies. The various embodiments of the doped gain fiber having ytterbium ions in a phosphosilicate glass exhibit reduced photo-darkening levels compared to photo-darkening levels obtainable with equivalent doping levels of an ytterbium doped silica fiber.Type: ApplicationFiled: July 16, 2013Publication date: November 14, 2013Inventors: Liang Dong, Martin E. Fermann, Hugh McKay, Libin Fu, Shigeru Suzuki
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Patent number: 8538230Abstract: The present invention provides a resin composition and film for forming a cladding layer of an optical waveguide, which composition contains (A) a (meth)acrylic polymer having a weight average molecular weight more than 100,000, (B) a urethane (meth)acrylate, and (D) a radical polymerization initiator; and an optical waveguide and an optical module produced by use of the composition or film. There can be provided a resin composition for forming a cladding layer and a resin film for forming a cladding layer, which exhibit excellent bending durability and twisting durability, and an optical waveguide and an optical module each produced therefrom.Type: GrantFiled: January 23, 2009Date of Patent: September 17, 2013Assignee: Hitachi Chemical Company, Ltd.Inventors: Masami Ochiai, Tatsuya Makino, Toshihiko Takasaki, Atsushi Takahashi
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Publication number: 20130236709Abstract: The invention provides an optical fiber coated with a Supercoating, wherein the Supercoating comprises at least two layers, wherein the first layer is a Primary Coating that is in contact with the outer surface of the optical fiber and the second layer is a Secondary Coating in contact with the outer surface of the Primary Coating, wherein the cured Primary Coating on the optical fiber has the following properties after initial cure and after one month aging at 85° C. and 85% relative humidity: A) a % RAU of from about 84% to about 99%; B) an in-situ modulus of between about 0.15 MPa and about 0.60 MPa; and C) a Tube Tg, of from about ?25° C. to about ?55° C.; wherein the cured Secondary Coating on the optical fiber has the following properties after initial cure and after one month aging at 85° C. and 85% relative humidity: A) a % RAU of from about 80% to about 98%; B) an in-situ modulus of between about 0.60 GPa and about 1.90 GPa; and C) a Tube Tg, of from about 50° C. to about 80° C.Type: ApplicationFiled: April 22, 2013Publication date: September 12, 2013Applicant: DSM IP ASSETS B.V.Inventors: Steven Robert SCHMID, Petrus Jacobus Hubertus NIELS, Paulus Antonio Maria STEEMAN, Xiaosong WU, Wendell Wayne CATTRON, Tyson Dean NORLIN, Edward Joseph MURPHY, John M. ZIMMERMAN, Anthony Joseph TORTORELLO
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Patent number: 8532455Abstract: An optical fiber includes a core (1a) having an oblong rectangular or square cross section and made of quartz, a cladding (2) surrounding the core (1a), having a circular outer cross-sectional shape, having a lower refractive index than the core (1a), and made of resin, and a support layer (3) surrounding the cladding (2) and made of quartz.Type: GrantFiled: December 19, 2008Date of Patent: September 10, 2013Assignee: Mitsubishi Cable Industries, Ltd.Inventors: Tadahiko Nakai, Takaharu Kinoshita, Takeshi Satake, Takeji Akutsu, Motohiko Yamasaki
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Publication number: 20130230270Abstract: The disclosure is directed at a waveguide sandwich which comprises a pair of host materials, each of the host materials housing a component waveguide. The component waveguides are then placed in physical contact with each other to form a composite waveguide thereby producing a waveguide sandwich.Type: ApplicationFiled: November 10, 2011Publication date: September 5, 2013Inventor: Rolf Tjalle Horn
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Patent number: 8506887Abstract: A sensor for sensing at least one biological target or chemical target is provided. The sensor includes a membrane includes a membrane material that supports generation and propagation of at least one waveguide mode, where the membrane material includes a plurality of voids having an average size<2 microns. The sensor also includes at least one receptor having structure for binding to the target within the plurality of voids, and an optical coupler for coupling light to the membrane sufficient to generate the waveguide mode in the membrane from photons incident on the optical coupler.Type: GrantFiled: October 16, 2009Date of Patent: August 13, 2013Assignee: Vanderbilt UniversityInventors: Guoguang Rong, Raymond L. Mernaugh, Sharon M. Weiss
