Etch rate and surface morphology of polycrystalline beta-silicon carbide using chlorine trifluoride gas

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Etch rates of polycrystalline beta-silicon carbide (SiC) substrate in a wide range from less than one to more than 10 mu m/min are obtained using chlorine trifluoride gas in ambient nitrogen at 673-973 K and atmospheric pressure in a horizontal reactor. Over the chlorine trifluoride gas concentrations of 10-100% used in this study, the etch rate increases at the substrate temperatures between 673 and 773 K. Additionally, the etch rate at temperatures higher than 773 K is independent of the substrate temperature, similar to the one obtained using chlorine trifluoride gas concentration of 100%. The root means square roughness of etched surface tends to be small at high temperatures and high chlorine trifluoride gas concentrations. The polycrystalline beta-SiC etch rate can be adjusted using a combination of gas flow rate, chlorine trifluoride gas concentration, and substrate temperature in order to obtain surfaces suitable for various purposes. (c) 2006 Elsevier B.V All rights reserved.
Elsevier Science S.A..の論文
2006-08-30