In this paper we experimentally study the growth of self-assembled SiGe islands formed on Si(001) by exploiting the thermally activated surface diffusion of Ge atoms from a local Ge source stripe in the temperature range 600–700 °C. This new growth strategy allows us to vary continuously the Ge coverage from 8 to 0 monolayers as the distance from the source increases, and thus enables the investigation of the island growth over a wide range of dynamical regimes at the same time, providing a unique birds eye view of the factors governing the growth process and the dominant mechanism for the mass collection by a critical nucleus. Our results give experimental evidence that the nucleation process evolves within a diffusion limited regime. At a given annealing temperature, we find that the nucleation density depends only on the kinetics of the Ge surface diffusion resulting in a universal scaling distribution depending only on the Ge coverage. An analytical model is able to reproduce...
G M Vanacore, M Zani, M Bollani, E Bonera, G Nicotra, J Osmond, Giovanni Capellini, G Isella and A Tagliaferri
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G M Vanacore, M Zani, M Bollani, E Bonera, G Nicotra, J Osmond, Giovanni Capellini, G Isella and A Tagliaferri
Click for full article
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