Abstract
The axial channeling behaviour of boron implants in <100>, <110> and <111> silicon wafers is investigated by SIMS. Large differences of channeling characteristics such as channeled projected range (the projected range of channeled ions or channeling peak) and the fraction of channeled to implanted ions are observed among the three major crystal orientations. Within the critical angle, the channeling behaviour is very sensitive to the incidence beam angle with respect to crystal orientations. SIMS measurements are performed at different positions along several critical directions over a whole wafer. Well channeled profiles with an incidence beam angle to crystal orientations of 0 ° are obtained for each ion implantation energy and orientation. The results are used to test various models of ion implantation by simulation. A 3-parameter model for electronic stopping power of boron in silicon was proposed.
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Tian, C., Gara, S., Hobler, G. et al. Boron implantation in Si: Channeling effects studied by SIMS and simulation. Mikrochim Acta 107, 161–169 (1992). https://doi.org/10.1007/BF01244469
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DOI: https://doi.org/10.1007/BF01244469