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Patent number: 8503853Abstract: A plastic optical fiber comprising a core and a cladding, wherein the cladding comprises at least one layer, and the cladding comprises a copolymer which comprises 10 to 35% by weight of ethylene, 45 to 69% by weight of tetrafluoroethylene, 20 to 45% by weight of hexafluoropropylene, and 0.01 to 10% by weight of a fluorovinyl compound represented by Formula (1): CH2?CX1(CF2)nX2 (wherein X1 represents a fluorine atom or a hydrogen atom, X2 represents a fluorine atom, a hydrogen atom, or a hydrocarbon group, and n represents an integer from 1 to 10) as a copolymer component.Type: GrantFiled: March 17, 2010Date of Patent: August 6, 2013Assignee: Toray Industries, Inc.Inventors: Hironobu Maeda, Keiichi Maeshima, Shinji Sato, Yoshiyuki Kiriyama, Hidekazu Kunieda
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Patent number: 8488931Abstract: An optical fiber having a core and an outer cladding, the core including from its center outward a central core having a radius and a refractive index difference with respect to the outer cladding, and a depressed inner cladding. The depressed inner cladding includes at least a first portion having a radius and a refractive index difference with respect to the outer cladding, the first portion preferably being adjacent to the central core, and a second portion adjacent to the first portion constituting a depressed trench having a radius, and a refractive index difference with respect to the outer cladding. The first portion of the inner cladding has a refractive index below the refractive index of the outer cladding, and the depressed trench has a refractive index that is lower than the refractive index of the first portion of the depressed inner cladding.Type: GrantFiled: October 12, 2010Date of Patent: July 16, 2013Assignee: Draka Comteq B.V.Inventors: Marianne Bigot-Astruc, Pierre Sillard, Louis-Anne De Montmorillon, Denis Molin, Simon Richard
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Patent number: 8488920Abstract: The invention provides an optical printed circuit board, comprising: plural polymer waveguide sections from independent waveguides, each of the sections being doped with an amplifying dopant; an optical pump source to pump the plural polymer waveguide sections, wherein the plural waveguide sections are arranged close or adjacent to one another such that a the optical pump source is able to pump plural of the optical waveguide sections.Type: GrantFiled: September 1, 2010Date of Patent: July 16, 2013Assignee: Xyratex Technology LimitedInventor: Richard C. A. Pitwon
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Patent number: 8483534Abstract: An improved multimode fiber optic cable is provided. The improved multimode fiber optic cable includes, but is not limited to, a refractive index profile which is designed to compensate for a radially dependent wavelength distribution of laser launch modes coupled into the multimode fiber optic cable in order to minimize modal dispersion within the multimode fiber optic cable.Type: GrantFiled: August 19, 2010Date of Patent: July 9, 2013Assignee: Panduit Corp.Inventors: Gaston E. Tudury, Richard J. Pimpinella
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Patent number: 8478097Abstract: Various embodiments include photonic bandgap fibers (PBGF). Some PBGF embodiments have a hollow core (HC) and may have a square lattice (SQL). In various embodiments, SQL PBGF can have a cladding region including 2-10 layers of air-holes. In various embodiments, an HC SQL PBGF can be configured to provide a relative wavelength transmission window ??/?c larger than about 0.35 and a minimum transmission loss in a range from about 70 dB/km to about 0.1 dB/km. In some embodiments, the HC SQL PBGF can be a polarization maintaining fiber. Methods of fabricating PBGF are also disclosed along with some examples of fabricated fibers. Various applications of PBGF are also described.Type: GrantFiled: September 11, 2012Date of Patent: July 2, 2013Assignee: IMRA America, Inc.Inventors: Liang Dong, Brian K. Thomas, Shigeru Suzuki, Libin Fu
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Patent number: 8463099Abstract: The present invention relates to a resin composition for an optical material comprising (A) a carboxylic acid-modified phenoxy resin, (B) a polymerizable compound and (C) a polymerization initiator, a resin film for an optical material comprising the above resin composition and an optical waveguide having a core part and/or a cladding layer formed by using the same. Provided are a resin composition for an optical material which is excellent in a heat resistance and a transparency and which is soluble in an alkaline aqueous solution, a resin film for an optical material comprising the above resin composition and an optical waveguide produced by using the same.Type: GrantFiled: February 8, 2008Date of Patent: June 11, 2013Assignee: Hitachi Chemical CompanyInventors: Tatsuya Makino, Atsushi Takahashi, Masatoshi Yamaguchi, Toshihiko Takasaki, Tomoaki Shibata, Masami Ochiai
