In the present numerical prediction of the deposition rate of silicon from silane in a CVD process, the conservation equations for mass, momentum, energy, and chemical species are solved on a staggered grid using the SIMPLE algorithm, while the rate of chemical reactions in the gas phase and on the susceptor surface is obtained from an Arrhenius rate equation. Predicted deposition rates as a function of position along the susceptor with and without the gas phase chemical reaction are compared with the available experimental and numerical data; agreement is excellent except at the leading edge of the susceptor, where the deposition rate is overpredicted.
Matin Amani, Robert A. Burke, Xiang Ji, Peida Zhao, Der‐Hsien Lien, Peyman Taheri, Geun Ho Ahn, Daisuke Kirya, Joel W. Ager, Eli Yablonovitch, Jing Kong, Madan Dubey, Ali Javey
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