Patents by Inventor Shandon D. Hart
Shandon D. Hart has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9690038Abstract: A backlight includes a light source and one or more light recycling films. The light source generates light that exits the light source with an angular exit distribution. The light recycling films are oriented in relation to the light source so that the prism peaks of the recycling films are oriented away from the light source. The recycling films have a range of optimal incident angles that allow light to pass through the recycling films without recycling. The components of the light source, the characteristics of the recycling films, or both, are configured to control the overlap between the exit distribution of the light source and the optimal incident angle range of the recycling films.Type: GrantFiled: June 20, 2008Date of Patent: June 27, 2017Assignee: 3M Innovative Properties CompanyInventors: Gary T. Boyd, Ji-Young Choi, John T. Cowher, Yasuyuki Daigo, Kenneth A. Epstein, Shandon D. Hart, Charles D. Hoyle, Min-Young Ji, Chideuk Kim, Byung-Soo Ko, Keith M. Kotchick, Wade D. Kretman, David J. Lamb, Seo-Hern Lee, Eric W. Nelson, Youngsoo Park, Xianneng Peng, Yuji Saito, Naoya Taniguchi, John F. Van Derlofske, III, Leland R. Whitney, Xingpeng Yang, Yang Yu, Jie Zhou, Rui Zhang
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Patent number: 9664834Abstract: An optical film that includes a reflective polarizer and a stretched polymer film is disclosed. The stretched polymer film is laminated to the reflective polarizer, and the stretched polymer film exhibits a refractive index symmetry point at an angle of incidence in air of at least about 60 degrees in a plane of incidence parallel to a direction of greatest stretch.Type: GrantFiled: March 30, 2009Date of Patent: May 30, 2017Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Ellen R. Bösl, Bert T. Chien, Carsten Franke, Shandon D. Hart, Brent A. Hedding, Donovan C. Karg, Jr., Thomas J. Ludemann, Meghan A. Bradley, Mark B. O'Neill, Jeffrey A. Peterson, Joan M. Strobel, Huiwen Tai, John F. Van Derlofske, III, Michael F. Weber, Chiu Ping Wong, Richard J. Pokorny, John P. Baetzold
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Patent number: 9513420Abstract: Multilayer reflecting polarizing films are disclosed having increased in-plane refractive index differences between adjacent microlayers along both the pass and block axis, and having negative refractive index differences between adjacent microlayers along the thickness or z-axis. Major front and back surfaces of the film exposed to air provide a Fresnel reflectivity component to the pass axis reflectivity, and the microlayers provide a microlayer component to the pass axis reflectivity, such microlayer component preferably having a reflectivity of p-polarized light that increases with incidence angle faster than the Fresnel reflectivity component decreases so as to substantially avoid off-axis gain peaks for p-polarized light. The films preferably utilize a relatively small total number of microlayers, arranged in a single coherent stack with monotonic optical repeat unit thickness profile, and at least some microlayers preferably include polyethylene naphthalate or a copolymer thereof.Type: GrantFiled: July 16, 2015Date of Patent: December 6, 2016Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Kristopher J. Derks, Michael F. Weber, Shandon D. Hart, Carl A. Stover
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Publication number: 20150316697Abstract: Multilayer reflecting polarizing films are disclosed having increased in-plane refractive index differences between adjacent microlayers along both the pass and block axis, and having negative refractive index differences between adjacent microlayers along the thickness or z-axis. Major front and back surfaces of the film exposed to air provide a Fresnel reflectivity component to the pass axis reflectivity, and the microlayers provide a microlayer component to the pass axis reflectivity, such microlayer component preferably having a reflectivity of p-polarized light that increases with incidence angle faster than the Fresnel reflectivity component decreases so as to substantially avoid off-axis gain peaks for p-polarized light. The films preferably utilize a relatively small total number of microlayers, arranged in a single coherent stack with monotonic optical repeat unit thickness profile, and at least some microlayers preferably include polyethylene naphthalate or a copolymer thereof.Type: ApplicationFiled: July 16, 2015Publication date: November 5, 2015Inventors: Kristopher J. Derks, Michael F. Weber, Shandon D. Hart, Carl A. Stover
