Patent application number | Description | Published |
20080272309 | X-Ray Detector With Correction for Scattered Radiation - The invention refers to X-ray devices, an X-ray detector and a method of correcting intensity signals. An X-ray detector then comprises for determining the intensity of X-rays, which comprise a proportion of primary radiation having an irradiation direction and a proportion of scattered radiation, at least a first sensor elements, which are each provided for converting the X-rays into first and second intensity signals, and a filter element, which is provided for decreasing the proportion of scattered radiation in the intensity of the X-rays, wherein the second sensor elements are arranged in irradiation direction behind the filter element and wherein the first sensor element fastened to the filter element is provided for determining the intensity of the X-rays before leaving the filter element. The proportion of the scattered radiation calculated from the measuring data of the first and second sensor elements is provided for correcting the second intensity signals for the following image generation. | 11-06-2008 |
20100127859 | SIMULATION AND VISUALIZATION OF SCATTERED RADIATION - Scattered radiation has non-intuitive properties. A signalling system ( | 05-27-2010 |
20100252744 | RADIATION DETECTOR WITH A PLURALITY OF ELECTRODE SYSTEMS - The invention relates to a radiation detector that comprises a converter element and a plurality of electrode systems arranged on said element, wherein each electrode system comprises a primary electrode and a supplementary electrode, which are connected to a readout circuitry. The primary and the supplementary electrodes may particularly be realized by planar, parallel stripes extending in a common plane, wherein said stripes are electrically connected above said plane. | 10-07-2010 |
20100322380 | X-RAY DETECTOR FOR PHASE CONTRAST IMAGING - The invention relates to an X-ray detector ( | 12-23-2010 |
20110079865 | RADIATION DETECTION AND A METHOD OF MANUFACTURING A RADIATION DETECTOR - The invention relates to a radiation detector ( | 04-07-2011 |
20110211668 | CONVERTER ELEMENT FOR A RADIATION DETECTOR - The invention relates to converter element ( | 09-01-2011 |
20120057677 | TILTED GRATINGS AND METHOD FOR PRODUCTION OF TILTED GRATINGS - The present invention relates to phase-contrast imaging which visualizes the phase information of coherent radiation passing a scanned object. Focused gratings are used which reduce the creation of trapezoid profile in a projection with a particular angle to the optical axis. A laser supported method is used in combination with a dedicating etching process for creating such focused grating structures. | 03-08-2012 |
20120085915 | PROCESSING ELECTRONICS AND METHOD FOR DETERMINING A COUNT RESULT, AND DETECTOR FOR AN X-RAY IMAGING DEVICE - The present invention relates to processing electronics ( | 04-12-2012 |
20120099702 | CORRECTION METHOD FOR DIFFERENTIAL PHASE CONTRAST IMAGING - The present invention generally refers to a correction method for grating-based X-ray differential phase contrast imaging (DPCI) as well as to an apparatus which can advantageously be applied in X-ray radiography and tomography for hard X-ray DPCI of a sample object or an anatomical region of interest to be scanned. More precisely, the proposed invention provides a suitable approach that helps to enhance the image quality of an acquired X-ray image which is affected by phase wrapping, e.g. in the resulting Moiré interference pattern of an emitted X-ray beam in the detector plane of a Talbot-Lau type interferometer after diffracting said X-ray beam at a phase-shifting beam splitter grating. This problem, which is further aggravated by noise in the obtained DPCI images, occurs if the phase between two adjacent pixels in the detected X-ray image varies by more than π radians and is effected by a line integration over the object's local phase gradient, which induces a phase offset error of π radians that leads to prominent line artifacts parallel to the direction of said line integration. | 04-26-2012 |
20120104262 | EVALUATION OF MEASUREMENTS FROM A PIXELATED DETECTOR - The invention relates to a method and a data processing device for evaluating measurement signals provided by a layered, pixelated radiation detector. A generalized detector response function is provided that describes the energy-related crosstalk caused by radiation incident in the d-th neighboring pixel. With the help of this GDR-function, crosstalk effects can be taken into account to achieve a more accurate determination of imaging parameters related to an imaged object. The approach can particularly be used in spectrally resolved, photon counting CT detectors with small, layered pixels. | 05-03-2012 |
20120236992 | SCANNING SYSTEM FOR DIFFERENTIAL PHASE CONTRAST IMAGING - The invention relates to the field of X-ray differential phase contrast imaging. For scanning large objects and for an improved contrast to noise ration, an X-ray device ( | 09-20-2012 |
20120243658 | PHASE CONTRAST IMAGING - X-ray devices for Phase Contrast Imaging (PCI) are often built up with the help of gratings. For large field-of-views (FOV), production cost and complexity of these gratings could increase significantly as they need to have a focused geometry. Instead of a pure PCI with a large FOV, this invention suggests to combine a traditional absorption X-ray-imaging system with large-FOV with an insertable low-cost PCI system with small-FOV, The invention supports the user to direct the PCI system with reduced FOV to a region that he regards as most interesting for performing a PCI scan thus eliminating X-ray dose exposure for scanning regions not interesting for a radiologist. The PCI scan may be generated on the basis of local tomography. | 09-27-2012 |
20120250823 | CALIBRATION OF DIFFERENTIAL PHASE-CONTRAST IMAGING SYSTEMS - The present invention relates to an X-ray imaging system and a method for differential phase—contrast imaging of an object. To improve calibration of differential phase—contrast imaging systems and the alignment of the gratings an X-ray imaging system is provided that comprises an X-ray emitting arrangement providing at least partially coherent X-ray radiation and an X-ray detection arrangement comprising a phase-shift diffraction grating, a phase analyzer grating, and an X-ray image detector, all arranged along an optical axis. For stepping, the gratings and/or the X-ray emitting arrangement are provided with at least two actuators arranged opposite to each other with reference to the optical axis. For calibration, calibration projections are acquired without an object, wherein, the emitted X-ray radiation or one of the gratings is stepwise displaced with a calibration displacement value. For examination, measurement projections are acquired with an object, wherein the emitted X-ray radiation or one of the gratings is stepwise displaced with a measurement, a calibration projection is associated to each of the measurement projections by registering the latter with the calibration projections. | 10-04-2012 |
20120307966 | APPARATUS FOR PHASE-CONTRAST IMAGING COMPRISING A DISPLACEABLE X-RAY DETECTOR ELEMENT AND METHOD - The present invention relates to X-ray image acquisition technology in general. Employing phase-contrast imaging for X-ray image acquisition may significantly enhance the quality and information content of images acquired. However, phase-contrast information may only be obtainable in a small detector region, possibly being too small for a sufficient field of rotation view for specialized X-ray imaging applications. Accordingly, an apparatus for phase-contrast imaging is provided that may allow the acquisition of an enlarged field of view. According to the present invention an apparatus ( | 12-06-2012 |
20130156157 | X-RAY IMAGING WITH PIXELATED DETECTOR - The invention relates to a method and an imaging system ( | 06-20-2013 |