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Publication number: 20130128131Abstract: A luminescent solar concentrator (10) is disclosed. The luminescent solar concentrator (10) has a light guide (12) defined at least in part by a reflector (14). It has a plurality of light absorbing centers (24) located in the light guide. The light absorbing centers (24) are configured to absorb sunlight (25) instant on the light guide (12). There are a plurality of light emitting centers (26) located in the light guide (14). Each of the plurality of light emitting centers (26) are capable of emitting light (18) after at least some of the energy of the absorbed sunlight (25) is transferred (28) from a respective one of the light absorbing centers (24). Each of the plurality of light emitting centers (26) are orientated relative to the reflector (14) to enhance the proportion of light emitted by the respective light emitting center (26) that is reflected by the reflector (14) and so guided within the light guide (12).Type: ApplicationFiled: April 13, 2011Publication date: May 23, 2013Applicant: THE UNIVERSITY OF SYDNEYInventors: Timothy Schmidt, Rowan Macqueen
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Patent number: 8437598Abstract: A resin composition is provided, which satisfies both an uncured layer flexibility requirement and a patterning resolution requirement for production of an optical waveguide by a roll-to-roll process. An optical waveguide produced by using the resin composition is also provided. The resin composition comprises: (A) an aromatic multifunctional epoxy polymer having a weight average molecular weight (Mw) of 500 to 5000; (B) an aromatic multifunctional epoxy polymer having a weight average molecular weight (Mw) of 10000 to 50000; (C) at least one of monofunctional, difunctional and trifunctional liquid aromatic epoxy monomers; and (D) a photoacid generator; wherein the components (A), (B) and (C) are present in proportions of 80 to 90 parts by weight, 5 to 15 parts by weight, and 1 to 10 parts by weight, respectively, based on a total of 100 parts by weight of the components (A), (B) and (C).Type: GrantFiled: May 2, 2011Date of Patent: May 7, 2013Assignee: Nitto Denko CorporationInventor: Tomoyuki Hirayama
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Publication number: 20130108230Abstract: Buffered optical fibers are formed by extruding discontinuities in the buffer layer. The discontinuities allow the buffer layer to be torn to provide access to the buffered optical fiber. The discontinuities can be longitudinally extending strips of material in the buffer layer, and can be introduced into the extrudate material flow used to form the first section of the buffer layer in the extrusion head.Type: ApplicationFiled: October 23, 2012Publication date: May 2, 2013Inventor: Samuel Don Navé
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Patent number: 8428410Abstract: The present invention embraces a multimode optical fiber that includes a central core having an alpha-index profile, an inner cladding, a depressed trench, and an outer cladding (e.g., an outer optical cladding). Typically, the central core's alpha-index profile has a minimum refractive index at the central core's radius that corresponds to a refractive index difference with respect to the outer cladding. The optical fiber achieves reduced bending losses and a high bandwidth with a reduced cladding effect for high-data-rate applications.Type: GrantFiled: December 3, 2010Date of Patent: April 23, 2013Assignee: Draka Comteq B.V.Inventors: Denis Molin, Marianne Bigot-Astruc, Pierre Sillard, Koen de Jongh
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Patent number: 8422842Abstract: Embodiments of the present invention provide a plastic fiber coupler. The plastic fiber coupler includes a bundle of plastic optical fibers (POFs) arranged in a ring-shape; and an optical mixing tube attached to a cross-section of the bundle of POFs. In one embodiment, a cross-section of the optical mixing tube may be coated with a reflective film forming a reflective type plastic fiber coupler; in another embodiment, the optical mixing tube is attached to a second bundle of plastic optical fibers forming a transmissive type plastic fiber coupler.Type: GrantFiled: September 2, 2010Date of Patent: April 16, 2013Inventor: Yong Huang
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Patent number: 8406599Abstract: A method for creating a composite material for fabricating an optical fiber. The method includes selecting multiple constituents and a concentration for each constituent, conceptually dividing a unit length model rod into a number of segments, computing origin locations for the segments, computing a longitudinal acoustic velocity for an assumed composite material, computing a photoelastic constant for the assumed composite material, computing an acoustic frequency for the assumed composite material, computing an acoustic attenuation coefficient for the assumed composite material, computing a Brillouin Spectral Width for the assumed composite material, and computing a Brillouin Gain Coefficient for the assumed composite material. if the computed Brillouin Gain Coefficient is greater than a preselected value, repeating the above, otherwise, mixing the constituents at an appropriate temperature. The number equals the number of constituents, and each segment is associated with a separate one of the constituents.Type: GrantFiled: March 17, 2010Date of Patent: March 26, 2013Inventor: Peter Dragic
