1
Webb James E: Catadioptric imaging system for high numerical aperture imaging with deep ultraviolet light. Corning Incorporated, Webb James E, SCHAEBERLE Timothy M, September 1, 2005: WO/2005/081030 (314 worldwide citation)

A catadioptric imaging system for micro-lithographic projection features a high numerical aperture objective where most of the focusing power is produced by reflection and refraction angles are limited to avoid additional aberration. A field correcting optic is appended to a Mangin mirror in an imme ...


2
Kishor P Gadkaree, Timothy V Johnson: Device for removal of contaminants from fluid streams. Corning Incorporated, L Rita Quatrini, May 12, 1998: US05750026 (155 worldwide citation)

A device for purifying a workstream of contaminants and method of making. One device is made of an inorganic monolithic porous particulate filter and a continuous uninterrupted coating of activated carbon impregnated into the pores of the filter. Preferably the filter has inlet and outlet faces, and ...


3
Bruce G Aitken, Margaret K Faber, Thomas D Ketcham, Dell J St Julien: Solid electrolyte fuel cells. Corning Incorporated, Kees van der Sterre, December 28, 1993: US05273837 (152 worldwide citation)

Thermal-shock-resistant fuel cell designs comprising flat and corrugated ceramic sheets combined to form channeled structures, the sheets being provided as thin, flexible ceramics and being particularly effective when used as components of compliant electrolyte substructures incorporating the flexib ...


4
Bruce G Aitken, Joel P Carberry, Steven E DeMartino, Henry E Hagy, Lisa A Lamberson, Richard J Miller II, Robert Morena, Joseph F Schroeder III, Alexander Streltsov, Sujanto Widjaja: Glass package that is hermetically sealed with a frit and method of fabrication. Corning Incorporated, William J Tucker, Kevin M Able, February 14, 2006: US06998776 (142 worldwide citation)

A hermetically sealed glass package and method for manufacturing the hermetically sealed glass package are described herein using an OLED display as an example. Basically, the hermetically sealed OLED display is manufactured by providing a first substrate plate and a second substrate plate and depos ...


5
A Joseph Antos, Michael G Blankenship, Douglas W Hall, Edward F Murphy, David K Smith: Dispersion compensating devices and systems. Corning Incorporated, K McNeill Taylor Jr, November 1, 1994: US05361319 (135 worldwide citation)

Disclosed is a family of dispersion compensating optical fibers that are adapted for use with conventional single-mode transmission fibers that are optimized for zero dispersion operation at a wavelength in the range from 1290 nm to 1330 nm to form a transmission link suitable for low dispersion ope ...


6
Mallanagouda D Patil, Louis S Socha Jr, Irwin M Lachman: Dual converter engine exhaust system for reducing hydrocarbon emissions. Corning Incorporated, Gary H Levin, Richard N Wardell, June 30, 1992: US05125231 (128 worldwide citation)

An engine exhaust system and method of controlling hydrocarbon emissions are provided. The system and method are based on the use of two catalytic converter chambers, a first chamber containing a catalytic material and a second chamber containing catalyst as well as molecular sieves capable of adsor ...


7
Rengan Kannabiran: Composite buffer optical fiber cables. Corning Incorporated, K McNeill Taylor Jr, September 15, 1992: US05148509 (119 worldwide citation)

Single fiber cables of the composite buffer type are provided which include: (a) a central optical waveguide fiber; (b) a layer of fill compound surrounding the optical fiber; (c) a layer of aramid fiber surrounding the fill compound; and (d) a plastic jacket surrounding the layer of aramid fiber. M ...


8
Scott Robertson Bickham, Dana Craig Bookbinder, Xin Chen, Ming Jun Li, Snigdharaj Kumar Mishra, Daniel Aloysius Nolan: Large effective area fiber. Corning Incorporated, Svetlana A Short, June 30, 2009: US07555187 (117 worldwide citation)

An optical fiber according to an embodiment of the present invention comprises: a glass core extending from a centerline to a radius R1 wherein R1 is greater than about 5 μm; a glass cladding surrounding and in contact with the core, the cladding comprising: (i) a first annular region extending from ...


9
Roger A Allaire, Harry E Menegus, Bruce H Raeder, Harrie J Stevens: Method and apparatus for breaking brittle materials. Corning Incorporated, Robert L Carlson, July 7, 1998: US05776220 (117 worldwide citation)

A glass breaking system is provided for breaking large sheets of glass into small sheets, in which a laser beam having an elongated beam spot shape, with a largest dimension which is at least 20 mm, more preferably at least 30 mm, and most preferably at least 40 mm, is moved across a glass sheet to ...


10
Scott Robertson Bickham, Ming Jun Li: Large numerical aperture bend resistant multimode optical fiber. Corning Incorporated, Svetlana Z Short, March 8, 2011: US07903918 (116 worldwide citation)

Bend resistant optical fibers which are multi-moded at 1300 nm include a core, an inner cladding, a low index ring and an outer cladding. The core has a graded index of refraction with a core alpha profile where 1.9≦αC≦2.1, a maximum relative refractive index percent Δ1Max%, and a numerical aperture ...



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