Ab initio calculations based on density functional theory have been performed to determine the properties of self-interstitial atoms (SIAs), vacancies, and single H and He atoms in hcp-Er. The results show that the most stable configuration for an SIA is a basal octahedral (BO) configuration, while the octahedral (O), basal split (BS) and crowdion (C) interstitial configurations are less stable, followed by the split dumbbell and tetrahedral configurations. For both H and He defects, the formation energy of an interstitial atom is less than that of a substitutional atom in hcp-Er. Furthermore, the tetrahedral interstitial position is more stable than an octahedral position for both He and H interstitials. The hybridization of the He and H defects with Er atoms has been used to explain the relative stabilities of these defects in hcp-Er.
Revised: May 12, 2010 |
Published: March 1, 2010
Citation
Yang L., S. Peng, X. Long, F. Gao, H.L. Heinisch, R.J. Kurtz, and X.T. Zu. 2010.Ab initio study of intrinsic, H and He point defects in hcp-Er.Journal of Applied Physics 107, no. 5:Article Number: 054903.PNNL-SA-70794.