Physical Review Research (Feb 2020)

Magnetic frustration in a metallic fcc lattice

  • Oliver Stockert,
  • Jens-Uwe Hoffmann,
  • Martin Mühlbauer,
  • Anatoliy Senyshyn,
  • Michael M. Koza,
  • Alexander A. Tsirlin,
  • F. Maximilian Wolf,
  • Sebastian Bachus,
  • Philipp Gegenwart,
  • Roman Movshovich,
  • Svilen Bobev,
  • Veronika Fritsch

DOI
https://doi.org/10.1103/PhysRevResearch.2.013183
Journal volume & issue
Vol. 2, no. 1
p. 013183

Abstract

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Magnetic frustration in metals is scarce and hard to pinpoint, but exciting due to the possibility of the emergence of fascinating novel phases. The cubic intermetallic compound HoInCu_{4} with all holmium atoms on an fcc lattice exhibits partial magnetic frustration, yielding a ground state where half of the Ho moments remain without long-range order, as evidenced by our neutron scattering experiments. The substitution of In with Cd results in HoCdCu_{4} in a full breakdown of magnetic frustration. Consequently we found a fully ordered magnetic structure in our neutron diffraction experiments. These findings are in agreement with the local energy scales and crystal electric field excitations, which we determined from specific heat and inelastic neutron scattering data. The electronic density of states for the itinerant bands acts as a tuning parameter for the ratio between nearest-neighbor and next-nearest-neighbor interactions and thus for magnetic frustration.