Abstract: A module (1) for a detector (14) of ionizing radiation comprising at least two detection segments (2) for detecting ionizing radiation, attached to a row carrier (3) allowing for the assembly of detectors (14) with an unlimitedly large detection surface for continuous imaging of ionizing radiation. The construction of the module (1), including a means (10) for power supply stabilization for each detection segment (2), an interconnection of electrical conductors (8), formed by printed circuit boards (9, 13) led vertically downwards perpendicular to the detector surface along the row carrier (3), and a parallel connection to the connectors (11) of the read-out electronics, increases the reliability and speed of the operation of the detector (14). Between the individual parts of the module (1) there are formed thermal bridges to stabilize the temperature and to increase the reliability of the detector (14) assemblies from the modules (1).

Abstract: A detector of ionizing radiation, e.g. x-ray radiation, allowing for the creation of a continuous digital image of a scanned object. The detection surface is formed by a mosaic of detector segments arranged in a matrix and consisted of a sensor layer arranged on a chip reader with the formation of tiers to engage an adjacent detector segment. The sensor layer is active over its entire area, and the matrix is provided with a means for positioning the detector segments to define their mutual lateral clearance less than the size of one pixel. The positioning means preferably comprises a carrier of rows. The resulting detection surface is active over its entire area and allows for the direct creation of continuous digital image without dead zones.

Abstract: The invention describes a method and a device (9) for executing a method of X-ray nano-radiography and nanotomography using a scanning electron microscope (1) consisting of the focus of an electron beam (2) from an electron microscope (1) onto one point of the surface of a scanned sample (3), the emission of bremsstrahlung and fluorescent radiation (6) from the focal point of the impact of the electron beam (2), the sensing of the scanned sample (3), and recording an image of the structure of the scanned sample (3) based on the change of intensities of the bremsstrahlung and fluorescent radiation (6) by the imaging detector (7) arranged behind the sample (3).

Abstract: A detector of ionizing radiation, e.g. x-ray radiation, allowing for the creation of a continuous digital image of a scanned object. The detection surface is formed by a mosaic of detector segments arranged in a matrix and consisted of a sensor layer arranged on a chip reader with the formation of tiers to engage an adjacent detector segment. The sensor layer is active over its entire area, and the matrix is provided with a means for positioning the detector segments to define their mutual lateral clearance less than the size of one pixel. The positioning means preferably comprises a carrier of rows. The resulting detection surface is active over its entire area and allows for the direct creation of continuous digital image without dead zones.