Physical Review Research (Dec 2020)

Magnetization plateaux cascade in the frustrated quantum antiferromagnet Cs_{2}CoBr_{4}

  • K. Yu. Povarov,
  • L. Facheris,
  • S. Velja,
  • D. Blosser,
  • Z. Yan,
  • S. Gvasaliya,
  • A. Zheludev

DOI
https://doi.org/10.1103/PhysRevResearch.2.043384
Journal volume & issue
Vol. 2, no. 4
p. 043384

Abstract

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We have found an unusual competition of two frustration mechanisms in the 2D quantum antiferromagnet Cs_{2}CoBr_{4}. The key actors are the alternation of single-ion planar anisotropy direction of the individual magnetic Co^{2+} ions, and their arrangement in a distorted triangular lattice structure. In particular, the uniquely oriented Ising-type anisotropy emerges from the competition of easy-plane ones, and for a magnetic field applied along this axis one finds a cascade of five ordered phases at low temperatures. Two of these phases feature magnetization plateaux. The low-field one is supposed to be a consequence of a collinear ground state stabilized by the anisotropy, while the other plateau bears characteristics of an “up-up-down” state exclusive for lattices with triangular exchange patterns. Such coexistence of the magnetization plateaux is a fingerprint of competition between the anisotropy and the geometric frustration in Cs_{2}CoBr_{4}.