npj Quantum Materials (Aug 2022)

Towards understanding the magnetic properties of the breathing pyrochlore compound Ba3Yb2Zn5O11through single-crystal studies

  • Sachith Dissanayake,
  • Zhenzhong Shi,
  • Jeffrey G. Rau,
  • Rabindranath Bag,
  • William Steinhardt,
  • Nicholas P. Butch,
  • Matthias Frontzek,
  • Andrey Podlesnyak,
  • David Graf,
  • Casey Marjerrison,
  • Jue Liu,
  • Michel J. P. Gingras,
  • Sara Haravifard

DOI
https://doi.org/10.1038/s41535-022-00488-w
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 11

Abstract

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Abstract Ba3Yb2Zn5O11 is exceptional among breathing pyrochlore compounds for being in the nearly-decoupled limit where inter-tetrahedron interactions are weak, hosting isolated clusters or molecular magnet-like tetrahedra of magnetic ytterbium (Yb3+) ions. In this work, we present the study carried out on single-crystal samples of the breathing pyrochlore Ba3Yb2Zn5O11, using a variety of magnetometry and neutron scattering techniques along with theoretical modeling. We employ inelastic neutron scattering to investigate the magnetic dynamics as a function of applied field (with respect to both magnitude and direction) down to a temperature of 70 mK, where inelastic scattering reveals dispersionless bands of excitations as found in earlier powder sample studies, in good agreement with a single-tetrahedron model. However, diffuse neutron scattering at zero field and dc-susceptibility at finite field exhibit features suggesting the presence of excitations at low-energy that are not captured by the single tetrahedron model. Analysis of the local structure down to 2 K via pair distribution function analysis finds no evidence of structural disorder. We conclude that effects beyond the single tetrahedron model are important in describing the low-energy, low-temperature physics of Ba3Yb2Zn5O11, but their nature remains undetermined.