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Renormalization of electron self-energies via their interaction with spin excitations: A first-principles investigation

Access to magnetic excitation spectra of single atoms deposited on surfaces is nowadays possible by means of low-temperature inelastic scanning tunneling spectroscopy. We present a first-principles method for the calculation of inelastic tunneling spectra utilizing the Korringa-Kohn-Rostoker Green function method combined with time-dependent density functional theory and many-body perturbation theory. The key quantity is the electron self-energy describing the coupling of the electrons to the spin excitation within the adsorbate. By investigating Cr, Mn, Fe and Co adatoms on a Cu(111) substrate, we spin-characterize the spectra and demonstrate that their shapes are altered by the magnetization of the adatoms, of the tip and the orbital decay into vacuum. Our method also predicts spectral features more complex than the steps obtained by simpler models for the adsorbate (e.g., localized spin models).

preprint2014arXivOpen access
Benedikt SchweflinghausManuel dos Santos DiasAntonio T. CostaSamir Lounis
cond-mat.str-el
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Benedikt SchweflinghausManuel dos Santos DiasAntonio T. CostaSamir Lounis

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