Exchange processes in interlayer diffusion – kinks, corners and the growth mode

Autor: B. Stanka, Peter Varga, Michael Schmid, G. Leonardelli, A. Hammerschmid, Edvin Lundgren
Rok vydání: 2001
Předmět:
Zdroj: Applied Physics A Materials Science & Processing. 72:405-412
ISSN: 0947-8396
DOI: 10.1007/s003390100753
Popis: Interlayer diffusion, i.e. mass transport between different terraces, is known to be an essential process for obtaining layer-by-layer growth, avoiding formation of three-dimensional (3D) islands when growing thin films. We present experimental results for the growth of cobalt on Pt (111), which demonstrate the importance of kinks and corners for interlayer diffusion. We show that Co grows two-dimensionally as long as strain caused by the Pt-Co interface keeps the step edges rough, with a high kink density, and then transforms to 3D growth with straight steps. The results for growth with adsorbed carbon monoxide show that CO acts as a surfactant, causing two-dimensional growth unless heterogeneous nucleation occurs. Again, this process is related to roughening of the steps, being a new mechanism for the action of a surfactant. A scanning tunneling microscopy study at the atomic scale confirms the fact that step descent happens only at kinks and (concave) corners, and in conjunction with simulations allows us to identify some of the relevant atomic-exchange processes. We finally argue that the dependence of the growth mode on the step morphology, together with straightening of the steps by step–step interaction, can lead to an instability of the growth mode.
Databáze: OpenAIRE