Fluorescence of anisotropic primary X-ray radiation

Q4 Chemistry Analitika i Kontrol Pub Date : 2022-01-01 DOI:10.15826/analitika.2022.26.1.002
B. I. Kitov
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Abstract

In the X-ray spectral fluorescence analysis, the anisotropy of primary radiation results in an uneven radiation of a sample’s surface, strengthening the role of some sections and weakening the role of others. The goal of the current work was to determine the minimal distance from the window of the X-ray tube with a cone-shaped anode at which the intensity of the sample’s radiation becomes homogeneous. The research method was the computer modeling of the X-ray fluorescence experiment. The working model was built on the basis of two equations for the densities of the fluxes of braking and characteristic radiations of the massive anode, which took into account the absorption of primary radiation by the anode’s material and the back-scattering of electrons. The ring source was represented in the model as the sum of infinitely small linear elements of equal power, and the sample was disc-shaped and coaxial with the source. The calculation diagram was very well consistent with the experimental diagram of radiation’s direction described in the research literature. Two spatial distributions were calculated. The first one described the distribution of primary radiation’s intensity on the surface of the sample, while the second one described the distribution of the fluorescent radiation, which was more valuable for the X-ray spectrometry. The calculations showed that although the second distribution, unlike the first one, considered the absorption of the primary radiation and secondary radiation in the sample, the shapes of both radiations were close. It was demonstrated that the area of the sample, which carried the most information on the composition of the irradiated material, was ring-shaped, and the width of this ring depended on the distance to the X-ray tube’s window. As the distance increased, the diagram of the spatial distribution of the radiation’s intensity became smoother, and, when the distance exceeded two diameters of the anode, the radiation became homogeneous. The constructed model, which considered the anisotropy of the primary analysis, could be applied in the method of fundamental parameters of X-ray fluorescence analysis for a spectrometer with compressed geometry.
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各向异性初级x射线辐射的荧光
在x射线光谱荧光分析中,由于一次辐射的各向异性,导致样品表面的辐射不均匀,使某些部分的作用增强,而另一些部分的作用减弱。当前工作的目标是确定从x射线管窗口与锥形阳极的最小距离,在该距离上样品的辐射强度变得均匀。研究方法为x射线荧光实验的计算机模拟。在考虑阳极材料对一次辐射的吸收和电子的后向散射的基础上,建立了大质量阳极的制动通量密度和特征辐射密度方程。环形源在模型中被表示为无穷小的等功率线性单元的和,样品呈圆盘状,与源同轴。计算图与研究文献中描述的辐射方向实验图吻合较好。计算了两个空间分布。第一个描述了一次辐射强度在样品表面的分布,第二个描述了荧光辐射的分布,这对x射线光谱分析更有价值。计算表明,与第一次分布不同,第二次分布考虑了样品中一次辐射和二次辐射的吸收,但两种辐射的形状很接近。结果表明,样品的区域是环形的,它携带了辐照物质组成的最多信息,而这个环的宽度取决于到x射线管窗口的距离。随着距离的增加,辐射强度的空间分布图变得更加平滑,当距离超过阳极两个直径时,辐射变得均匀。所建立的模型考虑了初级分析的各向异性,可应用于压缩几何光谱仪的x射线荧光分析基本参数的计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Analitika i Kontrol
Analitika i Kontrol Chemistry-Analytical Chemistry
CiteScore
0.90
自引率
0.00%
发文量
15
期刊介绍: Analitika i Kontrol is a scientific journal covering theoretical and applied aspects of analytical chemistry and analytical control, published since autumn 1997. Founder and publisher of the journal is the Ural Federal University named after the first President of Russia Boris Yeltsin (UrFU, Ekaterinburg).
期刊最新文献
Electrophoretic determination of carboxylic acids in blood serum with intracapillary concentration Fluorescence of anisotropic primary X-ray radiation Selection of the parameters of a multicapillary column for portable gas analyzers by Kovach indices Differentiation of oil samples by isomeric composition of paraffins using cluster analysis methods Important features of retention indices determination in reversed-phase high performance liquid chromatography
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