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Patent number: 8406591Abstract: A low cost, high performance, low profile flexible reinforcement member that can be used for both optical and copper communications cable. The reinforcement members made according to the preferred process are more rigid than known reinforcement members, but are less rigid than glass pultruded rods. Communications cables utilizing these members are lightweight and exhibit an improved combination of strength and flexibility compared to traditional communications cables. Further, these communication cables may then be installed into underground ducts using more economical and faster installation techniques.Type: GrantFiled: February 27, 2012Date of Patent: March 26, 2013Assignee: Neptco JV, LLCInventors: Thomas P. Hager, Richard N. Lehman, James R. Priest
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Patent number: 8396341Abstract: The present invention discloses a method for fabricating an optical filter based on polymer asymmetric bragg couplers using holographic interference techniques, soft lithography, and micro molding, which comprises following steps: prepare a UV polymer with gratings; coating photo-resister film on the UV polymer, and exposed by UV light to obtain a photo-resister mold with two grooves each having gratings; coating diluted PDMS film on the photo-resister mold, and baking the PDMS film to obtain a PDMS mold having two waveguides with gratings; placing glass substrate over the PDMS mold to form a first tunnel; injecting a precure UV polymer into the first tunnel to from a cladding layer with two grooves having gratings pattern at its bottom; placing glass slide over the cladding layer and injecting a mixed UV polymer into the grooves to form waveguide cores; placing a second glass substrate over the cladding layer, and injecting UV polymer to form an upper cladding layer laminated with the cladding layer to obtaiType: GrantFiled: October 30, 2009Date of Patent: March 12, 2013Assignee: China University of Science and TechnologyInventors: Kun-Yi Lee, Wei-Ching Chuang, Cheng-Che Lee, Wei-Yu Lee
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Patent number: 8383695Abstract: The present invention relates to a phenoxy resin for an optical material obtained by subjecting at least one selected from specific difunctional epoxy resins and at least one selected from specific difunctional phenols to polyaddition reaction, wherein a film comprising the above phenoxy resin has a refractive index of 1.580 or less at 25° C. and a wavelength of 830 nm, a resin composition for an optical material containing the above phenoxy resin, a resin film for an optical material comprising the above resin composition and an optical waveguide produced by using the above resin composition and/or the above resin film.Type: GrantFiled: March 15, 2007Date of Patent: February 26, 2013Assignee: Hitachi Chemical Company, Ltd.Inventors: Tatsuya Makino, Atsushi Takahashi, Toshihiko Takasaki, Tomoaki Shibata, Masami Ochiai
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Patent number: 8380020Abstract: The planar optical structure forms an evanescent-field measuring platform. A body is made from the thermoplastic plastic with a three-dimensionally structured surface, wherein molding is performed directly from a master made of glass coated with metal oxide, without deposition of further coatings on a surface of the master. The planar optical structure forming an evanescent-field measuring platform has a first essentially optically transparent, waveguiding layer (a) with a refractive index n1 and a second essentially optical transparent layer (b) with refractive index n2, where n1>n2, in a case of an embodiment of a planar optical film waveguide, or a metal layer (a?) and a second layer (b), in a case of an embodiment for generating a surface plasmon resonance, wherein the second layer (b) includes a material from a group of cyclo-olefin polymers and cyclo-olefin copolymers.Type: GrantFiled: June 21, 2010Date of Patent: February 19, 2013Assignees: Weidmann Plastics Technology AG, Bayer Intellectual Property GmbHInventors: Tilo Callenbach, Max Gmür, Heinz Lüthi, Martin Andreas Bopp, Michael Pawlak, Markus Ehrat
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Patent number: 8369671Abstract: In one aspect, the present invention provides a hermetically sealed fiber sensing cable comprising: a core fiber comprising at least one Bragg grating region, an outer surface and a length; a fiber cladding in contact with the core fiber along the entire length of the core fiber, the fiber cladding having an outer surface and a length; a carbon layer disposed upon the outer surface of the fiber cladding along the entire length of the fiber cladding, the carbon layer comprising diamond-like carbon; a hydrogen ion absorption layer in contact with the carbon layer, the hydrogen ion absorption layer being disposed on the outer surface of the carbon layer; and an outer sleeve. Also provided in another aspect of the present invention, is a component for a hermetically sealed fiber sensing cable.Type: GrantFiled: February 26, 2010Date of Patent: February 5, 2013Assignee: General Electric CompanyInventors: Hua Xia, Axel Busboom, Kevin Matthew Durocher, Renato Guida, George Theodore Dalakos, Glen Peter Koste, Boon Kwee Lee
