Using molecular dynamics simulations, based on Tersoff potentials, we show that at typical experimental temperatures high compressive strain regimes suppress the formation of partial glide dislocations, while enhancing the gliding of the shuffle segments. Despite being qualitative in nature, these results suggest that strain relaxation in thin virtual substrates at high misfit may occur with a different modality than in thick graded layers, as indicated by preliminary experimental results by low-energy plasma enhanced chemical vapor deposition. (C) 2005 American Institute of Physics.
Marzegalli, A., Montalenti, F., Miglio, L. (2005). Stability of shuffle and glide dislocation segments with increasing misfit in Ge/Si1-xGex(001) epitaxial layers. APPLIED PHYSICS LETTERS, 86, 041912 [10.1063/1.1856145].
Stability of shuffle and glide dislocation segments with increasing misfit in Ge/Si1-xGex(001) epitaxial layers
MARZEGALLI, ANNA;MONTALENTI, FRANCESCO CIMBRO MATTIA;MIGLIO, LEONIDA
2005
Abstract
Using molecular dynamics simulations, based on Tersoff potentials, we show that at typical experimental temperatures high compressive strain regimes suppress the formation of partial glide dislocations, while enhancing the gliding of the shuffle segments. Despite being qualitative in nature, these results suggest that strain relaxation in thin virtual substrates at high misfit may occur with a different modality than in thick graded layers, as indicated by preliminary experimental results by low-energy plasma enhanced chemical vapor deposition. (C) 2005 American Institute of Physics.
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