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Ratto, Fulvio
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article
GeSi Intermixing in Ge Nanostructures on Si(111): An XAFS versus STM Study
Abstract
We report a detailed investigation of interdiffusion processes that occur during the growth of Germanium nanostructures on the (111)–oriented surface of Silicon. In particular, X–Ray Absorption Fine Structure (XAFS) measurements performed ex situ show that a Ge1-xSix alloy forms during deposition, with average composition x varying between 0.25 and 0.50, depending on substrate temperature and total coverage. By fitting the Ge nearest neighbor numbers around Si as a function of the deposited thickness with a simple model, the effective vertical composition profile in the growth direction has been estimated. The latter has been described with a static effective diffusion length of (10.0±1.5) nm at 530 degrees Celsius and (5±1) nm at 450 degrees Celsius, which is interpreted as the dominance of surface transport processes in the intermixing dynamics. The analysis of the data on Ge-Ge bond length indicates a decrease of the Ge–Ge atomic distances with increasing Ge fraction, confirming previous theoretical predictions for strained epilayers. The XAFS results are compared to morphological information obtained by Scanning Tunneling Microscopy investigations carried out in situ, yielding a satisfactory description for the epitaxy of this system.