J. Wang et al., DIMER VACANCIES AND DIMER-VACANCY COMPLEXES ON THE SI(100) SURFACE, Physical review. B, Condensed matter, 47(16), 1993, pp. 10497-10508
Ab initio total-energy calculations are performed using a conjugate-gr
adients minimization technique to calculate the properties of various
dimer vacancies and dimer-vacancy complexes on the Si(100) surface. A
dimer vacancy is found to be a much more probable intrinsic defect for
this surface than the recently proposed dimer interstitial. Two mecha
nisms are identified that contribute to the low formation energy and s
tability of dimer vacancies on the surface: (i) the need to eliminate
dangling bonds in the second layer and (ii) the need for atoms to read
just in order to relax the strain. The results of the calculations pro
vide a good quantitative explanation of the major features of scanning
-tunnel-microscopy images obtained from the Si(100) surface. These inc
lude the abundance of dimer vacancies, the tendency of dimer vacancies
to cluster, and the details of the nonthermal population distribution
of distinctive vacancy complexes.