First-principles calculation of intrinsic defect formation volumes in silicon

First-principles calculation of intrinsic defect formation volumes in silicon

We present an extensive first-principles study of the pressure dependence of the formation enthalpies of all the know vacancy and self-interstitial configurations in silicon, in each charge state from -2 through +2. The neutral vacancy is found to have a formation volume that varies markedly with pr...

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Hauptverfasser: Centoni, Scott A, Sadigh, Babak, Gilmer, George H, Lenosky, Thomas J, de la Rubia, Tomas Diaz, Musgrave, Charles B
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Materials Science
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Zusammenfassung:We present an extensive first-principles study of the pressure dependence of the formation enthalpies of all the know vacancy and self-interstitial configurations in silicon, in each charge state from -2 through +2. The neutral vacancy is found to have a formation volume that varies markedly with pressure, leading to a remarkably large negative value (-0.68 atomic volumes) for the zero-pressure formation volume of a Frenkel pair (V + I). The interaction of volume and charge was examined, leading to pressure--Fermi level stability diagrams of the defects. Finally, we quantify the anisotropic nature of the lattice relaxation around the neutral defects.
DOI:10.48550/arxiv.cond-mat/0508329