Defect trapping of ion-implanted deuterium in copper

Trapping of ion-implanted deuterium (D) by lattice defects in copper has been studied by ion-beam-analysis techniques. The evolving depth distribution of D was monitored by using the nuclear reaction D (3He, p) 4He, and the D lattice location was obtained by means of ion channeling. Linear-ramp anne...

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Veröffentlicht in:J. Appl. Phys.; (United States) 1984-12, Vol.56 (12), p.3384-3393
Hauptverfasser: BESENBACHER, F, NIELSEN, B. B, MYERS, S. M
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Sprache:eng
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Zusammenfassung:Trapping of ion-implanted deuterium (D) by lattice defects in copper has been studied by ion-beam-analysis techniques. The evolving depth distribution of D was monitored by using the nuclear reaction D (3He, p) 4He, and the D lattice location was obtained by means of ion channeling. Linear-ramp annealing following a 15-keV D+ implantation revealed two annealing stages at 250 and 300 K, respectively, corresponding to trap-binding enthalpies of 0.22 and 0.42 eV, referenced to an untrapped solution site. From a comparison of these results with theoretical calculations based on the effective-medium theory, the 0.42-eV trap has been associated with monovacancies and perhaps small vacancy clusters, an assignment supported by previous positron-annihilation experiments, whereas the 0.22-eV trap tentatively is associated with self-interstitials. The channeling data have been analyzed, utilizing an extended multirow continuum model, and it is found that the data for D trapped to vacancies cannot be interpreted in terms of a single lattice site. This is consistent with the theoretical effective-medium results, which show that D trapped at a vacancy is delocalized with maximum probability between the vacancy and the octahedral interstitial site, consistent with the experimental findings.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.333903