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arxiv: 1107.2417 · v4 · submitted 2011-07-12 · ⚛️ physics.comp-ph · cond-mat.mtrl-sci

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Kinetic Activation Relaxation Technique

Laurent Karim B\'eland (1) , Peter Brommer (1) , Fedwa El-Mellouhi (2) , Jean-Fran\c{c}ois Joly (1) , Normand Mousseau (1) ((1) D\'epartement de physique , Regroupement qu\'eb\'ecois sur les mat\'eriaux de pointe (RQMP) , Universit\'e de Montr\'eal , Montr\'eal
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QC Canada (2) Science Program Texas A&M at Qatar Doha Qatar)
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classification ⚛️ physics.comp-ph cond-mat.mtrl-sci
keywords algorithmk-artkineticeventoff-latticerelaxationsilicontechnique
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We present a detailed description of the kinetic Activation-Relaxation Technique (k-ART), an off-lattice, self-learning kinetic Monte Carlo algorithm with on-the-fly event search. Combining a topological classification for local environments and event generation with ART nouveau, an efficient unbiased sampling method for finding transition states, k-ART can be applied to complex materials with atoms in off-lattice positions or with elastic deformations that cannot be handled with standard KMC approaches. In addition to presenting the various elements of the algorithm, we demonstrate the general character of k-ART by applying the algorithm to three challenging systems: self-defect annihilation in c-Si (crystalline silicon), self-interstitial diffusion in Fe and structural relaxation in a-Si (amorphous silicon).

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