The potential of spin-polarized scanning tunneling microscopy and spectroscopy (SP-STNVS) is demonstrated on three different classes of surfaces, namely on antiferromagnetic and ferromagnetic transition metals and on rare-earth metals. The data measured on the topological antiferromagnetic Cr(0 0 1) surface reveal that screw dislocations cause topology induced spin frustrations leading to the formation of domain walls with a width of about 120 nm. On another antiferromagnetic surface a pseudomorphic monolayer film of chemically identical manganese atoms on W(1 1 0), we could show that SP-STM enables to measure the surface magnetic structure with atomic resolution. SP-STS also allows the imaging of the domain structure of self-organized Fe nanostructures which are anti ferromagnetically coupled due to dipolar interaction. It is shown that the special electronic structure of rare-earth metal (000 1)-surfaces, i.e. the existence of exchange-split surface states close to the Fermi level, allows the spatially resolved mapping of a spin asymmetry parameter which reduces tip-related properties. (C) 2001 Elsevier Science Ltd. All rights reserved. References: 69
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