Title :
Effect of Segmenting Powered Electrode on Plasma Uniformity in Large-Area Capacitively Coupled Plasma Discharge
Author :
Chen, Zhigang ; Kenney, Jason ; Rauf, Shahid ; Collins, Ken ; Tanaka, Tom ; Hammond, Ned ; Kudela, Jozef
Author_Institution :
Appl. Mater., Inc., Sunnyvale, CA, USA
Abstract :
Very high frequency RF sources for PECVD of silicon are attractive due to improved film quality and higher deposition rate. However, economic considerations are driving a rapid increase in substrate size to reduce production costs and increase process throughput. As a consequence, electromagnetic wave effects are becoming the dominant factor in determining processing uniformity in large-area plasma processing. We apply a self-consistent 3-D electromagnetic plasma model to investigate the effect of segmenting the powered electrode in eliminating the electromagnetic wave effects and improving plasma uniformity. Images of electron density and electric field distribution generated by an array of 3 × 3 segmented subelectrodes are presented.
Keywords :
electrodes; electron density; high-frequency discharges; plasma CVD; plasma density; plasma electromagnetic wave propagation; plasma simulation; plasma sources; RF sources; deposition rate; electric field distribution image; electromagnetic wave effects; electron density image; film quality; large-area capacitively coupled plasma discharge; large-area plasma processing; plasma uniformity; powered electrode; processing uniformity; segmented subelectrode array; self-consistent 3D electromagnetic plasma model; silicon PECVD; substrate size; Electrodes; Electromagnetic scattering; Electromagnetics; Image segmentation; Inductors; Plasmas; Substrates; Electromagnetic propagation; plasma sources;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2157118