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Patent number: 8340487Abstract: A rare earth-doped core optical fiber of the present invention includes a core comprising a silica glass containing at least aluminum and ytterbium, and a clad provided around the core and comprising a silica glass having a lower refraction index than that of the core, wherein the core has an aluminum concentration of 2% by mass or more, and ytterbium is doped into the core at such a concentration that the absorption band which appears around a wavelength of 976 nm in the absorption band by ytterbium contained in the core shows a peak absorption coefficient of 800 dB/m or less.Type: GrantFiled: April 25, 2008Date of Patent: December 25, 2012Assignee: Fujikura Ltd.Inventors: Masashi Ikeda, Naritoshi Yamada, Kuniharu Himeno, Michihiro Nakai, Tomoharu Kitabayashi
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Publication number: 20120321270Abstract: A radiation curable resin composition, containing (A) urethane oligomer containing the reactants of an aliphatic polyester or polyether diol and a diisocyanate and a monohydric alcohol, or urethane oligomer obtained by reacting the reactants of an aliphatic polyester or polyether diol and a diisocyanate with a monohydric alcohol and then reacting a hydroxyl group-containing (meth)acrylate, and (B) monofunctional acrylic monomer, and the contained quantity of (C) polyfunctional acrylic monomer is 2 mass % or less is described and claimed.Type: ApplicationFiled: December 22, 2010Publication date: December 20, 2012Inventors: Hirokazu Imai, Yuutoku Yamashita, Hiroshi Yamaguchi, Takahiko Kurosawa
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Patent number: 8326104Abstract: The present disclosure relates to a telecommunications cable having a layer constructed to resist post-extrusion shrinkage. The layer includes a plurality of discrete shrinkage-reduction members embedded within a base material. The shrinkage-reduction members can be made of a liquid crystal polymer. The disclosure also relates to a method for manufacturing telecommunications cables having layers adapted to resist post-extrusion shrinkage.Type: GrantFiled: December 21, 2011Date of Patent: December 4, 2012Assignee: ADC Telecommunications, Inc.Inventor: Wayne M. Kachmar
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Patent number: 8306073Abstract: A fiber laser device includes a pumping light source configured to output pumping light having a wavelength ?, and a rare earth-doped fiber, wherein when the intensity change rate of the pumping light with respect to the temperature is denoted by ?P dB/° C., the wavelength change rate of the pumping light with respect to the temperature is denoted by ??p nm/° C., the pumping light absorption change rate of the rare earth-doped fiber per unit wavelength change at the wavelength of ? nm when the wavelength of the pumping light changes is denoted by A?(?) dB/nm, and the pumping light absorption change amount of the rare earth-doped fiber per unit temperature change at the wavelength of ? nm when the temperature of the rare earth-doped fiber changes is denoted by ?A(?) dB/° C., the wavelength ? of the pumping light is such a wavelength ? that ?P, ??p×A?(?) and ?A(?) compensate with each other.Type: GrantFiled: August 4, 2011Date of Patent: November 6, 2012Assignee: Fujikura Ltd.Inventor: Tomoharu Kitabayashi
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Patent number: 8287760Abstract: A light-emitting apparatus composed of a light source that emits primary light and a phosphor that absorbs the primary light and emits secondary light offers high brightness, low power consumption, and a long lifetime while minimizing adverse effects on the environment. The phosphor is formed of a III-V group semiconductor in the form of fine-particle crystals each having a volume of 2 800 nm3 or less. The light emitted from the fine-particle crystals depends on their volume, and therefore giving the fine-particle crystals a predetermined volume distribution makes it possible to adjust the wavelength range of the secondary light.Type: GrantFiled: February 22, 2010Date of Patent: October 16, 2012Assignee: Sharp Kabushiki KaishaInventors: Masaya Ishida, Tatsuya Morioka, Daisuke Hanaoka, Mototaka Taneya, Shigeo Fujita, Yoichi Kawakami, Masafumi Harada, Takatomo Sasaki, Yusuke Mori
