| Patent application number | Description | Published |
|---|
| 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 |
| 20090066240 | Encapsulation of organic devices - Presented an organic light-emitting device (OLED) that includes at least one active region, at least one organic layer, a first glass plate on which the at least one active region is applied, and a second glass plate. The active region is disposed between the first and the second glass plates. The first and second glass plates are at least partially transparent in the near infrared spectral range. The OLED further includes a bonding material that includes a solder glass and is disposed between the first and second glass plates. The bonding material forms at least one frame that surrounds the active region and mechanically connects the first glass plate with the second glass plate and seals the active region. The bonding material absorbs near infrared radiation. The OLED further includes spacer particles that have a mean diameter that maintains a height between the first and second glass plates. | 03-12-2009 |
| 20090121142 | Radiation detector module, radiation detector and imaging tomography device - An embodiment of the invention relates, in particular, to a radiation detector module for producing a radiation detector for computed tomography, having a first operating mode for quantitative and/or energy-selective detection of x-radiation. An embodiment relates to a radiation detector module including a scintillation layer for converting the x-radiation into light, and a photodetection unit for detecting the light, the photodetection unit including a multiplicity of silicon photomultipliers. | 05-14-2009 |
| 20090166512 | Organic Pixeled Flat Detector Having Increased Sensitivity - An organic pixel eel flat detector has increased sensitivity. This is obtained by a preamplification at the pixel level. | 07-02-2009 |
| 20090194703 | Method and circut arrangement for determining the radiation intensity using directly counting detectors - A method and a circuit arrangement are disclosed for determining radiation intensity using counting detectors or detector elements, in which x-ray radiation photons, which are either absorbed or absorbed in part, generate electrical signals, the pulse number and pulse height of which is correlated to an incident radiation intensity, and the radiation intensity is at least determined by counting the pulses. According to at least one embodiment of the invention, the signal pulses incident on at least one detector or detector element are detected simultaneously by at least one continuously operating pulse height discriminator and by at least one pulse height discriminator operating in a clocked fashion, with the number of incident signal pulses being determined with the aid of these two items of detection information. | 08-06-2009 |
| 20090289544 | Organic Light-Emitting Diode And Uses Thereof - The invention relates to an organic light-emitting diode (OLED) having an improved lifetime and improved transport of negative charge carriers. The organic light-emitting diode is based on an organic semiconductor material, in which the transport of negative charge carriers and stability with respect to reduction is achieved with triarylated Lewis acid units, in particular perarylated borane units. This leads to an improved lifetime of the emission layer which in turn increases the lifetime of the component and eliminates the need for correcting brightness during operation. Furthermore, the invention relates to organic light-emitting diodes in which the position of the emission zone in the emitter layer and the color of the emission can be influenced in a targeted manner through triarylated Lewis acids such as perarylated borane units. | 11-26-2009 |
| 20100065746 | SYSTEMS AND METHODS FOR CALIBRATING A SILICON PHOTOMULTIPLIER-BASED POSITRON EMISSION TOMOGRAPHY SYSTEM - A representative positron emission tomography (PET) system includes a positron emission tomography detector having one or more silicon photomultipliers that output silicon photomultipliers signals. The PET system further includes a calibration system that is electrically coupled to the silicon photomultipliers. The calibration system determines a single photoelectron response of the silicon photomultipliers signals and adjusts a gain of the silicon photomultipliers based on the single photoelectron response. | 03-18-2010 |
| 20100074396 | MEDICAL IMAGING WITH BLACK SILICON PHOTODETECTOR - Medical imaging may be accomplished with a high photoconductive gain at a relatively low operating voltage by employing a black silicon photodetector and integrating CMOS components with elements of the photodetector. | 03-25-2010 |
| 20110147567 | SiPM Photosensor With Early Signal Digitization - The present invention is a Silicon PhotoMulitplier comprising a plurality of photon detection cell clusters each comprising a plurality of avalanche photodiodes connected in parallel, so that the output of each avalanche photodiode is summed together and applied to a cell cluster output. Each of the plurality of cell cluster outputs is connected to one of a plurality of cluster readout circuits, each of which includes an analog to digital converter that converts an analog representation of the total energy received by a photon detection cell cluster to a digital energy signal. A SiPM Pixel reader circuit is connected to the plurality of cluster readout circuits and configured to generate an overall pixel output by digital processing the plurality of digital energy signals received from the plurality of photon detection cell clusters by way of the plurality of cluster readout circuits. The SIPM pixel reader circuit also receives digital signals representative of timing triggers and the total energy received by a specific photon detection cell cluster and generates an overall SiPM energy signal and overall timing trigger in response to the signals received from the plurality of cluster readout circuits. | 06-23-2011 |
