Dresden 2009 – wissenschaftliches Programm

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MA: Fachverband Magnetismus

MA 4: Surface Magnetism I

MA 4.6: Vortrag

Montag, 23. März 2009, 12:15–12:30, HSZ 403

The role of magnetic anisotropy in the Kondo effect — •Markus Ternes^1,2, Alexander F. Otte^1,3, Kirsten v. Bergmann^1,4, Sebastian Loth¹, Harald Brune^1,5, Christopher P. Lutz¹, Cyrus P. Hirijbehedin^1,6, and Andreas J. Heinrich¹ — ¹IBM Almaden Research Center — ²MPI Stuttgart — ³NIST Gaithersburg — ⁴University of Hamburg — ⁵EPF Lausanne — ⁶London Centre for Nanotechnology

Using a STM to assemble magnetic structures on a thin insulator, we found that the spin of the atom is influenced by the magnetocrystalline anisotropy of the supporting surface which lifts the spin degeneracy of the ground state and enables the identification of individual atoms by using inelastic electron tunneling spectroscopy [1]. Changes in the observed spectra as a magnetic field was applied along different directions yielded the magnetic anisotropy for individual magnetic atoms [2].

Atoms with half-integer spin remain always degenerated at zero field due to Kramers theorem. We found that if these states differ by an orbital momentum of Δ m=±1 the localized spin is screened by the surrounding conducting electrons of the non-magnetic host and form a Kondo resonance close to the Fermi energy at sufficiently low temperature. Applying a magnetic field splits this Kondo resonance at rates that are strongly direction-dependent, which are well-described by the energies of the underlying unscreened spin states [3].

[1] A. J. Heinrich et al., Science 306, 466 (2004).

[2] C. F. Hirjibehedin et al., Science 317, 1199 (2007).

[3] A. F. Otte et al., Nature Physics 4, 847 (2008).