Physical Review Research (Nov 2019)

Presaturation phase with no dipolar order in a quantum ferro-antiferromagnet

  • V. K. Bhartiya,
  • K. Yu. Povarov,
  • D. Blosser,
  • S. Bettler,
  • Z. Yan,
  • S. Gvasaliya,
  • S. Raymond,
  • E. Ressouche,
  • K. Beauvois,
  • J. Xu,
  • F. Yokaichiya,
  • A. Zheludev

DOI
https://doi.org/10.1103/PhysRevResearch.1.033078
Journal volume & issue
Vol. 1, no. 3
p. 033078

Abstract

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Magnetization, magnetocaloric, calorimetric, neutron- and x-ray-diffraction, and inelastic-neutron-scattering measurements are performed on single crystals of BaCdVO(PO_{4})_{2}. The low-temperature crystal structure is found to be of a lower symmetry than previously assumed. The result is a more complicated model spin Hamiltonian, which we infer from measurements of the spin wave dispersion spectrum. The main finding is a spin state which emerges in high magnetic fields after antiferromagnetic order is terminated at H_{c1}≃4.0T. It is a distinct thermodynamic phase with a well-defined phase boundary at H_{c2}≃6.5T and is clearly separate from the fully saturated phase, yet it shows no conventional (dipolar) magnetic long-range order. We argue that it is fully consistent with the expectations for a quantum bond-nematic state.