Patent application number | Description | Published |
20090041195 | LASER STIMULATED CATHODE - A cathode has an emission layer that thermionically emits electrons upon exposure with a laser beam. The material of the emission layer has a product of density (ρ), measured in | 02-12-2009 |
20090206266 | RADIATION TRANSDUCER AND METHOD TO PRODUCE A RADIATION TRANSDUCER - A radiation transducer has a luminophore layer applied on a substrate, and at least one anti-discoloration substance is applied on the luminophore layer. In a method to produce a radiation transducer a luminophore layer is applied on a substrate, and at least one anti-discoloration substance is applied on the luminophore layer after the application of the luminophore layer on the substrate. | 08-20-2009 |
20120132811 | SCINTILLATOR-PHOTOSENSOR SANDWICH AND RADIATION DETECTOR AND PRODUCTION METHOD THEREFOR, EMBODYING SAME - In a method to produce a scintillator-photosensor sandwich for use in a pixel-resolving radiation detector for ionizing radiation, either a scintillator layer or a photosensor layer can respectively be the first and second function layers (alternatively). A transfer adhesive tape carries an adhesive layer having an exposed first side and a second side covered by protective film. The exposed side of the adhesive layer is applied onto a first of the function layers. A first lamination of the adhesive layer including the protective film onto the first function layer is implemented. The protective film is removed. A second of the function layers is then placed in contact with the second side of the adhesive layer that is situated on the first of the function layers. A second lamination of the two function layers with the adhesive layer situated between them is implemented. | 05-31-2012 |
20120132812 | METHOD TO PRODUCE A SCINTILLATOR-PHOTOSENSOR SANDWICH, SCINTILLATOR-PHOTOSENSOR SANDWICH, AND RADIATION DETECTOR - In a method to produce a scintillator-photosensor sandwich, as well as a scintillator-photosensor sandwich and a radiation detector with such a scintillator-photosensor sandwich, the scintillator-photosensor sandwich is generated by gluing a first support frame onto an adhesive layer (covered on at least one side with a second protective film on the side facing the adhesive layer, the first frame having a size that (in terms of area) surrounds the scintillator-photosensor sandwich to be produced. The first support frame is placed onto a flat base that supports a first function layer (either a scintillator layer or a photosensor layer). The adhesive layer supported on the first support frame and the first function layer are laminarly assembled. The second protective film is removed from the adhesive layer and a second function layer (the other of the scintillator layer or the photosensor layer not used as the first function layer) is assembled with the first function layer with the interposed adhesive layer. | 05-31-2012 |
20120132816 | METHOD TO PREPARE A SCINTILLATOR LAYER FOR APPLICATION ONTO A PHOTOSENSOR LAYER TO PRODUCE AN X-RAY DETECTOR OR ELEMENT THEREOF - A scintillator layer is applied onto a photosensor layer to produce an x-ray detector or an x-ray detector element for imaging detection of ionizing radiation. The production process is improved by, in the production of the scintillator layer, an adhesive layer with a protective layer is applied onto the scintillator layer. This can occur layer by layer or a transfer adhesive tape that already includes the protective layer as a protective film can also be used. | 05-31-2012 |
20120313013 | SCINTILLATOR PLATE - A scintillator plate has a radiation-permeable substrate on which is applied a scintillator layer made of copper iodide that is formed from spicular crystals. The scintillator layer has an emission maximum in the red spectral range. The scintillator layer of the scintillator plate has a high emission power in the near-infrared range. | 12-13-2012 |
Patent application number | Description | Published |
20080224048 | Radiation Converter and Method for Production Thereof - A radiation converter has a luminophore layer formed by needle-shaped crystals applied on a substrate, the crystals being composed of Csl. doped with Tl. The emission spectrum is modified to obtain smaller values by making the Tl content between 200 ppm and 2,000 ppm. | 09-18-2008 |
20090065705 | SCINTILLATOR PLATE - A scintillator plate has a radiation permeable and moisture-impermeable substrate, a scintillator on the substrate, a first transparent organic layer that covers the scintillator, a second transparent organic layer arranged on the first transparent organic layer, and a transparent inorganic layer that is arranged on the second transparent organic layer. | 03-12-2009 |
20090142227 | Parylene Coating and Method for the Production Thereof - In a method for producing a parylene coating on a substrate containing an integrated electronic component which is e.g. an x-ray detector, the following steps are provided: vaporization of parylene; pyrolyzation of the vaporized parylene; polymerization of the pyrolyzed parylene, the polymerized parylene being deposited on a cooled substrate. The method provides controllable, patterned deposition of parylene on the cooled and/or heated substrate, the advantage being that x-ray converters, for example, can be anticorrosively encapsulated and a penetration depth of the parylene between phosphor needles or storage phosphor needles can be controlled, resulting in an improved resolution and improved modulation transfer function of electronic components. | 06-04-2009 |
20150049861 | Liquid Metal Bearing - A liquid metal bearing includes at least one first bearing part and at least one second bearing part that have a non-positive fit connection to one another. At least one first ductile sealing layer is disposed at least partly between at least a first bearing part of the at least one bearing and a second bearing part of the at least one second bearing part. | 02-19-2015 |