Direct observation of interstitial dislocation loop coarsening in α-iron

Interstitial loop coarsening by Ostwald ripening can provide insight into single point defects but is very difficult to observe in α-iron and many other metals where nanoscale vacancy clusters dissociate and annihilate loops. We show that by implanting helium in the samples at a carefully chosen ene...

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Veröffentlicht in:	Physical review letters 2013-07, Vol.111 (1), p.015503, Article 015503
Hauptverfasser:	Moll, S, Jourdan, T, Lefaix-Jeuland, H
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Sprache:	eng
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creator	Moll, S Jourdan, T Lefaix-Jeuland, H
description	Interstitial loop coarsening by Ostwald ripening can provide insight into single point defects but is very difficult to observe in α-iron and many other metals where nanoscale vacancy clusters dissociate and annihilate loops. We show that by implanting helium in the samples at a carefully chosen energy, it is possible to observe Ostwald ripening of loops by transmission electron microscopy during in situ isochronal annealings. This coarsening of loops results in a sharp increase of the mean loop radius at around 850 K. Using cluster dynamics simulations, we demonstrate that loops evolve due to vacancy emission and that such experiments give a robust estimation of the sum of the formation and migration free energies of vacancies. In particular, our results are in good agreement with self-diffusion experiments and confirm that entropic contributions are large for the vacancy in α-iron.
doi_str_mv	10.1103/PhysRevLett.111.015503
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title	Direct observation of interstitial dislocation loop coarsening in α-iron
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