Erbium point defects in silicon

15 June 1993

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 47 (23) , 15533-15536
https://doi.org/10.1103/physrevb.47.15533

Abstract

The possible technological importance of rare-earth-doped semiconductors has led to great interest in these materials. However, little at the atomic level is hitherto known about such defects in the host lattice. Using first-principles calculations, the nature of erbium point defects in crystalline silicon is investigated. The total energy of an erbium point defect at several high-symmetry sites and with two different oxidation states is computed. Among the configurations studied, the minimum-energy one is

{Er}^{3 +}

at a tetrahedral interstitial site. The nature of the Er-related defect levels is determined.

Keywords

This publication has 9 references indexed in Scilit:

The electrical and defect properties of erbium-implanted silicon
Journal of Applied Physics, 1991
Impurity enhancement of the 1.54-μm Er3+ luminescence in silicon
Journal of Applied Physics, 1991
Optimized pseudopotentials
Physical Review B, 1990
Nonlocal pseudopotentials in molecular-dynamical density-functional theory: Application to ${SiO}_{2}$
Physical Review Letters, 1987
Unified Approach for Molecular Dynamics and Density-Functional Theory
Physical Review Letters, 1985
Efficacious Form for Model Pseudopotentials
Physical Review Letters, 1982
Special Points in the Brillouin Zone
Physical Review B, 1973
Self-Consistent Equations Including Exchange and Correlation Effects
Physical Review B, 1965
Inhomogeneous Electron Gas
Physical Review B, 1964