We show that oxygen vacancies are not necessary for the formation of E’ centers in amorphous SiO2 and that a single O-deficiency can lead to two charge traps. Employing molecular dynamics with a reactive potential and density functional theory we generate an ensemble of stoichiometric and oxygen-deficient amorphous SiO2 atomic structures and identify low-energy network defects. Three-coordinated Si atoms appear in several low-energy defects both in stoichiometric and O-deficient samples where, in addition to the neutral oxygen vacancy, they appear as isolated defects.
Revised: June 27, 2011 |
Published: May 17, 2011
Citation
Anderson N.L., R.P. Vedula, P.A. Schultz, R.M. Van Ginhoven, and A. Strachan. 2011.First-Principles Investigation of Low Energy E' Center Precursors in Amorphous Silica.Physical Review Letters 106, no. 20:Article No. 206402.PNNL-SA-77580.doi:10.1103/PhysRevLett.106.206402