Physical Review Research (Oct 2024)

Controlling 4f antiferromagnetic dynamics via itinerant electronic susceptibility

  • Sang-Eun Lee,
  • Yoav William Windsor,
  • Daniela Zahn,
  • Alexej Kraiker,
  • Kurt Kummer,
  • Kristin Kliemt,
  • Cornelius Krellner,
  • Christian Schüßler-Langeheine,
  • Niko Pontius,
  • Urs Staub,
  • Denis V. Vyalikh,
  • Arthur Ernst,
  • Laurenz Rettig

DOI
https://doi.org/10.1103/PhysRevResearch.6.043019
Journal volume & issue
Vol. 6, no. 4
p. 043019

Abstract

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Optical manipulation of magnetism holds promise for future ultrafast spintronics, especially with lanthanides and their huge, localized 4f magnetic moments. These 4f moments interact indirectly by spin polarizing the conduction electrons (the Ruderman-Kittel-Kasuya-Yosida exchange interaction), influenced by interatomic orbital overlap, and the conduction electron's susceptibility around the Fermi level. Here, we study this influence in a series of 4f antiferromagnets, GdT_{2}Si_{2} (T = Co, Rh, Ir), using ultrafast resonant x-ray diffraction. We observe a twofold increase in the ultrafast intersublattice angular momentum transfer rate between the materials, originating from modifications in the conduction electron susceptibility, as confirmed by first-principles calculations.