Electrical characteristics of the GEC reference cell at low pressure: A two-dimensional PIC/MCC modeling study

Plasma Sources Science and Technology Pub Date : 2024-03-27 DOI:10.1088/1361-6595/ad3849

Zili Chen, Hongyu Wang, Shimin Yu, Yu Wang, Zhipeng Chen, Wei Jiang, Julian Schulze, Ya Zhang

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Abstract

The electrical characteristics of the Gaseous Electronics Conference (GEC) reference cell at low pressures are investigated using a two-dimensional electrostatic implicit particle-in-cell / Monte Carlo collision model (PIC / MCC) in cylindrical coordinates. The coupling between the complex reactor geometry and the external circuit is included via an equivalent capacitance calculated from the electric energy density and the charge conservation equation. The results of this model are compared with experimental measurements and other model calculations and show agreement. The plasma series resonance (PSR) effect, closely related to electron heating, is observed in this numerical simulation of a strongly asymmetric reactor at low pressures. The plasma kinetics of the capacitively coupled discharge and details of the external circuit response, including electrical waveforms and higher-order harmonics, are discussed at different pressures, which provides important insights for understanding the power coupling mechanisms in capacitively coupled discharges.

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GEC 基准电池在低压下的电气特性：二维 PIC/MCC 建模研究

使用圆柱坐标的二维静电隐式粒子-电池/蒙特卡洛碰撞模型（PIC/MCC）研究了气态电子会议（GEC）基准电池在低压下的电气特性。根据电能密度和电荷守恒方程计算出的等效电容包含了复杂反应器几何形状与外部电路之间的耦合。该模型的结果与实验测量结果和其他模型计算结果进行了比较，结果显示一致。在对低压下的强不对称反应器进行的数值模拟中，观察到了与电子加热密切相关的等离子体串联共振（PSR）效应。讨论了不同压力下电容耦合放电的等离子体动力学和外电路响应的细节，包括电波形和高阶谐波，这为理解电容耦合放电中的功率耦合机制提供了重要启示。

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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