Modern methods for identification of atoms, molecules, and aerosols in various objects

Заводская лаборатория. Диагностика материалов Pub Date : 2023-06-21 DOI:10.26896/1028-6861-2023-89-6-23-34

A. T. Khalmanov, N. Toshkuvatova

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Abstract

The study is aimed at developing highly sensitive methods of laser analytical spectroscopy. The physical mechanisms of forming useful signals (selective ionization signal and cavity ring-down signal) were identified that provided registration of parameters of atomic and aerosol systems in the intensive pulsed laser field. High-sensitive laser methods of laser resonance ionization spectroscopy in vacuum, laser-enhanced ionization spectrometry in flame, and cavity ringdown laser absorption spectroscopy (CRLAS) are used for the determination of ultra-small concentrations of atoms in different phase states of the substance. Samples of aqueous standard solutions and solid metals of s (Li, K, Na, Ca, Cs), p (Al, In), d (Cr, Mn, Fe, Co, Ni, Cu, Ag, Au, Pt, Zn, Hg), f (Yb) elements, aluminum alloys, especially pure solvents, crystals (NH4F, NaF), semi-conductor materials (GaAs, Si) and various aerosols of salts (NaCl, CsCl, NaI, NaF, KCl AgNO 3 ), chemicals, organic dyes, alloys, soils and rocks were studied. The new mechanisms of getting free particles are revealed and new methods increasing the efficiency of atomization, selective ionization and excitation of atoms in systems «flame», «rod – flame», in atomizer «graphite – furnace» are proposed. The particle size distribution of aerosols formed under the impact of high-power laser radiation on the surface of a solid sample has been studied. The dependence of the absolute concentration of aerosol particles on their size has been determined. Aerosol extinction coefficients and extinction efficiency have been measured using intracavity laser spectroscopy. For the first time new parameters of aerosols are revealed by physical and chemical properties of aerosol plumes from solid surfaces and aerosols of salt of metals and organic aerosols. Methods of additives and calibration curve were used to examine the effects of the matrix on the analytical signal of the studied atoms.

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鉴别各种物体中的原子、分子和气溶胶的现代方法

本研究旨在发展高灵敏度的激光分析光谱学方法。确定了形成有用信号(选择性电离信号和腔衰荡信号)的物理机制，为原子和气溶胶系统在强脉冲激光场中的参数登记提供了依据。采用真空激光共振电离光谱、火焰激光增强电离光谱和腔衰荡激光吸收光谱(CRLAS)等高灵敏度激光方法测定物质中不同相态的超小浓度原子。研究了s (Li, K, Na, Ca, Cs)， p (Al, In)， d (Cr, Mn, Fe, Co, Ni, Cu, Ag, Au, Pt, Zn, Hg)， f (Yb)元素的水溶液和固体金属，铝合金，特别是纯溶剂，晶体(NH4F, NaF)，半导体材料(GaAs, Si)和各种盐气溶胶(NaCl, CsCl, NaI, NaF, KCl agno3)，化学品，有机染料，合金，土壤和岩石的样品。揭示了获得自由粒子的新机制，提出了在“火焰”、“棒-火焰”、雾化器“石墨-炉”系统中提高原子雾化、选择性电离和激发效率的新方法。本文研究了在高功率激光照射下固体样品表面形成的气溶胶的粒径分布。已经确定了气溶胶粒子的绝对浓度与其大小的关系。用腔内激光光谱法测量了气溶胶消光系数和消光效率。首次通过固体表面气溶胶羽流、金属盐气溶胶和有机气溶胶的物理化学性质揭示了气溶胶的新参数。采用添加剂法和校准曲线法考察了基体对所研究原子分析信号的影响。

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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Заводская лаборатория. Диагностика материалов

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