Evolution of arsenic in high fluence plasma immersion ion implanted silicon: Behavior of the as-implanted surface

Publication date

2015-11-15

Authors

Vishwanath, V.
Demenev, E.
Giubertoni, D.
Vanzetti, L.
Koh, A. L.
Steinhauser, G.
Pepponi, G.
Bersani, M.
Meirer, F.ISNI 0000000137317800
Foad, M. A.

Editors

Advisors

Supervisors

Document Type

Article
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License

taverne

Abstract

High fluence (>1015 ions/cm2) low-energy (3 + on (1 0 0) silicon was investigated, with the focus on stability and retention of the dopant. At this dose, a thin (∼3 nm) amorphous layer forms at the surface, which contains about 45% arsenic (As) in a silicon and oxygen matrix. The presence of silicon indicates that the layer is not only a result of deposition, but predominantly ion mixing. High fluence PIII introduces high concentration of arsenic, modifying the stopping power for incoming ions resulting in an increased deposition. When exposed to atmosphere, the arsenic rich layer spontaneously evolves forming arsenolite As2O3 micro-crystals at the surface. The micro-crystal formation was monitored over several months and exhibits typical crystal growth kinetics. At the same time, a continuous growth of native silicon oxide rich in arsenic was observed on the exposed surface, suggesting the presence of oxidation enhancing factors linked to the high arsenic concentration at the surface.

Keywords

Arsenic, Arsenic implantation, As-implanted silicon, Enhanced oxidation, Plasma immersion ion implantation (PIII), Taverne, Surfaces, Coatings and Films

Citation

Vishwanath, V, Demenev, E, Giubertoni, D, Vanzetti, L, Koh, A L, Steinhauser, G, Pepponi, G, Bersani, M, Meirer, F & Foad, M A 2015, 'Evolution of arsenic in high fluence plasma immersion ion implanted silicon : Behavior of the as-implanted surface', Applied Surface Science, vol. 355, pp. 792-799. https://doi.org/10.1016/j.apsusc.2015.07.068