Design and optimization of a proportional counter for the absolute determination of low-energy x-ray emission rates

We recently presented the construction of a proportional counter for the absolute measurement of low-energy x-ray emission rates. Its main features were presented in a previous study, along with the testing of its performance as an absolute technique. Full details on its design, construction, and ch...

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Published in:Review of scientific instruments 2020-10, Vol.91 (10), p.103304-103304
Main Authors: H. Elvira, V., Roteta, M., Fernández-Sotillo, A., García-Toraño, E.
Format: Article
Language:English
Subjects:
Beryllium oxide
Chlorine
Design optimization
Dimensional measurement
Electric fields
Emission analysis
Fluorescence
Graphene
Multiplication
Proportional counters
Radioisotopes
Scientific apparatus & instruments
Scintillation counters
Spectral emittance
X-rays
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cited_by cdi_FETCH-LOGICAL-c325t-49c818a8c6d05c70f4f28f2c524703489c16c7cc7f6277229b668d9a74a5a77c3
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container_end_page 103304
container_issue 10
container_start_page 103304
container_title Review of scientific instruments
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creator H. Elvira, V.
Roteta, M.
Fernández-Sotillo, A.
García-Toraño, E.
description We recently presented the construction of a proportional counter for the absolute measurement of low-energy x-ray emission rates. Its main features were presented in a previous study, along with the testing of its performance as an absolute technique. Full details on its design, construction, and characterization processes are given in this paper. First, the analytical calculations and Monte Carlo simulations that led to the choice of optimal dimensions will be presented, followed by the study of the charge creation and the modeling of the electric field that confirmed that the criteria for a reproducible charge multiplication are met. Afterward, details on the electronics and gas control system will be provided. The dimensional measurements for the accurate determination of the solid angle will be described in detail. Special emphasis will be placed on the production of the detector window, which was made of reduced graphene oxide instead of beryllium. Some tests on the operation of the counter will be presented, namely, the measurement of spectra of several radionuclides that emit x-rays between 3 keV and 9 keV, as well as the fluorescence spectrum of chlorine, at 2.6 keV. A brief explanation of the determination of emission rates will be given, including the approach adopted for the treatment of the escape-peak area. The emission rate measured with the proportional counter was converted into activity concentration using the emission probabilities from the bibliography, in order to compare the results with those obtained by liquid scintillation counting, and both results were found to be in good agreement.
doi_str_mv 10.1063/5.0013909
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list); AIP Journals (American Institute of Physics)
subjects Beryllium oxide
Chlorine
Design optimization
Dimensional measurement
Electric fields
Emission analysis
Fluorescence
Graphene
Multiplication
Proportional counters
Radioisotopes
Scientific apparatus & instruments
Scintillation counters
Spectral emittance
X-rays
title Design and optimization of a proportional counter for the absolute determination of low-energy x-ray emission rates
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