A spectrometric stand for measuring the energy resolution of unpackaged single-channel silicon planar detectors has been developed and manufactured. The developed spectrometric stand makes it possible to reject detectors with unsatisfactory spectrometric characteristics at an early stage of manufacturing the detecting modules. Also, a technique has been developed for studying the spectrometric characteristics of unpackaged silicon detectors intended for the manufacture of detecting modules for ionizing radiation for various purposes.
A universal test platform for research and development of planar radiation detectors for use in medicine has been created having the possibility of obtaining complete information about the characteristics of the detector before creating a detecting module with specialized electronics. 5 jobs were created with the ability to perform the following work: measurement of the electrophysical characteristics of individual detectors and selected detection elements of the matrices based on the station with manual movement of microprobes; determination of the yield of suitable detector elements of matrices using a test station with automated microprobe movement and automated collection and processing of electrophysical measurement data; measurement of the energy resolution (ER) of individual silicon detectors, “scintillator-silicon photosensor” type detectors and measurement of the ER of selected matrix elements before creating a detection module with specialized electronics.
Self-powered portable gamma probe has been developed on the base of silicon planar uncooled detector and CsI(Tl) scintillator. The device is designed for interoperative and extraoperative search for differences in the concentration of radiopharmaceuticals in the energy range from 100 to 360 keV. Test stand was developed for determining the angular resolution of the gamma probe.
A compact spectrometric tract and software for work as part of a two-channel detecting system for continuous registration of X-ray and gamma radiation in a wide range of energies have been developed. The complex is designed to work with silicon planar uncooled detectors. The software allows you to process information from each spectrometric channel and provide information in the form of a integrated spectrum. The design of the detecting module, which combines low-energy and high-energy detectors in one housing has been developed.
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