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Patent number: 9110245Abstract: Multilayer reflecting polarizing films are disclosed having increased in-plane refractive index differences between adjacent microlayers along both the pass and block axis, and having negative refractive index differences between adjacent microlayers along the thickness or z-axis. Major front and back surfaces of the film exposed to air provide a Fresnel reflectivity component to the pass axis reflectivity, and the microlayers provide a microlayer component to the pass axis reflectivity, such microlayer component preferably having a reflectivity of p-polarized light that increases with incidence angle faster than the Fresnel reflectivity component decreases so as to substantially avoid off-axis gain peaks for p-polarized light. The films preferably utilize a relatively small total number of microlayers, arranged in a single coherent stack with monotonic optical repeat unit thickness profile, and at least some microlayers preferably include polyethylene naphthalate or a copolymer thereof.Type: GrantFiled: March 27, 2009Date of Patent: August 18, 2015Assignee: 3M Innovative Properties CompanyInventors: Kristopher J. Derks, Michael F. Weber, Shandon D. Hart, Carl A. Stover
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Patent number: 8863556Abstract: The invention provides techniques for drawing fibers that include conducting, semiconducting, and insulating materials in intimate contact and prescribed geometries. The resulting fiber exhibits engineered electrical and optical functionalities along extended fiber lengths. The invention provides corresponding processes for producing such fibers, including assembling a fiber preform of a plurality of distinct materials, e.g., of conducting, semiconducting, and insulating materials, and drawing the preform into a fiber.Type: GrantFiled: October 3, 2007Date of Patent: October 21, 2014Assignee: Massachusetts Institute of TechnologyInventors: Mehmet Bayindir, Fabien Sorin, Dursen S. Hinczewski, Shandon D. Hart, Yoel Fink, John D Joannopoulos
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Patent number: 8848132Abstract: A backlight (120) that includes a front reflector (130) and a back reflector (160) that form a hollow light recycling cavity (162) having an output surface (164) is disclosed. The front reflector includes at least four directional recycling films (132). The backlight also includes a semi-specular diffuser disposed between the front reflector and the back reflector, and one or more light sources (166) disposed to emit light into the light recycling cavity.Type: GrantFiled: February 6, 2009Date of Patent: September 30, 2014Assignee: 3M Innovative Properties CompanyInventors: Mark B. O'Neill, Shandon D. Hart, Kenneth A. Epstein, David G. Freier, David J. Lamb
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Patent number: 8798421Abstract: Polymer fibers are formed with concentric alternating layers of different polymer materials. The layers pairs have cross-sectional thicknesses selected for reflecting light at a selected visible wavelength. A cross-sectional dimension of the core is at least ten times an average of the selected thicknesses of the alternating layers. Some articles formed by the fibers are formed by attaching one fiber to another: the color of the fibers at the point of attachment is different from the colors of the fibers elsewhere. The fibers may be deformed to change its color properties by elongating the cross-section of the polymer fiber along a first cross-sectional axis. In some embodiments, the fibers are polarization sensitive.Type: GrantFiled: March 2, 2009Date of Patent: August 5, 2014Assignee: 3M Innovative Properties CompanyInventors: Gregory L. Bluem, Joan M. Frankel, David C. Kramlich, Robert L. Brott, Shandon D. Hart, Lynn E. Lorimor, Patrick R. Fleming, William J. Kopecky, Bruce B. Wilson, James M. Jonza
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Patent number: 8771532Abstract: A glass article having an anti-glare surface. The anti-glare surface has a distinctness-of-reflected image of less than 95, and a haze of less than or equal to 50%. In one embodiment, the glass article further includes a smudge-resistant surface disposed on the anti-glare surface. Methods of making the glass article and anti-glare surface are also described.Type: GrantFiled: March 24, 2010Date of Patent: July 8, 2014Assignee: Corning IncorporatedInventors: Krista L Carlson, Shandon D Hart, Kelvin Nguyen, Robert Sabia, Daniel A Sternquist, Lu Zhang
