Atom-specific magnon-driven ultrafast spin dynamics in Fe1-xNix alloys

Atom-specific magnon-driven ultrafast spin dynamics in Fe1-xNix alloys

By employing element-specific spectroscopy in the ultrafast time scale in Fe1-xNix alloys, we find a composition-dependent effect in the demagnetization that we relate to electron-magnon scattering and changes in the spin-wave stiffness. In all six measured alloys of different composition, the demag...

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Hauptverfasser: Jana, Somnath, Knut, Ronny, Delczeg-Czirjak, Erna Krisztina, Malik, Rameez Saeed, Stefanuik, Robert, Terschlüsen, Joachim A, Chimata, Raghuveer, Phuyal, Dibya, Kamalakar, M. Venkata, Akansel, Serkan, Primetzhofer, Daniel, Ahlberg, Martina, Söderström, Johan, Akerman, Johan, Svedlindh, Peter, Eriksson, Olle, Karis, Olof
Format: Artikel
Sprache:eng
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Condensed Matter Physics
Den kondenserade materiens fysik
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Zusammenfassung:By employing element-specific spectroscopy in the ultrafast time scale in Fe1-xNix alloys, we find a composition-dependent effect in the demagnetization that we relate to electron-magnon scattering and changes in the spin-wave stiffness. In all six measured alloys of different composition, the demagnetization of Ni compared to Fe exhibits a delay, an effect which we find is inherent in alloys but not in elemental Fe and Ni. Using a model based on electron-magnon scattering, we extract a spin-wave stiffness from all alloys that show excellent agreement with values obtained from other techniques.
DOI:10.1103/PhysRevB.107.L180301