Superposition of a scanning tunnelling microscopy image of a triangular Co island (bottom) with a measured map of the spin-polarization of the island. We performed spectroscopy measurement in magnetic fields at 7 K to obtain the map of the spin-polarization. The spin-polarization is spatially modulated above the island, and it shows opposite signs at the rim as compared to the center of the island.

Our research focuses on the electronic and magnetic properties of nanostructures with some hundred to several thousand atoms. We use spin-polarized low temperature scanning tunnelling microscopy (STM) and spectroscopy at 7 K and in magnetic fields of up to 8 T to characterize morphology, atomic and spin-dependent electronic structure, and magnetic field dependent transport properties such as tunnel current and differential conductance of individual nanostructures. Our research indicates the significance of spin-dependent quantum effects for the magnetic properties of the nanostructures. We find that in addition to transport properties also the magnetization reversal is influenced by the spatial variation of electronic and structural properties on the nm scale within an individual nanostructure. For detailed description of the method and for a discussion of selected experimental results please consult [1-5].