Meng-Zhi Gu, Zhi-Cheng Lei, Xuan Zhang, Yi-kang Pu
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引用次数: 0
摘要
报告了电感耦合氩等离子体在 200 mTorr 的 E 到 H 转变过程中的方位瞬态条纹。在这一瞬态过程中,条纹数量随时间增加,当达到 H 模式时,条纹最终消失。为了研究这一现象的机理,我们建立了一个综合模型。该综合模型包含一个带有扰动分析的一维时变流体模型,以及一个与外部射频驱动源进行功率耦合的电路模型。根据这一综合模型,提出了条纹的形成是电子能量分布函数变化导致的电离不稳定性的结果。关于条纹数量时间演变的模型结果与观测数据十分吻合。
Transient striations in an inductively coupled plasma during E-to-H transitions
Azimuthal transient striations are reported for inductively coupled Ar plasma during E-to-H transition at 200 mTorr. In this transient process, the number of striations increases with time, and striations ultimately disappear when the H mode is reached. An integrated model is developed to investigate the mechanism of this phenomenon. This integrated model incorporates a one-dimensional time-dependent fluid model with a perturbation analysis, as well as a circuit model for power coupling with the external radio-frequency driving source. Based on this integrated model, the development of striations is proposed to be a consequence of ionization instability due to the variation in the electron energy distribution function. The model results for the temporal evolution of the number of striations are in good agreement with the observed data.
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