Publications in Scientific Journals:
C. Tröppner, T. Schmitt, M. Reuschl, L. Hammer, M. Schneider, F. Mittendorfer, J. Redinger, R. Podloucky, M. Weinert:
"Incommensurate Moiré overlayer with strong local binding: CoO(111) bilayer on Ir(100)";
Physical Review B,
Incommensurate relaxed overlayer MoirŽe structures are often interpreted as systemswith weak lateral variations
of the binding potential and thus no structural modulations in the overlayer material.We discuss here the example
of a CoO(111) bilayer on Ir(100), which is a relaxed overlayer with strong structural response to the lateral
modulation of interface properties but nevertheless is incommensurate. By means of density functional theory
(DFT) calculations, we quantitatively reproduce all the structural parameters of the CoO(111) bilayer on Ir(100)
as proposed by a recent low-energy electron diffraction analysis [Ebensperger et al., Phys. Rev. B 81, 235405
(2010)]. The calculations predict energetic degeneracies with respect to registry shifts of the CoO(111) film along [01Ż1]. Large-scale, low-temperature scanning tunneling microscopy topographies reveal that the true structure of the film is incommensurate in this direction, exhibiting a one-dimensional MoirŽe pattern with a period of about 9.4 aIr. From DFT calculations for limiting (periodic) models, we can sample the potential landscape of the cobalt and oxygen atoms in the MoirŽe structure across the Ir(100) unit cell. We find that despite the non-commensurability of the film, the binding to the substrate is site specific with strong attraction and repulsion points for both cobalt and oxygen atoms, leading to severe local distortions in the film. The lateral modulation of the structural elements within the oxide film can be understood as a combination of the lateral variation in the Co-Ir binding potential and additional O-Ir binding.
Created from the Publication Database of the Vienna University of Technology.