Fast Diffusion Mechanism of Silicon Tri-interstitial Defects
Abstract
We reveal the microscopic self-diffusion process of compact tri-interstitials in silicon using a combination of molecular dynamics and nudged elastic band methods. We find that the compact tri-interstitial moves by a collective displacement, involving both translation and rotation, of five atoms in a screw-like motion along [111] directions. The elucidation of this pathway demonstrates the utility of combining tight-binding molecular dynamics with ab initio density functional calculations to probe diffusion mechanisms. Using density functional theory to obtain diffusion barriers and the prefactor, we calculate a diffusion constant of 4 · 10-5 (- 0.49 eV / kB T) cm2/s . Because of the low diffusion barrier, I3b diffusion may be an important process under conditions such as ion implantation that creates excess interstitials, hence favoring formation of interstitial clusters.
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