1. High-fluence Ga-implanted silicon—The effect of annealing and cover layers.
- Author
-
Fiedler, J., Heera, V., Hübner, R., Voelskow, M., Germer, S., Schmidt, B., and Skorupa, W.
- Subjects
ANNEALING of semiconductors ,MICROSTRUCTURE ,SILICON ,POLYCRYSTALLINE semiconductors ,SUPERLATTICES - Abstract
The influence of SiO
2 and SiNx cover layers on the dopant distribution as well as microstructure of high fluence Ga implanted Si after thermal processing is investigated. The annealing temperature determines the layer microstructure and the cover layers influence the obtained Ga profile. Rapid thermal annealing at temperatures up to 750°C leads to a polycrystalline layer structure containing amorphous Ga-rich precipitates. Already after a short 20?ms flash lamp annealing, a Ga-rich interface layer is observed for implantation through the cover layers. This effect can partly be suppressed by annealing temperatures of at least 900°C. However, in this case, Ga accumulates in larger, cone-like precipitates without disturbing the surrounding Si lattice parameters. Such a Ga-rich crystalline Si phase does not exist in the equilibrium phase diagram according to which the Ga solubility in Si is less than 0.1 at. %. The Ga-rich areas are capped with SiOx grown during annealing which only can be avoided by the usage of SiNx cover layers. [ABSTRACT FROM AUTHOR]- Published
- 2014
- Full Text
- View/download PDF