Parametric study of an atmospheric pressure microwave-induced plasma of the mini MIP torch-II. Two-dimensional spatially resolved excitation temperature measurements

S.Jovicevic; M.Ivkovic; N.Konjevic

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Parametric study of an atmospheric pressure microwave-induced plasma of the mini MIP torch-II. Two-dimensional spatially resolved excitation temperature measurements

机译：微型MIP火炬II的大气压微波诱导等离子体的参数研究。二维空间分辨激发温度测量

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Two-dimensional mapping of the excitation temperatures have been carried out in the microwave-induced plasma torch with tangential argon flow. It is detected that the presence of wet aerosols in a nebulizer gas increases axial excitation temperature while desolvation acts in the opposite direction. The influence of low hydrogen concentration in the support gas and potassium in the nebulizer gas on the temperature distribution is studied in detail. The comparison of excitation temperature and electron number density distributions clearly indicates non-equilibrum plasma conditions.

机译：激发温度的二维映射已在具有切向氩气流的微波感应等离子体炬中进行。已检测到雾化器气体中湿气溶胶的存在会增加轴向激发温度，而去溶剂化的作用方向相反。详细研究了载气中低氢浓度和雾化器气体中钾对温度分布的影响。激发温度和电子数密度分布的比较清楚地表明了非平衡等离子体条件。

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《Spectrochimica Acta, Part B. Atomic Spectroscopy》 |2001年第12期|共10页
作者
S.Jovicevic; M.Ivkovic; N.Konjevic;
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正文语种 eng
中图分类原子光谱学;分析化学;
关键词
microwave induced plasma; excitation temperature; spectroscopic diagnostics;

机译：微波诱导等离子体;激发温度;光谱诊断;

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1. Parametric study of an atmospheric pressure microwave-induced plasma of the mini MIP torch-II. Two-dimensional spatially resolved excitation temperature measurements [J] . S.Jovicevic, M.Ivkovic, N.Konjevic Spectrochimica Acta, Part B. Atomic Spectroscopy . 2001,第12期

机译：微型MIP火炬II的大气压微波诱导等离子体的参数研究。二维空间分辨激发温度测量
2. TWO-DIMENSIONAL SPATIALLY RESOLVED EXCITATION AND ROTATIONAL TEMPERATURES AS WELL AS ELECTRON NUMBER DENSITY MEASUREMENTS IN CAPACITIVELY COUPLED MICROWAVE PLASMAS USING ARGON, NITROGEN AND AIR AS WORKING GASES BY SPECTROSCOPIC METHODS [J] . Bings NH., Broekaert JAC., Olschewski M. Spectrochimica Acta, Part B. Atomic Spectroscopy . 1997,第13期

机译：二维方法分析了使用氩，氮和空气作为工作气体的电容耦合微波等离子体中二维空间分辨的激发和旋转温度以及电子数密度测量
3. Measurements of spatially resolved electron number densities and modes temperatures using optical emission spectroscopy of atmospheric pressure microplasma jet [J] . Hoyer Y.D., Sismanoglu B.N., Grigorov K.G. The European physical journal, D. Atomic, molecular, and optical physics . 2012,第7期

机译：使用大气压微等离子体射流的发射光谱测量空间分辨的电子数密度和模式温度
4. Time and Spatially Resolved Studies of an kHz-excited Atmospheric Pressure Plasma Jet for Industrial Applications [C] . M. Teschke, J. Kedzierski, J. Engemann Society of Vacuum Coaters Annual Technical Conference; 20050423-28; Denver,CO(US) . 2005

机译：用于工业应用的kHz激发大气压等离子体射流的时间和空间分辨研究
5. APPLICATION OF MICROWAVE-INDUCED PLASMA EMISSION SPECTROSCOPY (MIPES) TO THE STUDY OF GAS/SOLID REACTIONS (KINETICS, FLUORINATION, TANTALUM/PLATINUM). [D] . ONER, ATILLA MEHMET. 1985

机译：微波诱导的等离子体发射光谱（MIPES）在气体/固体反应（动力学，氟化，钽/铂）研究中的应用。
6. Preparation of a Pd/Al2O3 Catalyst with Microwave-Induced Plasma Jet Irradiation under Atmospheric Pressure [O] . Jai Young Chung, Satoshi Kodama, Hidetoshi Sekiguchi 2019

机译：大气压微波诱导等离子体射流辐射制备Pd / Al2O3催化剂
7. Time- and Space-Resolved Spectroscopic Diagnostics of Magnetically Confined Plasmas Measurements of Temporally and Spatially Resolved Electron Temperatures Using a Matrix-Type Semiconductor Detector [O] . Junko KOHAGURA, Teruji CHO, Mafumi HIRATA, 2003

机译：使用矩阵型半导体检测器的磁局限性等离子体的时空和空间分辨电子温度测量的时间和空间分辨的光谱诊断
8. A Study of the Characteristics of an Atmospheric Pressure Microwave-Induced Argon Plasma [R] . Wong, S. K. 1980

机译：大气压微波诱导氩等离子体特性研究

Parametric study of an atmospheric pressure microwave-induced plasma of the mini MIP torch-II. Two-dimensional spatially resolved excitation temperature measurements

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