Author:
Johnson E.,Johansen A.,Touboltsev V.S.,Sarholt L.,Dahmen U.
Abstract
TEM analyses of Si implanted with immiscible elements have shown that the implanted species characteristically segregate to form nanoscale inclusions in the amorphous Si matrix. Subsequen annealing induced recrystallization was found to lead to simultaneous removal of nearly all of the implanted species, explained in terms of stress-induced trapping of the implanted atoms at the amc phous/crystalline interface as it progresses towards the surface.The solubility of Pb in Si is negligible, and it has previously been shown-that elemental nanoscale inclusions can be formed in Si either by ion implantation at elevated temperature or by rapid solidi cation. In the present work single crystals of <110> Si have been implanted with 80 keV Pb+ k at 300K, 625K and 925K respectively. The implanted fluence was 8-1019 m−2 corresponding to an average concentration of about 3 at.%. Combined TEM and RBS/channeling analysis showed that implantations at 300 K and 625 K induced amorphization of the implanted layer with dense distributions of nanoscale lead inclusions embedded in the amorphous silicon matrix (fig. 1).
Publisher
Cambridge University Press (CUP)
Reference6 articles.
1. Transmission electron microscopy investigation of the crystal-amorphous-polycrystal transition in silicon during bismuth room temperature ion implantation
2. This work is supported by the Director, Office of Energy Research, Office of Basic Energy Sciences, Materials Sciences Division of the U.S. Department of Energy under Contract No. DEACO3- 76SFOOO98 and by the Danish Natural Sciences Research Council.
3. X-ray diffraction, Rutherford backscattering and channeling measurements on Pb inclusions in Si