Our last work "Unveiling the mechanisms of motion of synchro-Shockley dislocations in Laves phases" as just been published in Physical Review Materials. In collaboration with the RWTH Aachen, we demonstrate that nucleation and propagation of kink pairs is the energetically favorable mechanism for the motion of the synchro-Shockley dislocation. Additionally, we identified a mechanism of nonsequential atomic shuffling for the motion of such dislocation. More detail on Xie et al., Physical Review Materials 7 (2023), 053605. Manuscript freely available on HAL.
Doctor of Physics from the University of Poitiers (France), I am working as a CNRS research scientist (Chargé de recherche CNRS) at the Laboratory for Microsctructure and Mecanic of Materials study (LEM3) affiliated to the CNRS, University of Lorraine and Arts & Métiers. My research focuses on the mechanical and irradiation properties of materials by means of atomistic simulations and high-performance computers. I am also Adjunct Lecturer at Georgia Tech Lorraine.
You can find me on Google scholar, Twitter, LinkedIn, OrcID, GitHub, arXiv, Publons and ResearchGate.
Dr. Julien GUÉNOLÉ
CNRS research scientist (Chargé de Recherche)
LEM3 laboratory, Lorraine university, Metz, France
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