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Patent number: 8285100Abstract: Various embodiments described include optical fiber designs and fabrication processes for ultra high numerical aperture optical fibers (UHNAF) having a numerical aperture (NA) of about 1. Various embodiments of UHNAF may have an NA greater than about 0.7, greater than about 0.8, greater than about 0.9, or greater than about 0.95. Embodiments of UHNAF may have a small core diameter and may have low transmission loss. Embodiments of UHNAF having a sufficiently small core diameter provide single mode operation. Some embodiments have a low V number, for example, less than 2.4 and large dispersion. Some embodiments of UHNAF have extremely large negative dispersion, for example, less than about ?300 ps/nm/km in some embodiments. Systems and apparatus using UHNAF are also disclosed.Type: GrantFiled: August 23, 2011Date of Patent: October 9, 2012Assignee: IMRA America, Inc.Inventors: Liang Dong, Xiang Peng, Brian K. Thomas
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Publication number: 20120251046Abstract: The present invention provides an optical waveguide circuit which includes: a waveguide made of a material whose temperature coefficient of refractive index has a second-order component; a groove formed in a part of the waveguide; and a compensation material having a temperature coefficient of refractive index different from the temperature coefficient of refractive index of the waveguide, and in which a normal line of an interface between the groove and the waveguide, and an optical axis of light propagating through the waveguide intersect at a predetermined intersection angle, and the predetermined intersection angle is determined so as to reduce a second-order component of optical path length change of the waveguide due to the second-order component of temperature coefficient of the refractive index of the waveguide.Type: ApplicationFiled: April 12, 2012Publication date: October 4, 2012Applicant: Furukawa Electric Co., Ltd.Inventors: Hiroshi Kawashima, Kazutaka Nara
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Patent number: 8254745Abstract: At least part of an optical device comprises an optical waveguide of a magneto-optical material. The magneto-optical material comprises a polycrystalline material having no lattice matching with an underlayer material. The optical waveguide exhibits no magnetic anisotropy due to an inverse magnetostriction effect caused by thermal strain. The magnetization direction of the optical waveguide is aligned with a traveling direction of light passing through the waveguide by shape magnetic anisotropy.Type: GrantFiled: July 11, 2008Date of Patent: August 28, 2012Assignee: NEC CorporationInventors: Masafumi Nakada, Takanori Shimizu
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Patent number: 8253933Abstract: A sensor for sensing a target chemical with high signal-to-noise ratio is disclosed. In some embodiments, the sensor comprises a sensing region that is optically coupled with an attenuation region. The sensing region receives optical stimulation that comprises light characterized by an excitation wavelength. In response to exposure to the target chemical, the sensing region fluoresces at a fluorescence wavelength. The attenuation region receives light from the fluorescing sensing region that includes light characterized by the fluorescence wavelength (i.e., signal) and light characterized by the excitation wavelength (i.e., noise). The attenuation region conveys the light to a detector that provides an electrical output signal based on the target chemical. While conveying the light, however, the attenuation region improves the signal-to-noise ratio by attenuating light characterized by the excitation wavelength more than light characterized by the fluorescence region.Type: GrantFiled: January 31, 2012Date of Patent: August 28, 2012Assignee: Octrolix B.V.Inventor: Rene Gerrit Heideman
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Publication number: 20120212736Abstract: The invention relates to a crystal fiber, a Raman spectrometer using the same and a inspection method thereof. The crystal fiber comprises a sapphire crystal is doped with two transition metals having different concentrations. An excitation light beam at a specific wavelength can propagate along the crystal fiber to generate a narrow-band light beam and a wide-band light beam to project on a specimen. Raman scattered light is emitted from the specimen. The wavelength of the Raman scattered light falls within the wavelength range of the wide-band light beam so that the wide-band light beam is enhanced at some characteristic wavelengths to facilitate Raman spectroscopy.Type: ApplicationFiled: February 21, 2012Publication date: August 23, 2012Applicant: NATIONAL TAIWAN UNIVERSITYInventors: PI LING HUANG, KUANG-YU HSU, CHENG-KAI WANG, EDMUND SUN, SHENG-LUNG HUANG
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Patent number: 8249408Abstract: Embodiments of this invention include composite articles having specific optical properties. In one embodiment of this invention, a composite comprises high and low refractive index light transmitting material and surface relief features. In further embodiments, the composite comprises volumetric dispersed phase domains that may be asymmetric in shape. In one embodiment of this invention, the composite is an optical film providing light collimating features along two orthogonal planes perpendicular to the surface of the film. In another embodiment, the composite has improved optical, thermal, mechanical, or environmental properties. In further embodiments of this invention, the composite is manufactured by optically coupling or extruding two or more light transmitting materials, and forming inverted light collimating surface relief features or light collimating surface relief features.Type: GrantFiled: June 20, 2011Date of Patent: August 21, 2012Assignee: Fusion Optix, Inc.Inventor: Zane Coleman
