Sessi, V., Kuhnke, K., Enders, A., Zhang, J., Bencok, P., Bornemann, S., ...
The growth dynamics of submonolayer coverages of Cobalt during buffer layer assisted growth on Ag(111) and Pt(111) substrates is investigated by variable temperature scanning tunneling microscopy in...
Complex magnetic phase in submonolayer Fe stripes on Pt(977) (2009)
Honolka, J., Lee, T. Y., Kuhnke, K., Repetto, D., Sessi, V., Wahl, P., ...
Substrate-controlled growth and magnetism of nanosize Fe clusters on Pt (2008)
Skomski, Ralph, Zhang, J., Sessi, V., Honolka, J., Kern, K., Enders, Axel
The growth and magnetism of nanosize Fe clusters on Pt and other metal surfaces are investigated. Fe clusters have been fabricated directly on the substrates by buffer layer assisted growth under...
Ordered Layers of Co Clusters on BN Template Layers (2008)
Zhang, J., Sessi, V., MIchaelis, C. H., Brihuega, I., Honolka, J., Kern, K., ...
The synthesis of highly ordered monolayers of metallic nanoclusters by a buffer-layer assisted growth (BLAG) route is introduced and investigated. The focus is on clusters of Co deposited onto...
Structure and magnetism of atomically thin Fe layers on flat and vicinal Pt surfaces (2006)
Repetto, D., Lee, T. Y., Rusponi, S., Honolka, J., Kuhnke, K., Sessi, V., ...
8 pages, 11 figures.-- PACS nrs.: 75.30.Gw; 75.30.Kz; 75.50.Bb; 75.70.Ak.
Structure and magnetism of atomically thin Fe layers on flat and vicinal Pt surfaces (2006)
Repetto, D., Lee, T. Y., Rusponi, S., Honolka, J., Kuhnke, K., Sessi, V., ...
Structure and magnetism of atomically thin Fe layers on flat and vicinal Pt surfaces (2006)
Repetto, D., Lee, T. Y., Rusponi, S., Honolka, J., Kuhnke, K., Sessi, V., ...
Ultrathin Fe films on Pt substrates have been investigated under ultrahigh vacuum conditions by scanning tunneling microscopy, low energy electron diffraction, magneto-optical Kerr effect, x-ray...
Arciprete, F., Placidi, E., Sessi, V., Fanfoni, M., Patella, F., Balzarotti, A.
The two- to three-dimensional growth transition in the InAs/GaAs(001) heterostructure has been investigated by atomic force microscopy. The kinetics of the density of three dimensional quantum dots...