K. Arakawa M.-C. Marinica S. Fitzgerald L. Proville D. Nguyen-Manh S. L. Dudarev P.-W. Ma T. D. Swinburne A. M. Goryaeva T. Yamada T. Amino S. Arai Y. Yamamoto K. Higuchi N. Tanaka H. Yasuda T. Yasuda H. Mori
The diffusion of defects in crystalline materials governs macroscopic behaviour in a wide range of processes, including alloying, precipitation, phase transformation, and creep. In real materials, intrinsic defects are unavoidably bound to static trapping centres such as impurity atoms, meaning that their diffusion is controlled by the de-trapping …
PublishedK. Arakawa M. Marinica S. Fitzgerald L. Proville D. Nguyen-Manh S.L Dudarev P. Wai Ma T.D Swinburne T. Yamada T. Amino S. Arai Y. Yamamoto K. Higuchi N. Tanaka H. Yasuda T. Yasuda H. Mori
Quantum dynamics within solids is usually restricted to low mass particles such as electrons and muons, or single atoms of light elements such as hydrogen. In this letter we report observation of the quantum-assisted motion of self-interstitial atom clusters in tungsten (each of mass 184 Da), travelling distances of several nanometres between trapp…
PreprintM-C Marinica Lisa Ventelon M R Gilbert L Proville S L Dudarev J Marian G Bencteux F Willaime
We have developed empirical interatomic potentials for studying radiation defects and dislocations in tungsten. The potentials use the embedded atom method formalism and are fitted to a mixed database, containing various experimentally measured properties of tungsten and ab initio formation energies of defects, as well as ab initio interatomic forc…
Published