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公开(公告)号:US20180259696A1
公开(公告)日:2018-09-13
申请号:US15759341
申请日:2016-09-08
Applicant: Corning Incorporated
Inventor: Nicholas Francis Borrelli , Nadja Teresia Lonnroth , Michel Prassas , Paul Michael Then , Luis Alberto Zenteno
CPC classification number: G02B5/282 , B32B17/10055 , B32B17/10119 , B32B17/10174 , B32B17/10486 , B32B17/10743 , B32B17/10761 , B32B17/1077 , B32B17/10788 , C03C3/093 , C03C3/11 , C03C4/06 , C03C17/366 , E06B3/66 , E06B3/6715 , E06B9/24 , E06B2009/2417 , E06B2009/2464 , G02B5/23 , G02B5/285
Abstract: A window is provided comprising an outside glass pane and an inside glass pane. The outside glass pane includes a low emissivity layer. The inside glass pane comprises a photochromic glass and is spaced apart from and disposed substantially parallel to the outside glass pane. The outside glass pane transmits light in the visible portion of the optical spectrum. The low emissivity layer of the outside glass pane blocks transmission of solar radiation in the IR and near-IR bands, and transmits solar radiation in an activation band of the photochromic glass to darken the photochromic glass and reduce visible light transmittance through the photochromic glass.
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公开(公告)号:US20180220892A1
公开(公告)日:2018-08-09
申请号:US15889771
申请日:2018-02-06
Applicant: Corning Incorporated , University of Rochester
Inventor: William Spencer Klubben, III , Anthony Pietropaoli , Paul Michael Then
IPC: A61B5/00 , A61B1/04 , A61B90/20 , A61B5/0205 , A61B5/02
CPC classification number: A61B5/0035 , A61B1/04 , A61B5/0075 , A61B5/0077 , A61B5/02007 , A61B5/0205 , A61B5/026 , A61B5/0261 , A61B5/14546 , A61B5/1455 , A61B5/14552 , A61B5/4866 , A61B5/4884 , A61B5/7278 , A61B90/20 , A61B2505/05 , A61B2576/02
Abstract: A method for quantifying microvascular function in a patient includes stabilizing a test portion of the patent to analyze. A microvascular blood flow parameter is measured using a first spectral imaging technique. A microvascular reserve parameter is measured using a second spectral imaging technique. A tissue respiration parameter is measured using a third spectral imaging technique. A microvascular permeability parameter is measured using a fourth spectral imaging technique. The method further includes processing the microvascular blood flow parameter, the microvascular reserve parameter, the tissue respiration parameter, and the microvascular permeability parameter together using a processor configured to generate a summary microvascular parameter corresponding to the microvascular function in the patient.
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公开(公告)号:US20160103261A1
公开(公告)日:2016-04-14
申请号:US14879348
申请日:2015-10-09
Applicant: Corning Incorporated
Inventor: Anthony Sebastian Bauco , Paul Michael Then
CPC classification number: G02B6/001 , B60Q3/64 , B60Q3/78 , B60Q3/80 , F21S10/005 , F21Y2113/10 , G02B6/0003 , G02B6/0006 , G02B6/0229 , G02B6/0288 , H05B33/0812 , H05B33/086
Abstract: An illumination system configured to produce color movement along the length of an optical fiber. The system can include a light-diffusing optical fiber having a first input end and a second input end, a glass core, a cladding surrounding the glass core, and an outer surface. Nano-sized structures are situated within the glass core or at the core-cladding boundary in order to scatter light. A first light source is optically coupled to the first input end, and a second light source is optically coupled to the second input end. A color variation forms within the optical fiber at the junction of the light emitted from each end of the fiber, and adjusting the intensity of light emitted from one or more of the first light source and the second light source causes the location of the color variation to move along the length of the optical fiber.
Abstract translation: 一种被配置为沿着光纤的长度产生颜色运动的照明系统。 该系统可以包括具有第一输入端和第二输入端的光漫射光纤,玻璃芯,围绕玻璃芯的包层和外表面。 纳米尺寸的结构位于玻璃芯内或芯 - 包层边界处以散射光。 第一光源光耦合到第一输入端,并且第二光源光耦合到第二输入端。 在从光纤的每端发射的光的结点处的光纤内形成的颜色变化,以及调节从一个或多个第一光源和第二光源发射的光的强度导致颜色变化的位置 沿着光纤的长度移动。
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