Spectral Analysis of Proton-Irradiated Natural MoO3 Relevant for Technetium-99m Radionuclide Production

IF 0.5 Q4 MULTIDISCIPLINARY SCIENCES Journal of Mathematical and Fundamental Sciences Pub Date : 2020-09-06 DOI:10.5614/j.math.fund.sci.2020.52.2.6
I. Kambali, Rajiman Rajiman, Parwanto Parwanto, M. Marlina, K. Kardinah, Nur Huda, Ferdi D. Listiawadi, Herta Astarina, Ratu R. Ismuha, Heranudin Heranudin, H. Suryanto
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引用次数: 1

Abstract

Due to the declining number of available nuclear reactors capable of Tc-99m production and tight regulations related to uranium enrichment, cyclotron-based Tc-99m production has recently been suggested as a new method to help ease Tc-99m supply shortages. In this investigation, a solid natural MoO 3 target was irradiated using 11-MeV proton beams at variable proton doses. The proton doses were varied by varying the irradiation time while keeping the proton beam current constant at 20 µA. At the end of the bombardment, the post-irradiated solid MoO 3 targets were analyzed for their radioactive contents using a portable gamma-ray spectroscopy system. The analysis was also performed for the post-irradiated targets after dissolving the solid MoO 3 in a 6M NaOH solution. The experimental results indicated that as much as 75.71% of Tc-99m radioactivity was directly generated via a 100 Mo(p,2n) 99m Tc nuclear reaction, while the rest of the Tc-99m radioactivity was a result of a 98 Mo(n,γ) 99 Mo→ 99m Tc nuclear reaction. Apart from Tc-99m and Mo-99 radionuclides, some other radionuclides such as N-13, Tc-96, and Nb-96 were also recorded following temporal observation of the NaOH-dissolved MoO 3 . These experimental results open up the possibility of direct production of Tc-99m using a proton-accelerating cyclotron.
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与锝-99m核素生产有关的质子辐照天然MoO3的光谱分析
由于能够生产Tc-99m的核反应堆数量不断减少,以及与铀浓缩有关的严格规定,最近有人提出,基于回旋加速器的Tc-99m生产是一种帮助缓解Tc-99m供应短缺的新方法。在这项研究中,使用11-MeV质子束以可变质子剂量照射固体天然moo3靶。在保持质子束电流恒定在20µA的情况下,通过改变辐照时间来改变质子剂量。在轰击结束时,使用便携式伽玛射线光谱系统分析辐照后的固体MoO - 3目标的放射性含量。将固体MoO - 3溶解在6M NaOH溶液中,对辐照后的靶进行分析。实验结果表明,Tc-99m放射性的75.71%是由100 Mo(p,2n) 99m Tc核反应直接产生的,其余的Tc-99m放射性是由98 Mo(n,γ) 99mo→99m Tc核反应产生的。除了Tc-99m和Mo-99放射性核素外,还记录了其他一些放射性核素,如N-13、Tc-96和Nb-96。这些实验结果开启了使用质子加速回旋加速器直接生产Tc-99m的可能性。
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来源期刊
CiteScore
1.30
自引率
0.00%
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0
审稿时长
24 weeks
期刊介绍: Journal of Mathematical and Fundamental Sciences welcomes full research articles in the area of Mathematics and Natural Sciences from the following subject areas: Astronomy, Chemistry, Earth Sciences (Geodesy, Geology, Geophysics, Oceanography, Meteorology), Life Sciences (Agriculture, Biochemistry, Biology, Health Sciences, Medical Sciences, Pharmacy), Mathematics, Physics, and Statistics. New submissions of mathematics articles starting in January 2020 are required to focus on applied mathematics with real relevance to the field of natural sciences. Authors are invited to submit articles that have not been published previously and are not under consideration elsewhere.
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