High-Speed and Schlieren Imaging of a Low Power Inductively Coupled Plasma Source for Potential Biomedical Applications

Boselli M.; Cavrini F.; Colombo V.; Ghedini E.; Gherardi M.; Laurita R.; Liguori A.; Sanibondi P.; Stancampiano A.

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High-Speed and Schlieren Imaging of a Low Power Inductively Coupled Plasma Source for Potential Biomedical Applications

机译：用于潜在生物医学应用的低功率电感耦合等离子体源的高速和Schlieren成像

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摘要

High-speed and Schlieren imaging have been used to visualize ignition transients, discharge behavior and flow fields of a plasma device integrating a low-power inductively coupled plasma torch, generating a high temperature thermal plasma, with a quenching device, able to cool the gaseous effluent down to biocompatible temperatures for effective use in biomedical applications.

机译：高速和Schlieren成像已用于可视化等离子体装置的点火瞬变，放电行为和流场，该装置集成了低功率感应耦合等离子体炬，可产生高温热等离子体，并带有淬火装置，能够冷却气体废水降至生物相容性温度，可在生物医学应用中有效使用。

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来源
《Plasma Science, IEEE Transactions on》 |2014年第10期|2748-2749|共2页
作者
Boselli M.; Cavrini F.; Colombo V.; Ghedini E.; Gherardi M.; Laurita R.; Liguori A.; Sanibondi P.; Stancampiano A.;
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作者单位

Department of Industrial Engineering and the Industrial Research Centre for Advanced Mechanics and Materials, Alma Mater Studiorum-Universit?? di Bologna, via Saragozza 8, Bologna, Italy;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Biomedical imaging; Ignition; Iterative closest point algorithm; Plasmas; Silicon; Transient analysis; Atmospheric-pressure plasmas; bacterial inactivation; plasma diagnostics; plasma medicine; plasma sources; plasma sources.;

机译：生物医学成像;点火;迭代最近点算法;等离子;硅;瞬态分析;大气压血浆;细菌灭活;血浆诊断;血浆药物;血浆来源;血浆来源;

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1. Laser Ablation and Inductively Coupled Plasma-Time-of-Flight Mass Spectrometry-A Powerful Combination for High-Speed Multielemental Imaging on the Micrometer Scale [J] . Bussweiler Yannick, Borovinskaya Olga, Tanner Martin Spectroscopy . 2017,第5期

机译：激光烧蚀和电感耦合等离子体 - 飞行时间的质谱 - 用于高速多元素成像对微米刻度的强大组合
2. Low-frequency, high-density, inductively coupled plasma sources: Operation and applications [J] . Xu S., Li Y., Tsakadze EL., Physics of plasmas . 2001,第5aPta2期

机译：低频，高密度感应耦合等离子体源：操作和应用
3. iCCD Imaging of the Transition From Uncoupled to Coupled Mode in a Plasma Source for Biomedical and Materials Treatment Applications [J] . Bianconi S., Cavrini F., Colombo V., Plasma Science, IEEE Transactions on . 2014,第10期

机译：用于生物医学和材料治疗应用的等离子体源中从未耦合模式到耦合模式过渡的iCCD成像
4. Comparison of plasma sources for surface treatment applications: Radiofrequency inductively coupled and surface-wave microwave plasma sources [C] . Laurent C., Lo Julia, Caillier Bruno, The 41st IEEE International Conference on Plasma Science, and the 20th International Conference on High-Power Particle Beams . 2014

机译：用于表面处理的等离子源的比较：射频感应耦合和表面波微波等离子源
5. Part I. Development of low power, reduced pressure plasma ionization sources for mass spectrometry: The potential for enhanced speciation studies. Part II. Application of inductively coupled plasma mass spectrometry with high performance liquid chromatography for chromium speciation of chromium complexed azo dyes. [D] . Waggoner, Joseph Wilbert. 2000

机译：第一部分：用于质谱的低功率，减压等离子体电离源的开发：增强物种研究的潜力。第二部分电感耦合等离子体质谱与高效液相色谱法在铬配合物偶氮染料的铬形态分析中的应用。
6. Silicon Wafer Etching Rate Characteristics with Burst Width Using 150 kHz Band High-Power Burst Inductively Coupled Plasma [O] . Hisaki Kikuchi, Katsuyuki Takahashi, Seiji Mukaigawa, 2021

机译：硅晶片蚀刻速率特性具有突发宽度使用150 kHz带高功率突发电感耦合等离子体
7. Low-frequency, high-density, inductively coupled plasma sources : operation and applications [O] . Xu S., Ostrikov K., Li Y., 2001

机译：低频，高密度感应耦合等离子体源：操作和应用
8. Thomson Scattering for Determining Electron Concentrations and Temperatures in an Inductively Coupled Plasma. 1. Assessment of the Technique for a Lo -Flow, Low-Power Plasma [R] . Marshall, K. A., Hieftie, G. M. 1988

机译：汤姆逊散射测定电感耦合等离子体中的电子浓度和温度。 1.低功率等离子体技术的评估

High-Speed and Schlieren Imaging of a Low Power Inductively Coupled Plasma Source for Potential Biomedical Applications

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