8 research outputs found
Charge carrier induced lattice strain and stress effects on As activation in Si
We studied lattice expansion coefficient due to As using density functional
theory with particular attention to separating the impact of electrons and
ions. Based on As deactivation mechanism under equilibrium conditions, the
effect of stress on As activation is predicted. We find that biaxial stress
results in minimal impact on As activation, which is consistent with
experimental observations by Sugii et al. [J. Appl. Phys. 96, 261 (2004)] and
Bennett et al.[J. Vac. Sci. Tech. B 26, 391 (2008)]
Extended point defects in crystalline materials: Ge and Si
B diffusion measurements are used to probe the basic nature of
self-interstitial 'point' defects in Ge. We find two distinct self-interstitial
forms - a simple one with low entropy and a complex one with entropy ~30 k at
the migration saddle point. The latter dominates diffusion at high temperature.
We propose that its structure is similar to that of an amorphous pocket - we
name it a 'morph'. Computational modelling suggests that morphs exist in both
self-interstitial and vacancy-like forms, and are crucial for diffusion and
defect dynamics in Ge, Si and probably many other crystalline solids
Overlayer stress effects on defect formation in Si and Ge
International audiencePoint-defect formation energies in bulk crystalline materials such as Si and Ge are material specific quantities defined for the case of formation at a free surface, but in many cases of technological interest, point defects are formed at the interface between the crystalline substrate and a strained material overlayer. Here the energy cost of generating a bulk point defect at the overlayer/substrate interface is modified by the stress interaction during defect formation, leading to an effective supersaturation or undersaturation in the bulk, relative to the 'equilibrium' concentration expected for the case of a free surface. This in turn impacts on diffusion, defect formation and activation of dopant impurities in the substrate. We present current experimental evidence for this phenomenon, based on studies of B diffusion under tensile-strained nitride layers, and discuss the likely implications for dopant activation in Si and Ge