Abstract: A radiation detector for position-resolved detection of radiation comprises at least one sensor tile with a front side facing incident radiation, and a back side opposite the front side. The sensor tile comprises a sensor material sensitive to the radiation. A front electrode is arranged on the front side of the sensor tile. A braking layer is arranged on the front electrode and at least partly covers the front electrode, for decelerating electrons in the incident radiation. A set of contacts of electrically conducting material is arranged on the back side of the sensor tile and in contact with the sensor material, thereby defining sensor pixels. At least one ASIC comprises a set of readout circuits in electrical connection with the contacts, each readout circuit being configured to process a signal received from the sensor pixel the readout circuit is electrically connected to.

Abstract: A radiation detector for position-resolved detection of radiation is provided as well as a method of manufacturing such radiation detector. The radiation detector comprises at least one sensor tile (1) with sensor material sensitive to the radiation, the sensor tile (1) defining a horizontal plane; a set of pixels (2) of electrically conducting material in contact with the sensor material; at least one ASIC (5) with input contacts (4) in electrical connection with the pixels (2), wherein at least one input contact (4) is horizontally offset relative to a corresponding pixel (2); and a redistribution layer (10) between the at least one sensor tile (1) and the at least one ASIC (5), the redistribution layer (10) comprising conductor tracks (11) electrically connecting the input contacts (4) with the corresponding pixels (2). At least one of the conductor tracks (11) crosses at least one crossed pixel different from the corresponding pixel.

Abstract: A method for photon counting imaging with improved high-rate counting performance includes the step of applying an instant retrigger capability with adjustable dead time in cells of the detector array and operates an apparatus using a layer of photosensitive material, an L×K array of photodetector elements arranged in the layer of the photosensitive material, an N×M array of readout unit cells, including amplifying elements and at least one readout unit cells for at least one photodetector elements. The readout unit cells are controlled by signal processing elements with each readout unit cell having internal signal processing elements to generate a discriminator output signal representing an amplified signal of the electron-hole pairs generated by an incident photon or a number of incident photons in the respective photodetector element.

Abstract: A method for photon counting imaging with improved high-rate counting performance includes the step of applying an instant retrigger capability with adjustable dead time in cells of the detector array and operates an apparatus using a layer of photo-sensitive material, an L×K array of photodetector elements arranged in the layer of the photosensitive material, an N×M array of readout unit cells, including amplifying elements and at least one readout unit cells for at least one photodetector elements. The readout unit cells are controlled by signal processing elements with each readout unit cell having internal signal processing elements to generate a discriminator output signal representing an amplified signal of the electron-hole pairs generated by an incident photon or a number of incident photons in the respective photodetector element.