Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения

Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения

Digital spectral analysis of signals based on DFT has a number of advantages. However, the transition from analog to digital methods and techniques is accompanied by a number of undesirable effects. Signals in each subject area usually have their own specifics. Therefore, it is necessary to study th...

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Date:2015
Main Author: Skrypnyk, A. I.
Format: Article
Language:Ukrainian
Published: PE "Politekhperiodika", Book and Journal Publishers 2015
Subjects:
код GEANT4
метод Монте-Карло
моделирование
СdZnTe-детектор
TlBr-детектор
источники излучения 137Cs и 90Sr
Al бета-фильтр
Online Access:https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.1.17
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Journal Title:Technology and design in electronic equipment

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Technology and design in electronic equipment
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spelling oai:tkea.com.ua:article-2882025-05-30T19:33:09Z CdZnTe- and TlBr-detectors response simulation for registration of the mixed beta- and gamma-radiation Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения Skrypnyk, A. I. GEANT4 code Monte-Carlo method simulation CdZnTe-detectors TlBr-detector 137Cs and 90Sr radiation sources Al β-filter код GEANT4 метод Монте-Карло моделирование СdZnTe-детектор TlBr-детектор источники излучения 137Cs и 90Sr Al бета-фильтр Digital spectral analysis of signals based on DFT has a number of advantages. However, the transition from analog to digital methods and techniques is accompanied by a number of undesirable effects. Signals in each subject area usually have their own specifics. Therefore, it is necessary to study these effects in applications of spectral Fourier analysis. Such research is important for three reasons. Firstly, DFT properties are accurate, have their own specificity and significantly differ from the properties of the Fourier transform of continuous signals. Secondly, signals in each subject area have their own specificity. Thirdly, researchers often have prevailing knowledge in some particular domain, rather than in the field of digital signal processing techniques. As a result, in practice, some of the processes and effects arising in applications of digital spectral analysis, unfortunately, escape the attention of researchers which can result in erroneous conclusions. The paper deals with the problems of measuring Fourier spectrum of signals in the base of discrete exponential functions. Methods and algorithms of sliding measurements of energy Fourier spectrum of signals on finite intervals were described. The invariance of current energy Fourier spectrum to moving discrete real signals (which are not periodic) were investigated. The authors identify a new effect of digital spectral analysis — the effect of non-invariance of the current energy Fourier spectrum. Theoretical and practical results of analysis of invariance of current energy Fourier spectrum of tonal components are shown. The conducted studies allow us: — to see in a new light the measurement results on finite intervals of current Fourier spectrum and the current energy Fourier spectra of signals; give a numerical estimate of the non-invariance of the current energy Fourier spectrum of real tonal components. — to increase the effectiveness of digital spectral analysis in its many applications, in particular, for solving the problems of detection and identification of hidden periodicities in such subject areas as radar, vibroacoustic diagnostics, passive sonar, biomedicine, etc. Выполнено моделирование функции отклика CdZnTe- и TlBr-детекторов на индивидуальные источники излучения 137Cs и 90Sr с помощью кода GEANT4. Получены спектры для случаев, когда перед детектором размещается бета-фильтр для поглощения электронов и без него. С помощью моделирования методом Монте-Карло найдена оптимальная толщина Al бета-фильтра для полного подавления конверсионных электронов в спектре 137Cs. Также получена функция отклика TlBr-детектора на смешанный источник излучения (137Cs+90Sr). PE "Politekhperiodika", Book and Journal Publishers 2015-02-24 Article Article Peer-reviewed Article application/pdf https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.1.17 10.15222/TKEA2015.1.17 Technology and design in electronic equipment; No. 1 (2015): Tekhnologiya i konstruirovanie v elektronnoi apparature; 17-21 Технологія та конструювання в електронній апаратурі; № 1 (2015): Технология и конструирование в электронной аппаратуре; 17-21 3083-6549 3083-6530 uk https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.1.17/255 Copyright (c) 2015 Skrypnyk A. I. http://creativecommons.org/licenses/by/4.0/
institution Technology and design in electronic equipment
baseUrl_str
datestamp_date 2025-05-30T19:33:09Z
collection OJS
language Ukrainian
topic код GEANT4
метод Монте-Карло
моделирование
СdZnTe-детектор
TlBr-детектор
источники излучения 137Cs и 90Sr
Al бета-фильтр
spellingShingle код GEANT4
метод Монте-Карло
моделирование
СdZnTe-детектор
TlBr-детектор
источники излучения 137Cs и 90Sr
Al бета-фильтр
Skrypnyk, A. I.
Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения
topic_facet GEANT4 code
Monte-Carlo method
simulation
CdZnTe-detectors
TlBr-detector
137Cs and 90Sr radiation sources
Al β-filter
код GEANT4
метод Монте-Карло
моделирование
СdZnTe-детектор
TlBr-детектор
источники излучения 137Cs и 90Sr
Al бета-фильтр
format Article
author Skrypnyk, A. I.
author_facet Skrypnyk, A. I.
author_sort Skrypnyk, A. I.
title Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения
title_short Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения
title_full Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения
title_fullStr Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения
title_full_unstemmed Моделирование отклика CdZnTe- и TlBr-детекторов для регистрации смешанного бета- и гамма-излучения
title_sort моделирование отклика cdznte- и tlbr-детекторов для регистрации смешанного бета- и гамма-излучения
title_alt CdZnTe- and TlBr-detectors response simulation for registration of the mixed beta- and gamma-radiation
description Digital spectral analysis of signals based on DFT has a number of advantages. However, the transition from analog to digital methods and techniques is accompanied by a number of undesirable effects. Signals in each subject area usually have their own specifics. Therefore, it is necessary to study these effects in applications of spectral Fourier analysis. Such research is important for three reasons. Firstly, DFT properties are accurate, have their own specificity and significantly differ from the properties of the Fourier transform of continuous signals. Secondly, signals in each subject area have their own specificity. Thirdly, researchers often have prevailing knowledge in some particular domain, rather than in the field of digital signal processing techniques. As a result, in practice, some of the processes and effects arising in applications of digital spectral analysis, unfortunately, escape the attention of researchers which can result in erroneous conclusions. The paper deals with the problems of measuring Fourier spectrum of signals in the base of discrete exponential functions. Methods and algorithms of sliding measurements of energy Fourier spectrum of signals on finite intervals were described. The invariance of current energy Fourier spectrum to moving discrete real signals (which are not periodic) were investigated. The authors identify a new effect of digital spectral analysis — the effect of non-invariance of the current energy Fourier spectrum. Theoretical and practical results of analysis of invariance of current energy Fourier spectrum of tonal components are shown. The conducted studies allow us: — to see in a new light the measurement results on finite intervals of current Fourier spectrum and the current energy Fourier spectra of signals; give a numerical estimate of the non-invariance of the current energy Fourier spectrum of real tonal components. — to increase the effectiveness of digital spectral analysis in its many applications, in particular, for solving the problems of detection and identification of hidden periodicities in such subject areas as radar, vibroacoustic diagnostics, passive sonar, biomedicine, etc.
publisher PE "Politekhperiodika", Book and Journal Publishers
publishDate 2015
url https://www.tkea.com.ua/index.php/journal/article/view/TKEA2015.1.17
work_keys_str_mv AT skrypnykai cdznteandtlbrdetectorsresponsesimulationforregistrationofthemixedbetaandgammaradiation
AT skrypnykai modelirovanieotklikacdznteitlbrdetektorovdlâregistraciismešannogobetaigammaizlučeniâ
first_indexed 2025-09-24T17:30:41Z
last_indexed 2025-09-24T17:30:41Z
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