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Patent number: 8244091Abstract: A fiber fuse terminator which is used to terminate a fiber fuse, comprising: an optical fiber which includes a core and a cladding having holes extending in a longitudinal direction thereof, in which: a refractive index of the core of the optical fiber is higher than a refractive index of a portion of the cladding excepting portions of the holes; when it is assumed that a mode field diameter at a used wavelength of the optical fiber is MFD, and a distance in a cross section perpendicular to the longitudinal direction of the optical fiber between a center of the core and a position, closest to the center of the core, of the hole that is closest to the core is Rmin, a value expressed by 2×Rmin/MFD is no less than 1.2 and no more than 2.1; when it is assumed that a width, in a diameter direction, of a region where the holes present in the cladding is W, a value expressed by W/MFD is no less than 0.3; and when it is assumed that a diameter of the cladding of the optical fiber is Dfiber, W?0.Type: GrantFiled: March 22, 2010Date of Patent: August 14, 2012Assignee: Fujikura Ltd.Inventor: Katsuhiro Takenaga
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Publication number: 20120201504Abstract: The present invention provides a method of making rare earth (RE) doped optical fiber using BaO as co-dopant instead of Al or P commonly used for incorporation of the RE in silica glass by MCVD and solution doping technique. The method comprises deposition of particulate layer of GeO2 doped SiO2 with or without small P2O5 for formation of the core and solution doping by soaking the porous soot layer into an aqueous solution of RE and Ba containing salt. This is followed by dehydration and sintering of the soaked deposit, collapsing at a high temperature to produce the preform and drawing of fibers of appropriate dimension. The use of Ba-oxide enables to eliminate unwanted core-clad interface defect which is common in case of Al doped fibers. The fibers also show good RE uniformity, relatively low optical loss in the 0.6-1.6 ?m wavelength region and good optical properties suitable for their application in amplifiers, fiber lasers and sensor devices.Type: ApplicationFiled: March 29, 2010Publication date: August 9, 2012Inventors: Ranjan Sen, Anirban Dhar, Mukul Chandra Paul, Himadri Sekhar Maiti
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Patent number: 8224143Abstract: Provided is a substrate structure and a manufacturing method thereof, the substrate structure including a base substrate of single crystal; and a rhombohedral ferroelectric thin film exhibiting a spontaneous ferroelectric polarization and of a perovskite structure, the ferroelectric thin film being formed on a surface of the base substrate. The substrate structure may further include an optical waveguide formed on the ferroelectric thin film; and an electric field applying section that applies, to the optical waveguide, an electric field parallel to a surface of the base substrate. The electric field applying section generates the electric field so that the electric field direction of the electric field applied to the optical waveguide is parallel to a direction of the spontaneous ferroelectric polarization of the ferroelectric thin film.Type: GrantFiled: February 26, 2010Date of Patent: July 17, 2012Assignee: Advantest CorporationInventors: Shin Masuda, Kazunori Shiota, Atsushi Seki
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Patent number: 8218930Abstract: An optical fiber is coated with a super-hydrophobic carbon nanotube film, or other film containing a nanocomposite material, to increase reliability. The film is formed from a carbon nanotube dispersion, which is in turn formed from a mixture of water, carbon nanotube gel, and a polymer such as single stranded DNA of a repeating sequence of the base pairs GT with a length of 20 base pairs, which is sonicated and then ultracentrifuged.Type: GrantFiled: April 5, 2006Date of Patent: July 10, 2012Inventor: John W. Pettit
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Patent number: 8200059Abstract: The present invention provides an adhesive composition for an optical waveguide which comprises (a) an epoxy resin, (b) a curing agent and (c) a high molecular compound, in which a total light transmittance and a light transmittance in a wavelength of 700 to 1600 nm in a cured matter of the adhesive composition are 80% or more and in which a transparency is consistent with a heat resistance, an adhesive film for an optical waveguide prepared by forming the above adhesive composition into a film form, an adhesive sheet for an optical waveguide comprising the above adhesive composition and a supporting base material and an optical device produced by using them.Type: GrantFiled: March 13, 2008Date of Patent: June 12, 2012Assignee: Hitachi Chemical Company, Ltd.Inventors: Tomoaki Shibata, Atsushi Takahashi, Keisuke Ookubo, Tetsurou Iwakura
