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Titre: Etude ab initio du mécanisme microscopique des transitions reconstructives dans les binaires de type B3.
Auteur(s): Beddi, Abdelkader
Mots-clés: ab initio - mécanisme microscopique - transitions reconstructives - binaires de type B3
Date de publication: 28-jui-2018
Editeur: 25-04-2019
Référence bibliographique: salle des theses
Résumé: Using an ab initio calculation, we show in this work that we can easily simulate the reconstructive phase transition mechanism B3B1 generated by the application of a hydrostatic pressure to binary compounds. We use an intermediate state (Imm2) with orthorhombic form. We have relied the parent phases by means of a groupsubgroup relationship. The choice of sub-group is not born by chance but through the computation of local constraints along the transformation path. The intermediate phase Imm2 has been simulated in the binary by a sol coordinate at the z position of the cation. The transition path generates a decrease in the volume due to the change of the two structural ratios c /a and b/ a. The tolerance parameter of the deformation being minimal; the phase transition of both binaries compounds need a minimum activation energy. The curve of the transition path gave a smooth and well symmetrical shape. Our activation barriers, calculated using the martensitic approach, show that the ionic CuBr needs a very small energy to undergoes from the semiconductor state to the metallic state (B1). Whereas, the GaAs compound, requires 10 times more energy to undergoes this transition.
URI/URL: http://dspace.univ-tlemcen.dz/handle/112/14120
Collection(s) :Master en Physique

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