Operation characteristics of high-Voltage, low-pressure CCPs targeting etching applications
COFFEE_KLATCH · Invited
Abstract
Motivated by High Aspect Ratio etching applications the operation characteristics of argon CCPs in the sub-Pa pressure range operated with a base frequency of 400 kHz and primary voltage amplitude of 10 kV is investigated by means of 1d3v PIC/MCC simulations. An optimization of electron and ion energy distributions (EEDF and IEDF) at the electrodes is performed by varying the complex voltage waveforms including multiple harmonics and pulsed shapes, as well as using sophisticated surface material models for SiO$_2$ and pure Si. A strong influence of the secondary electron emission properties of the electrode surfaces on the charged particle dynamics and the EEDF is found especially in the case of unequal electrode materials.
*The contribution of the following co-authors is highly appreciated: Z. DONK\'O, A. DERZSI - Wigner RCP, Z. JUHASZ - University of Pannonia, T. MUSSENBROCK - Brandenburg University of Technology, LI WANG,K. N\"OSGES, B. BERGER, S. WILCZEK, R. P. BRINKMANN, J. SCHULZE - Ruhr-University Bochum, LEE EUNWOO - Samsung Electronics Co.; Project funded by: Samsung Electronics University R\&D program, China Scholarship Council (No. 201906060024), Hungarian grant K-119357, K-134462 and FK-128924, Janos Bolyai Research Scholarship of the Hungarian Academy of Sciences, German Research Foundation via MU 2332/6-1
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