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Publication number: 20120138874Abstract: A photoluminescent composition (“phosphor ink”) comprises a suspension of particles of at least one blue light (380 nm to 480 nm) excitable phosphor material in a light transmissive liquid binder in which the weight loading of at least one phosphor material to binder material is in a range 40% to 75%. The binder can be U.V. curable, thermally curable, solvent based or a combination thereof and comprise a polymer resin; a monomer resin, an acrylic, a silicone or a fluorinated polymer. The composition can further comprise particles of a light reflective material suspended in the liquid binder. Photoluminescence wavelength conversion components; solid-state light emitting devices; light emitting signage surfaces and light emitting signage utilizing the composition are disclosed.Type: ApplicationFiled: November 30, 2011Publication date: June 7, 2012Applicant: INTEMATIX CORPORATIONInventors: Xianglong Yuan, Bing Dai, Jonathan Melman, Charles Edwards
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Patent number: 8195016Abstract: An optical fiber switch which may include first and second angled optical fibers having respective first and second end faces. Each of the first and second angled optical fibers may include a core having a core index of refraction, and a cladding surrounding the core and having a cladding index of refraction less than the core index of refraction. The optical fiber switch may further include a first index matching elastomeric solid layer having a proximal face coupled to the first end face, and a distal face opposite the proximal face to be repeatably optically coupled to the second end face. The first index matching elastomeric solid layer may have an index of refraction matching at least the index of refraction of the core. The optical fiber switch may also include at least one actuator for relatively moving the first and second angled optical fibers between a coupled position and an uncoupled position.Type: GrantFiled: November 2, 2009Date of Patent: June 5, 2012Assignee: Harris CorporationInventor: Lawrence Wayne Shacklette
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Publication number: 20120132278Abstract: An apparatus is disclosed including a wave-guide containing a luminescent material which responds to incident light by emitting frequency-shifted light. A first portion of the frequency-shifted light is internally reflected within the wave-guide to a wave-guide output, and a second portion of the frequency-shifted light is transmitted out of the wave-guide. The apparatus further includes a diffuse reflector positioned proximal to the waveguide to reflect at least some of the second portion of the frequency-shifted light hack in to the waveguide to be internally reflected within the wave-guide to a wave-guide output.Type: ApplicationFiled: July 28, 2011Publication date: May 31, 2012Inventors: Roland Winston, David G. Pelka
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Patent number: RE43480Abstract: The present invention provides materials suitable for use as secondary coatings of optical fibers. According to one embodiment of the invention, a curable composition includes an oligomer and at least one monomer, which when cured forms a cured polymeric material having a Young's modulus of at least about 1200 MPa, and a fracture toughness of at least about 0.7 MPa·m1/2. According to another embodiment of the invention, a coated optical fiber includes an optical fiber; a primary coating encapsulating the optical fiber; and a secondary coating encapsulating the primary coating, the secondary coating having a Young's modulus of at least about 1200 MPa, and a fracture toughness of at least about 0.7 MPa·m1/2.Type: GrantFiled: February 23, 2007Date of Patent: June 19, 2012Assignee: Corning IncorporatedInventors: Michelle D Fabian, Gregory S Glaeseman, David N Schissel
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Patent number: RE44288Abstract: According to one example of the invention an optical fiber comprises: (i) silica based, rare earth doped core having a first index of refraction n1; (ii) at least one silica based cladding surrounding the core and having a second index of refraction n2, such that n1>n2; wherein at least one of the core or cladding is doped with Al2O3, such that the ratio of max wt % to min wt % of Al2O3 concentration is less than 2:1.Type: GrantFiled: July 29, 2009Date of Patent: June 11, 2013Assignee: Corning IncorporatedInventors: Ronald L. Kimball, Robert A. Knowlton, Joseph E. McCarthy, Ji Wang, Donnell T. Walton, Luis A. Zenteno