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Patent number: 8598771Abstract: A glass article that is ion-exchangeable and has at least one roughened surface. The roughened surface has a distinctness-of-reflected image DOI of less than 90 when measured at an incidence angle of 20°. A pixelated display system that includes such a glass article is also provided.Type: GrantFiled: August 18, 2010Date of Patent: December 3, 2013Assignee: Corning IncorporatedInventors: Krista L Carlson, Shandon D Hart, Kelvin Nguyen, Lu Zhang
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Patent number: 8389074Abstract: Microstructured optical films, assemblies of films including at least one microstructured optical film, and (e.g. illuminated) display devices including a single microstructured optical film or assembly.Type: GrantFiled: March 28, 2012Date of Patent: March 5, 2013Assignee: 3M Innovative Properties CompanyInventors: Clinton L. Jones, Brant U. Kolb, David B. Olson, Emily S. Goenner, Shandon D. Hart, John T. Cowher
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Publication number: 20120189784Abstract: Microstructured optical films, assemblies of films including at least one microstructured optical film, and (e.g. illuminated) display devices including a single microstructured optical film or assembly.Type: ApplicationFiled: March 28, 2012Publication date: July 26, 2012Inventors: Clinton L. Jones, Brant U. Kolb, David B. Olson, Emily S. Goenner, Shandon D. Hart, John T. Cowher
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Patent number: 8168271Abstract: Microstructured optical films, assemblies of films including at least one microstructured optical film, and (e.g. illuminated) display devices including a single microstructured optical film or assembly.Type: GrantFiled: June 18, 2010Date of Patent: May 1, 2012Assignee: 3M Innovative Properties CompanyInventors: Clinton L. Jones, Brant U. Kolb, David B. Olson, Emily S. Goenner, Shandon D. Hart, John T. Cowher
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Publication number: 20110261584Abstract: A backlight includes a light source and one or more light recycling films. The light source generates light that exits the light source with an angular exit distribution. The light recycling films are oriented in relation to the light source so that the prism peaks of the recycling films are oriented away from the light source. The recycling films have a range of optimal incident angles that allow light to pass through the recycling films without recycling. The components of the light source, the characteristics of the recycling films, or both, are configured to control the overlap between the exit distribution of the light source and the optimal incident angle range of the recycling films.Type: ApplicationFiled: June 20, 2008Publication date: October 27, 2011Inventors: Gary T. Boyd, Ji-Young Choi, John T. Cowher, Yasuyuki Daigo, Kenneth A. Epstein, Shandon D. Hart, Charles D. Hoyle, Min-Young Ji, Chideuk kim, Byung-Soo Ko, Keith M. Kotchick, Wade D. Kretman, David J. Lamb, Seo-Hern Lee, Eric W. Nelson, Youngsoo Park, Xianneng Peng, Yuji Saito, Naoya Taniguchi, John F. Van Derlofske, III, Leland R. Whitney, Kingpeng Yang, Yang Yu, Jie Zhou, Rui Zhang
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Publication number: 20110149554Abstract: Optical films having structured surfaces are used, inter alia, for managing the propagation of light within a display. As displays become larger, it becomes more important that the film be reinforced so as to maintain rigidity. An optical film of the invention has a first layer comprising inorganic fibers embedded within a polymer matrix. The first layer has a structured surface to provide an optical function to light passing therethrough. The film may have various beneficial optical properties, for example, light that propagates substantially perpendicularly through the first layer may be subject to no more than a certain level of haze or light incident on the film may be subject to a minimum value of brightness gain. Various methods of manufacturing the films are described.Type: ApplicationFiled: March 2, 2011Publication date: June 23, 2011Inventors: Andrew J. Ouderkirk, Shandon D. Hart, Olester Benson, JR., Patrick R. Fleming, Kristin L. Thunhorst
