Atomistic behavior of helium–vacancy clusters in aluminum

We have performed a molecular dynamics (MD) technique to calculate the formation energies of small He n V m clusters in Al using the embedded atom method (EAM), the Baskes–Melius potential and the Lennard-Jones potential for describing the interactions of Al–Al, Al–He and He–He, respectively. The bi...

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Bibliographic Details
Published in:Journal of nuclear materials 2006-03, Vol.350 (1), p.83-88
Main Authors: Ao, B.Y., Yang, J.Y., Wang, X.L., Hu, W.Y.
Format: Article
Language:English
Subjects:
Applied sciences
Controled nuclear fusion plants
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Installations for energy generation and conversion: thermal and electrical energy
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Summary:We have performed a molecular dynamics (MD) technique to calculate the formation energies of small He n V m clusters in Al using the embedded atom method (EAM), the Baskes–Melius potential and the Lennard-Jones potential for describing the interactions of Al–Al, Al–He and He–He, respectively. The binding energies of an interstitial He atom, an isolated vacancy and a self-interstitial Al atom to a He n V m cluster are also obtained from the calculated formation energies of the clusters. All the binding energies mainly depend on the He–vacancy ratio ( n/ m) of clusters rather than the clusters size. The binding energies of a He atom and an Al atom to a He n V m cluster decrease with the ratio, but the binding energy of a vacancy to a He n V m cluster increases with the ratio. The results indeed show that He atoms can increase the binding energy of a vacancy to a He n V m cluster, and decrease the binding energies of a He atom and an Al atom to the cluster, namely, He atom acts as a catalyst for the formation of He n V m clusters.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2005.11.014