Kinetic Simulation of He radio frequency capacitively coupled plasma

M. Shihab, A. Elbadawy, M. Afify, N. El-siragy
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Abstract

Radiofrequency capacitively coupled plasma is studied theoretically using a Particle-in-Cell code. For He discharge, the timeaveraged sheaths are in the range of few centimeters. The sheath potential, ion, and electron energy and angular distributions, discharge current, and dissipated power depend on the driven potentials and frequencies. Increasing the amplitude of the high radio frequencies increases the bulk density and the sheath potential and, consequently, increases the plasma processing rate. Increasing the intermediate radio frequency amplitude allows a wider sheath with a broad ion energy distribution and a narrower ion angular distribution. Changing the amplitude and the phase shift between driven frequencies provide different energies and angular distribution allowing performing various processes. The interplay between the sheath and bulk dynamics in the intermediate radiofrequency regime and the high-frequency regime may excite harmonics in the discharge current.
He射频电容耦合等离子体动力学模拟
用粒子-细胞码对射频电容耦合等离子体进行了理论研究。对于He放电,时间平均鞘层在几厘米范围内。鞘层电位、离子和电子能量和角分布、放电电流和耗散功率取决于驱动电位和频率。增加高射频的振幅增加了体密度和鞘层电位,从而增加了等离子体处理速率。增加中间射频振幅允许具有宽离子能量分布和窄离子角分布的更宽护套。改变振幅和驱动频率之间的相移提供不同的能量和角分布,允许执行各种过程。在中频段和高频频段,鞘层和体动力之间的相互作用会激发放电电流中的谐波。
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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