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Publication number: 20110102891Abstract: Multilayer reflecting polarizing films are disclosed having increased in-plane refractive index differences between adjacent microlayers along both the pass and block axis, and having negative refractive index differences between adjacent microlayers along the thickness or z-axis. Major front and back surfaces of the film exposed to air provide a Fresnel reflectivity component to the pass axis reflectivity, and the microlayers provide a microlayer component to the pass axis reflectivity, such microlayer component preferably having a reflectivity of p-polarized light that increases with incidence angle faster than the Fresnel reflectivity component decreases so as to substantially avoid off-axis gain peaks for p-polarized light. The films preferably utilize a relatively small total number of microlayers, arranged in a single coherent stack with monotonic optical repeat unit thickness profile, and at least some microlayers preferably include polyethylene naphthalate or a copolymer thereof.Type: ApplicationFiled: March 27, 2009Publication date: May 5, 2011Inventors: Kristopher J. Derks, Michael F. Weber, Shandon D. Hart, Carl A. Stover
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Publication number: 20110103036Abstract: An optical film that includes a reflective polarizer and a stretched polymer film is disclosed. The stretched polymer film is laminated to the reflective polarizer, and the stretched polymer film exhibits a refractive index symmetry point at an angle of incidence in air of at least about 60 degrees in a plane of incidence parallel to a direction of greatest stretch.Type: ApplicationFiled: March 30, 2009Publication date: May 5, 2011Inventors: Ellen R. Bösl, Bert T. Chien, Carsten Franke, Shandon D. Hart, Brent A. Hedding, Donovan C. Karg, JR., Thomas J. Ludemann, Meghan A. Bradley, Mark B. O'Neill, Jeffrey A. Peterson, Joan M. Strobel, Huiwen Tai, John F. Van Derlofske, III, Michael F. Weber, Chiu Ping Wong, Richard J. Pokorny, John P. Baetzold
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Publication number: 20110096395Abstract: Polymer fibers are formed with concentric alternating layers of different polymer materials. The layers pairs have cross-sectional thicknesses selected for reflecting light at a selected visible wavelength. A cross-sectional dimension of the core is at least ten times an average of the selected thicknesses of the alternating layers. Some articles formed by the fibers are formed by attaching one fiber to another: the color of the fibers at the point of attachment is different from the colors of the fibers elsewhere. The fibers may be deformed to change its color properties by elongating the cross-section of the polymer fiber along a first cross-sectional axis. In some embodiments, the fibers are polarization sensitive.Type: ApplicationFiled: March 2, 2009Publication date: April 28, 2011Inventors: Gregory L Bluem, Joan M. Frankel, David C. Kramlich, Robert L. Brott, Shandon D. Hart, Lynn E. Lorimor, Patrick R. Fleming, William J. Kopecky, Bruce B. Wilson, James M. Jonza
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Publication number: 20110062849Abstract: A glass article that is ion-exchangeable and has at least one roughened surface. The roughened surface has a distinctness-of-reflected image DOI of less than 90 when measured at an incidence angle of 20°. A pixelated display system that includes such a glass article is also provided.Type: ApplicationFiled: August 18, 2010Publication date: March 17, 2011Inventors: Krista L. Carlson, Shandon D. Hart, Kelvin Nguyen, Lu Zhang
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Publication number: 20110051047Abstract: A backlight (120) that includes a front reflector (130) and a back reflector (160) that form a hollow light recycling cavity (162) having an output surface (164) is disclosed. The front reflector includes at least four directional recycling films (132). The backlight also includes a semi-specular diffuser disposed between the front reflector and the back reflector, and one or more light sources (166) disposed to emit light into the light recycling cavity.Type: ApplicationFiled: February 6, 2009Publication date: March 3, 2011Inventors: Mark B. O'Neill, Shandon D. Hart, Kenneth A. Epstein, David G. Freier, David J. Lamb