Time-resolved analysis of Ar metastable and electron populations in low-pressure misty plasma processes using optical emission spectroscopy

Plasma Sources Science and Technology Pub Date : 2024-07-29 DOI:10.1088/1361-6595/ad5d11

S Chouteau, A Durocher-Jean, A Granier, M Richard-Plouet, L Stafford

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Abstract

Misty plasmas have recently emerged as a promising tool for nanocomposite thin films deposition. However, aerosol-plasma interactions remain poorly documented, especially at low working pressure. In this work, optical emission spectroscopy is used to probe the temporal evolution of three fundamental plasma parameters during pulsed liquid injection in an inductively coupled argon plasma at low-pressure. Time-resolved values of metastable argon density, electron temperature, and electron density are determined from radiation trapping analysis and particle balance equations of selected argon 1s and 2p levels. Pulsed liquid injection is found to induce a sudden drop in metastable density and electron temperature, and an increase in electron density. These results are attributed to the lower ionization thresholds of the injected molecular species compared to the one of argon. In addition, upstream liquid temperature is found to affect the transitory kinetics for non-volatile solvents more than volatile ones, in accordance with a previously reported flash boiling atomization mechanism.

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利用光发射光谱对低压霭霭等离子体过程中的氩态瞬变群和电子群进行时间分辨分析

雾状等离子体最近已成为纳米复合薄膜沉积的一种有前途的工具。然而，气溶胶与等离子体之间的相互作用仍然鲜有记录，尤其是在低工作压力下。在这项工作中，光学发射光谱被用来探测低压电感耦合氩等离子体中脉冲液体注入过程中三个基本等离子体参数的时间演变。通过辐射捕获分析和选定氩 1s 和 2p 电平的粒子平衡方程，确定了氩密度、电子温度和电子密度的时间分辨值。研究发现，脉冲液体注入会导致氩密度和电子温度骤降，电子密度上升。这些结果归因于注入分子物种的电离阈值低于氩的电离阈值。此外，还发现上游液体温度对非挥发性溶剂的过渡动力学影响大于挥发性溶剂，这与之前报道的闪沸雾化机制相符。

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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Plasma Sources Science and Technology

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