INVESTIGATION OF SPATIAL DISTRIBUTION OF METAL VAPOURS ADMIXTURES IN THE PLASMA OF AN ELECTRIC ARC DISCHARGE

IF 0.5 Q4 PHYSICS, NUCLEAR

Problems of Atomic Science and Technology Pub Date : 2023-08-21 DOI:10.46813/2023-146-139

A. Murmantsev

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Abstract

This work focuses on diagnosing the plasma in an electric arc discharge in an argon flow using optical emission spectroscopy. The method employed for determining the population of energy levels and the concentration of metal atoms based on the absolute values of emission intensity is described and validated. The experimental setup includes a spectrograph and an RGB CMOS matrix as the emission registration device. By obtaining the absolute values of the spectral radiances of Cu I lines and considering the axial symmetry of the electric arc discharge, the local radiation intensity of these lines is determined. Radial distributions of copper atom concentrations are then calculated using the absolute values of emission intensities and the radial distribution of the excitation temperature, which is determined using the Boltzmann plots technique. Two methods are employed for calculating the atom concentrations. The first method involves Boltzmann plots based on four spectral lines of Cu I and the corresponding excitation temperature. The second method determines the concentrations directly from the population of copper's energy levels, which are derived from the absolute values of emission intensity of the Cu I spectral lines. The results obtained from these two methods exhibit a coincidence of within 20%, supporting the recommendation of this technique for plasma diagnostics in electric arc discharges.

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电弧放电等离子体中金属蒸气混合物空间分布的研究

本文研究了利用光学发射光谱技术对氩流电弧放电中的等离子体进行诊断。描述并验证了基于发射强度绝对值确定能级居数和金属原子浓度的方法。实验装置包括摄谱仪和RGB CMOS矩阵作为发射配准装置。通过得到Cu - I线的光谱辐射度绝对值，并考虑电弧放电的轴对称，确定了Cu - I线的局部辐射强度。然后利用发射强度的绝对值和激发温度的径向分布计算铜原子浓度的径向分布，这是用玻尔兹曼图技术确定的。计算原子浓度有两种方法。第一种方法涉及基于Cu I的四条谱线和相应的激发温度的玻尔兹曼图。第二种方法直接从Cu I谱线发射强度的绝对值得出的铜能级的居群来确定浓度。从这两种方法获得的结果显示出在20%以内的一致性，支持该技术用于电弧放电等离子体诊断的推荐。

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

Problems of Atomic Science and Technology 物理-核科学技术

CiteScore

0.70

自引率

50.00%

发文量

审稿时长

2-4 weeks

期刊介绍： The journal covers the following topics: Physics of Radiation Effects and Radiation Materials Science; Nuclear Physics Investigations; Plasma Physics; Vacuum, Pure Materials and Superconductors; Plasma Electronics and New Methods of Acceleration.