Abstract
Very thin SiGe relaxed buffer layers whose Ge composition was higher than 40% were fabricated by utilizing ion implantation method. Strain relaxation ratio of 70% with respect to Si was obtained. Rms roughness of the sample with Si+ implantation was only 0.45 nm in spite of high Ge composition and was much smaller than that of the sample without ion implantation. It was confirmed by cross-sectional transmission electron microscope (XTEM) observation that few threading dislocations existed in the Si0.53Ge0.47 layer. P-type modulation doped strained Ge channel structure formed on the Si0.53Ge0.47 buffer showed hole Hall mobilities as high as 16500 and 1450 cm2/(V s) at low and room temperatures, respectively. These results indicate that ion implantation method is promising for realization of high-performance strained channel heterostructure devices based on high Ge composition SiGe substrates.
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