Class / Patent application number | Description | Number of patent applications / Date published |
250487100 | With optical member of material to directly modify luminous energy | 13 |
20100072398 | METHOD OF FORMING A SCINTILLATOR DEVICE - A method of forming a scintillator device includes inserting a window into a lumen of a window support ring. The window support ring has an annular structure defining the lumen. The lumen extends between first and second ends of the window support ring. The method also includes inserting a scintillator material into a cavity of a housing defined by an annular sidewall of the housing. The housing has an anterior end and a posterior end. The sidewall defines an opening at the anterior end of the housing. The scintillator material is inserted into the cavity via the opening. The method further includes adhering the window to a front face of the scintillator material and coupling the first end of the window support ring to the annular sidewall of the housing at the anterior end to close the opening. | 03-25-2010 |
20100213391 | SYSTEM FOR MONITORING OPTICAL MODULES OF HIGH-POWER LASERS - High-power excimer lasers are assembled with individually replaceable optical module subsystems containing consumable optical components. Windows formed in the enclosures of the optical modules incorporate a fluorescent material for converting ultraviolet light scattered from the components of the optical module into visible light emanating from the windows. Changes in the amount or location of the visible light emanating from the windows are interpreted as indications of the degradation in the performance of the optical modules. | 08-26-2010 |
20140091235 | SCINTILLATOR PANEL AND METHOD FOR MANUFACTURING SCINTILLATOR PANEL - A scintillator panel including: a plate-like substrate; a grid-like barrier rib provided on the substrate; and a scintillator layer composed of a phosphor filled in cells divided by the barrier rib, wherein the barrier rib is formed of a material which is mainly composed of a low-melting-point glass containing 2 to 20% by mass of an alkali metal oxide. The scintillator panel is provided with a narrow barrier rib with high accuracy in a large area, and the scintillator panel has high luminous efficiency, and provides sharp images. | 04-03-2014 |
20140239195 | DEPOSITION SUBSTRATE AND SCINTILLATOR PANEL - An object of the invention is to provide a scintillator panel which exhibits excellent cuttability and can be cut without the occurrence of problems such as the separation of a scintillator layer and which can give radiographic images such as X-ray images with excellent sensitivity and sharpness. The scintillator panel of the invention includes a reflective layer and a scintillator layer formed by deposition on a support, and the reflective layer includes light-scattering particles and a specific binder resin and has a specific thickness. | 08-28-2014 |
20150310953 | SCINTILLATOR PANEL - The present invention provides a scintillator panel which is provided with a narrow-width barrier rib with high accuracy in a large area, and also has high luminous efficiency and realizes clear image quality. The present invention provides a scintillator panel including a sheet-like substrate, a barrier rib provided on the substrate, and a scintillator layer made of a phosphor filled in cells divided by the barrier rib, wherein a reflecting layer is formed on only one side of the barrier rib. | 10-29-2015 |
20150339873 | Security Feature and Value Product and/or Security Product Containing the Security Feature - An easily producible security feature according to the invention contains at least one luminescence device on and/or in a product carrier. Additionally, the security feature contains, in and/or on the product carrier, at least one absorptive spectral filter for luminescence radiation exiting from the at least one luminescence device, such that a color impression results both under illumination with visible radiation and under luminescence illumination conditions. | 11-26-2015 |
250488100 | Plural planar layer type | 7 |
20090101844 | Radiation image converting panel, scintillator panel and radiation image sensor - For a radiation image converting panel according to the present invention, a converting portion that converts a radiation image to an optical image is formed on a support for which a dielectric multilayer film is formed on a metal reflector, and the dielectric multilayer film includes at least a first dielectric layer that is in contact with the metal reflector and a second dielectric layer that is formed on the first dielectric layer and has a higher refractive index than that of the first dielectric film layer to light emitted by the converting portion. | 04-23-2009 |
20100230615 | SECURITY DEVICE - A security device for authenticating bank notes, documents and other items, comprises a luminescent material for producing luminescent radiation of first and second wavelengths. The security device includes an optically variable structure for controlling emission of luminescent radiation of at least one of the first and second wavelengths from the security device, the security device being arranged to permit, from an area of the optically variable structure, emission of luminescence of the first and second wavelengths from the security device. The optically variable structure causes the relative emissivity of the security device for luminescent radiation of the first and second wavelengths to change with a change in emission angle, so that the security device produces an angle-dependent colour shift in the emitted luminescent radiation. The optically variable structure may comprise an optical interference stack that controls transmission of luminescent radiation therethrough in response to the wavelength of luminescent radiation. | 09-16-2010 |
20140110602 | SCINTILLATOR PANEL AND METHOD OF MANUFACTURING THE SAME - A scintillator panel includes a substrate, a reflection layer, a scintillator layer and a transmission oxide layer. The substrate transmits the X-ray. The reflection layer is formed on the substrate to transmit the X-ray and reflect the visible light. The scintillator layer is formed on the reflection layer to convert the X-ray into the visible light. And, the oxide layer seals the scintillator layer, transmits the visible light and blocks the penetration of moisture. | 04-24-2014 |
20140110603 | SCINTILLATOR PANEL AND METHOD OF MANUFACTURING THE SAME - A scintillator panel includes a scintillator layer to be formed on an imaging device and an oxide layer on the scintillator layer to transmit an X-ray, reflect a visible light, and prevent moisture from being penetrated. The oxide layer has a structure including a number of oxide layers. | 04-24-2014 |
20140239196 | DEPOSITION SUBSTRATE AND SCINTILLATOR PANEL - An object of the invention is to provide scintillator panels which can give radiographic images such as X-ray images with excellent sharpness and excellent uniformity of sharpness, which realize devices such as flat panel detectors having uniform image quality characteristics in the light-receiving plane, and which exhibit excellent cuttability, excellent sharpness and excellent in-plane uniformity of sharpness. A scintillator panel of the invention includes a support, a reflective layer on the support, and a scintillator layer formed on the reflective layer by deposition. The reflective layer includes light-scattering particles and a binder resin. A specific region of the reflective layer is defined by a resin or includes light-scattering particles having a specific area average particle diameter, or the reflective layer has a specific arithmetic average roughness. | 08-28-2014 |
20150316660 | DEPOSITION SUBSTRATE AND SCINTILLATOR PANEL - An object of the invention is to provide a scintillator panel which exhibits excellent cuttability and can be cut without the occurrence of problems such as the separation of a scintillator layer and which can give radiographic images such as X-ray images with excellent sensitivity and sharpness. The scintillator panel of the invention includes a reflective layer and a scintillator layer formed by deposition on a support, and the reflective layer includes light-scattering particles and a specific binder resin and has a specific thickness. | 11-05-2015 |
20160155526 | SCINTILLATOR PANEL AND PRODUCTION METHOD THEREOF | 06-02-2016 |