Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Investigation of the possibility of a new detector based on SiPM in nuclear forensics

NázevTitle
Investigation of the possibility of a new detector based on SiPM in nuclear forensicsInvestigation of the possibility of a new detector based on SiPM in nuclear forensics
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
M. Holík, F. Ahmadov, A. Sadygov, G. Ahmadov
DOIDOI
10.1088/1748-0221/18/01/C01015
Časopis / citaceJournal / citation
Journal of Instrumentation. 2023, 18(1), ISSN 1748-0221.
RokYear
2023
JazykLanguage
eng
WoSWoS
000926596900002
ScopusScopus
2-s2.0-85146487031
RIVRIV
RIV/68407700:21670/23:00370590!RIV24-MSM-21670___
ProjektProject
Innovative Photodetector Module for advanced Hybrid “Magnetic Resonance Imaging/Positron Emission Tomography” Scanners for Nuclear MedicineInnovative Photodetector Module for advanced Hybrid “Magnetic Resonance Imaging/Positron Emission Tomography” Scanners for Nuclear Medicine; Inženýrské aplikace fyziky mikrosvětaEngineering applications of microworld physics

AbstraktAbstract

The development of nuclear technologies, the production and active use of radioiso-topes, and the production of radiopharmaceuticals, medical isotopes and other radioactive materials are increasing every year. Therefore, the importance of ensuring the safety of highly active iso-topes, as well as providing the necessary instruments for measuring and identifying radioactive materials, must be taken into account. Modern equipment such as high purity germanium detectors (HPGe) is costly and requires specialized staff skills as well as special operating conditions such as low temperatures and high voltages. It is proposed to explore the possibilities of using a silicon photomultiplier (SiPM) with a deep pixel structure in nuclear gamma spectrometry, which will make it possible to increase the efficiency of scintillation detectors. The paper presents the results of a study of the newest silicon photomultipliers MAPD-3NM II assembled in a 16-element matrix, which was the detector part of the proposed LaBr3(Ce) scintillation spectrometer. The study was carried out using radioisotopes of uranium. The aim of the research is to reveal the possibility of differentiating depleted and natural uranium materials from each other without using special software by means of the proposed set of equipment.

The development of nuclear technologies, the production and active use of radioiso-topes, and the production of radiopharmaceuticals, medical isotopes and other radioactive materials are increasing every year. Therefore, the importance of ensuring the safety of highly active iso-topes, as well as providing the necessary instruments for measuring and identifying radioactive materials, must be taken into account. Modern equipment such as high purity germanium detectors (HPGe) is costly and requires specialized staff skills as well as special operating conditions such as low temperatures and high voltages. It is proposed to explore the possibilities of using a silicon photomultiplier (SiPM) with a deep pixel structure in nuclear gamma spectrometry, which will make it possible to increase the efficiency of scintillation detectors. The paper presents the results of a study of the newest silicon photomultipliers MAPD-3NM II assembled in a 16-element matrix, which was the detector part of the proposed LaBr3(Ce) scintillation spectrometer. The study was carried out using radioisotopes of uranium. The aim of the research is to reveal the possibility of differentiating depleted and natural uranium materials from each other without using special software by means of the proposed set of equipment.