Title :
Optimization of gas utilization in plasma processes
Author_Institution :
Production Eng. & Dev. Div., Seiko Epson Corp., Nagano, Japan
Abstract :
The reduction of chemical usage in semiconductor manufacturing has been a topic of wide discussion over the past several years. The aim of this study is to optimize plasma efficiency as chemical reactions by using the Taguchi method. In short, the function of plasma is to serve as an etchant that reacts with films. The results of the reaction are discharged. The main point of optimization was to use a main etchant to increase the amount of desirable main reaction and to decrease the amount of unreacted gas in order to keep the undesirable side reaction to a minimum. We found chemical vapor deposition cleaning conditions that improve plasma efficiency up to 200%, perfluorocompounds (PFC) gas usage to one-third, and PFC gas emission to 25%. We also found nitride etching conditions that improve plasma efficiency up to 350%, SF6 usage to 25%, SF6 emission to 22%, and selectivity to oxide up to 145% over the previous conditions.
Keywords :
Taguchi methods; environmental factors; integrated circuit manufacture; optimisation; plasma CVD; plasma materials processing; semiconductor device manufacture; sputter etching; sulphur compounds; surface cleaning; CVD cleaning conditions; PFC gas emission; SF6; SF6 emission reduction; Taguchi method; chemical reactions; chemical vapor deposition cleaning; gas utilization optimization; nitride etching conditions; perfluorocompounds gas; plasma efficiency; plasma etchant; semiconductor manufacturing; unreacted gas reduction; Atmosphere; Chemical vapor deposition; Earth; Etching; Gases; Global warming; Plasma applications; Plasma chemistry; Plasma materials processing; Semiconductor device manufacture;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2003.815635
