材料科学
等离子体
溅射
溅射沉积
氩
等离子体参数
原子物理学
无线电频率
腔磁控管
等离子体参数
阴极
点火系统
有限元法
射频功率放大器
脉冲直流
功率密度
分析化学(期刊)
航程(航空)
电子密度
温度电子
射频功率传输
功率(物理)
电荷密度
作者
N Z Calderon,Carlo Becerra,Jose Campo,Jean Carrreño,H. Torreblanca,Michael Stueber,S. Ulrich,Rolf Grieseler
出处
期刊:Physica Scripta
[IOP Publishing]
日期:2025-09-26
卷期号:100 (10): 105604-105604
被引量:2
标识
DOI:10.1088/1402-4896/ae0c48
摘要
Abstract A comprehensive comparison of results obtained by finite element modelling (FEM) and plasma diagnostics between direct current (d.c.) and radio frequency (RF) magnetron sputtering at a frequency of 13.56 MHz is presented. This research studies the influence of power in the range 20 W to 90 W at a constant argon gas pressure of 1 Pa. The maximum plasma density values are observed at 90 W in the d.c. mode, reaching 1.41 × 10 17 m −3 , and 1.95 × 10 16 m −3 in the RF mode, with results obtained within 1 μ s after ignition of the plasma. The results of the experiments showed that the plasma concentration at a distance of 23 mm from the cathode has maximum values; indicating that the electron and ion density values increase as the d.c. and RF magnetron sputtering power increases. This research aims to demonstrate the different charge density values obtained in RF and d.c. plasma with FEM to facilitate the prediction of the magnetron sputtering discharge parameters of the MatER PUCP laboratory. Given that at this moment suitable models for RF sputtering are rather scarce, the obtained plasma parameters from FEM will be compared to plasma parameters that were obtained experimentally.
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