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Magnetic excitations of small magnetic clusters and single atoms

Fachliche Zuordnung Experimentelle Physik der kondensierten Materie
Förderung Förderung von 2007 bis 2016
Projektkennung Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 36207048
 
Erstellungsjahr 2016

Zusammenfassung der Projektergebnisse

Inelastic scanning tunneling spectroscopy (ISTS) has proven to be an excellent tool for the investigation of magnetic excitations in nanostructures allowing both to determine the excitation spectrum and the life times of the excited states. Microscopically, the interplay of spin-orbit interaction and the crystal field causes a local magnetocrystalline anisotropy (MAE). This lifts the degeneracy of the magnetic multiplet of the atom or cluster and can be probed in a spin-excitation experiment. In clusters, also non-collinear spin states can be excited with the additional cost of the exchange energy. The lifetime of the excited state is mainly determined by an electronic relaxation process, in which the energy of the excited state is given to a conduction electron of the substrate. Further the MAE induces mixing within the magnetic multiplet in accord to the Stevens operators enabling tunneling of the magnetization. For magnetic transition elements, large anisotropies of the order of 10 meV per atom could be observed, but due to the effective coupling of the atomic 3d-states to the substrate, be it metallic or a thin insulating layer, the lifetimes of the excited and ground state are between 10−14 and 10−3 s, that no magnetic stability could be achieved. In 4f-atoms, the magnetic moment is strongly located in the 4f-orbitals such that the hybridization to the surrounding states is significantly reduced. Combining this natural protection with symmetries of the Hamiltonian, stability of spins were achieved for time scales of minutes.

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