Title :
Embedding techniques for irradiation-induced defects in crystalline SiO2
Author :
Edwards, Arthur H. ; Sushko, Peter V. ; Shluger, Alexander L. ; Sulimov, Vladimir B.
Author_Institution :
Space Vehicles Directorate, Air Force Res. Lab., Kirtland AFB, NM, USA
fDate :
6/1/2002 12:00:00 AM
Abstract :
We present a new atomistic embedding technique for neutral and charged defects in silicon dioxide and apply it to the neutral vacancy and the crystalline analog of the Eγ´ defect, the E1´ in α quartz. We show that there are significant relaxations up to 8 Å away from the vacancy and that this points to the necessity of using much larger unit cells in solid-state density functional theory (DFT) calculations. Also, we have shown that the long-range Madelung field alters estimates of hyperfine interactions significantly. In fact, the current embedding scheme has led to greatly improved predictions for 29Si hyperfine interactions for the E1´ center.
Keywords :
density functional theory; hyperfine interactions; lattice energy; point defects; quartz; radiation effects; silicon compounds; stress relaxation; vacancies (crystal); 8 A; E1´ center; SiO2; atomistic embedding technique; crystalline SiO2; hyperfine interactions; irradiation-induced defects; long-range Madelung field; neutral vacancy; relaxation; solid-state density functional theory; Boundary conditions; Crystallization; Density functional theory; Helium; Physics; Polarization; Resonance; Silicon compounds; Solid state circuits; State estimation;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2002.1039671
