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Abstract The introduction of a dislocation from one lateral surface of a two-dimensional buried layer embedded in a matrix has been theoretically investigated in the interfaces between the two materials.… Click to show full abstract
Abstract The introduction of a dislocation from one lateral surface of a two-dimensional buried layer embedded in a matrix has been theoretically investigated in the interfaces between the two materials. It is found that the lower (and longer) interface is a preferential site where the dislocation can be introduced to relieve the misfit strain. For given layer thickness and lattice mismatch between the matrix and the layer phases, a critical angle has been determined beyond which the introduction of the dislocation is energetically favorable. A stability diagram associated with the dislocation formation has been then provided with respect to the misfit strain, inclination angle and layer thickness. The case of a SixGe 1 − x layer embedded in a Ge matrix is finally discussed.
Journal Title: International Journal of Solids and Structures
Year Published: 2018
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