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Kink far below the Fermi level reveals new electron-magnon scattering channel in Fe
Description
<jats:title>Abstract</jats:title><jats:p>Many properties of real materials can be modeled using ab initio methods within a single-particle picture. However, for an accurate theoretical treatment of excited states, it is necessary to describe electron-electron correlations including interactions with bosons: phonons, plasmons, or magnons. In this work, by comparing spin- and momentum-resolved photoemission spectroscopy measurements to many-body calculations carried out with a newly developed first-principles method, we show that a kink in the electronic band dispersion of a ferromagnetic material can occur at much deeper binding energies than expected (<jats:italic>E</jats:italic><jats:sub>b</jats:sub> = 1.5 eV). We demonstrate that the observed spectral signature reflects the formation of a many-body state that includes a photohole bound to a coherent superposition of renormalized spin-flip excitations. The existence of such a many-body state sheds new light on the physics of the electron-magnon interaction which is essential in fields such as spintronics and Fe-based superconductivity.</jats:p>
Journal
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- Nature Communications
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Nature Communications 10 2019-01-31
Springer Science and Business Media LLC