Real time evaluation of silicon epitaxial growth process by exhaust gas measurement using quartz crystal microbalance

Publication date: December 2018Source: Materials Science in Semiconductor Processing, Volume 88Author(s): Mitsuko Muroi, Miya Matsuo, Hitoshi Habuka, Yuuki Ishida, Shin-Ichi Ikeda, Shiro HaraAbstractA silicon epitaxial growth process in a trichlorosilane-hydrogen system was evaluated using a quartz crystal microbalance (QCM) placed at the exhaust of a chemical vapor deposition reactor designed for the Minimal Fab. The QCM showed two types of the frequency decrease behaviors, that is, i) a quick shift due to the gas property change caused by the trichlorosilane gas introduction into the ambient hydrogen and ii) the continuous and gradual decrease due to the byproduct deposition on the QCM surface during the silicon epitaxial growth. Because both i) and ii) showed a relationship with the silicon epitaxial growth rate, the in-situ information obtained by the QCM was expected for the real time monitoring of the film deposition process.
Source: Materials Science in Semiconductor Processing - Category: Materials Science Source Type: research