考虑同轴电缆的电容耦合等离子体阻抗匹配设计

IF 3.1 3区 物理与天体物理 Q2 PHYSICS, APPLIED Journal of Physics D: Applied Physics Pub Date : 2024-08-29 DOI:10.1088/1361-6463/ad7151
Shimin Yu, Zili Chen, Jingwen Xu, Hongyu Wang, Lu Wang, Zhijiang Wang, Wei Jiang, Julian Schulze, Ya Zhang
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引用次数: 0

摘要

电容耦合等离子体(CCP)广泛应用于等离子体处理领域,其中射频(RF)源与等离子体之间的高效功率耦合至关重要。在实际的 CCP 系统中,阻抗匹配网络 (IMN) 被用来最大限度地减少功率反射。然而,同轴电缆的存在会严重影响等离子体阻抗和匹配性能。我们为 CCP 的 IMN 设计开发了一个综合仿真框架,充分考虑了射频同轴电缆的影响。该模型自洽地耦合了分布式传输线 (TL) 模型、叠加元件电路模型和静电粒子-电池模型。该耦合模型用于研究同轴电缆在各种放电条件和电缆配置下对匹配性能的影响。模拟结果表明,经过 6 次匹配迭代后,达到了最佳功率传输效率。耦合到 CCP 的功率从匹配前的 2.7 W 增至 180.9 W,反射系数最终降至 0.003。结果还显示,忽略电缆会导致 CCP 中的耗散功率下降。在不同气体压力(75-300 mTorr)和电缆长度条件下,所提出的方法都能有效实现阻抗匹配。可以得出的结论是,在电缆长度合适的情况下,匹配速度更快。这项工作为深入了解 TL 在 CCP 阻抗匹配中的作用提供了宝贵的见解,并为在使用射频同轴电缆的实际 CCP 系统中优化功率传输提供了实用的工具。
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Impedance matching design for capacitively coupled plasmas considering coaxial cables
Capacitively coupled plasmas (CCPs) are widely used in plasma processing applications, where efficient power coupling between the radio frequency (RF) source and the plasma is crucial. In practical CCP systems, impedance matching networks (IMNs) are employed to minimize power reflection. However, the presence of coaxial cables can significantly impact plasma impedance and matching performance. We develop a comprehensive simulation framework for the IMN design of CCPs, fully considering the effects of RF coaxial cables. The model self-consistently couples a distributed transmission line (TL) model, a lumped-element circuit model, and an electrostatic particle-in-cell model. This coupled model is used to investigate the impact of coaxial cables on matching performance under various discharge conditions and cable configurations. The simulation results indicate that the optimal power transmission efficiency was achieved after 6 matching iterations. The power coupled to the CCP increased from 2.7 W before matching to 180.9 W, and the reflection coefficient ultimately decreased to 0.003. The results also reveal that neglecting the cables will lead to a decrease in the power dissipated in the CCP. The proposed method demonstrates effectiveness in achieving impedance matching for different gas pressures (75–300 mTorr) and cable lengths. It can be concluded that the matching speed is faster for an appropriate cable length. This work provides valuable insights into the role of TLs in CCP impedance matching and offers a practical tool for optimizing power delivery in realistic CCP systems with RF coaxial cables.
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来源期刊
Journal of Physics D: Applied Physics
Journal of Physics D: Applied Physics 物理-物理:应用
CiteScore
6.80
自引率
8.80%
发文量
835
审稿时长
2.1 months
期刊介绍: This journal is concerned with all aspects of applied physics research, from biophysics, magnetism, plasmas and semiconductors to the structure and properties of matter.
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