Impurity gettering to secondary defects created by MeV ion implantation in silicon

Impurities in MeV-implanted and annealed silicon may be trapped at interstitial defects near the projected ion range, Rp, and also at vacancy-related defects at approximately Rp/2. We have investigated the temperature dependence of impurity trapping at these secondary defects, which were preformed b...

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Veröffentlicht in:Journal of applied physics 1998-09, Vol.84 (5), p.2459-2465
Hauptverfasser: Brown, R. A., Kononchuk, O., Rozgonyi, G. A., Koveshnikov, S., Knights, A. P., Simpson, P. J., González, F.
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container_end_page 2465
container_issue 5
container_start_page 2459
container_title Journal of applied physics
container_volume 84
creator Brown, R. A.
Kononchuk, O.
Rozgonyi, G. A.
Koveshnikov, S.
Knights, A. P.
Simpson, P. J.
González, F.
description Impurities in MeV-implanted and annealed silicon may be trapped at interstitial defects near the projected ion range, Rp, and also at vacancy-related defects at approximately Rp/2. We have investigated the temperature dependence of impurity trapping at these secondary defects, which were preformed by annealing at 900 °C. The binding energies of Fe, Ni, and Cu are greater at the vacancy-related defects than at extrinsic dislocation loops. During subsequent processing at temperatures up to 900 °C, the amount of these impurities trapped at Rp/2 increases with decreasing temperature while the amount trapped at Rp decreases, with most of the trapped metals located at Rp/2 in samples processed at temperatures ≲ 700 °C. However, intrinsic oxygen is trapped at both types of defects; this appears to have little effect on the trapping of metallic impurities at extrinsic dislocations, but may inhibit or completely suppress the trapping at vacancy-related defects.
doi_str_mv 10.1063/1.368438
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title Impurity gettering to secondary defects created by MeV ion implantation in silicon
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