シリコン基板の熱酸化機構

抄録

The mechanism of the thermal oxidation of silicon substrates was studied, based on the determination of the oxygen pressure dependence of the solubility of oxygen in SiO₂ films by the use of the double oxidation method.
Silicon substrates were oxidized in a dry oxygen ambient. The results were analyzed, based on the linear-parabolic model. The activation energies were calculated to be 157 and 130 kJ/mol for the linear rate constant, k_L, and the parabolic rate constant, k_P, respectively. Both k_L and k_P were proportional to the first power of oxygen pressure, P_O2.
The double oxidation method was employed for determining the oxygen pressure dependence of the solubility of oxygen into the SiO₂ film, C^*, the interstitial diffusivity of oxygen in the SiO₂ film, D, and the rate constant of the chemical reaction at the SiO₂/Si interface, k. C^* was proportional to the first power of P_O2 but D and k were not dependent on P_O2. On the basis of this result, it was concluded that oxygen gas dissolves into the SiO₂ film as O₂ molecules.
The predominant mechanism of silicon oxidation was estimated to be as follows:
\ oindentOxygen gas dissolves into the interstitial sites of the SiO₂ film as O₂ molecules. The O₂ molecules diffuse toward the SiO₂/Si interface through the interstitial sites. At the interface the reaction of Si+O₂→SiO₂ occurs.