1. Dual-Frequency Superimposed RF Capacitive-Coupled Plasma Etch Process
- Author
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Jun Yashiro, Eiichiro Shinomiya, Shinji Himori, Junya Nishiwaki, Itsuko Sakai, Hisataka Hayashi, Akihiro Kojima, Mitsuhiro Ohmura, Tokuhisa Ohiwa, Akihiro Takase, Kazuya Nagaseki, and Takaya Matsushita
- Subjects
Plasma etching ,Chemistry ,business.industry ,Capacitive sensing ,RF power amplifier ,General Engineering ,Copper interconnect ,Analytical chemistry ,General Physics and Astronomy ,Plasma ,Etching (microfabrication) ,Optoelectronics ,Reactive-ion etching ,business ,Voltage - Abstract
A dual-frequency superimposed (DFS) 100 MHz and 3.2 MHz rf capacitive-coupled plasma etch process for sub-90 nm devices has been developed. The electron density of DFS reactive ion etching (RIE) plasma at 40 mTorr was controlled from 4.0×1010 to 3.6×1011 cm-3 by adjusting the 100 MHz rf power, and the self-bias voltage (-V dc) was controlled from 20 to 760 V by adjusting the superimposed 3.2 MHz rf power. DFS RIE demonstrated independent control of electron density and self-bias voltage in a wide range. In the damascene etch process of SiOC film using Si3N4 as an etch mask, it was found that mask edge erosion is dependent on ion energy regardless of the selectivity of SiOC to Si3N4. DFS RIE offers the most suitable process for damascene etching of SiOC, which requires precise ion energy control.
- Published
- 2005
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