Physical Review Research (Nov 2020)

Partially disordered state with short-range spin correlation in S=5/2 classical triangular antiferromagnet Ag_{2}FeO_{2}

  • H. K. Yoshida,
  • M. Matsuda,
  • M. B. Stone,
  • C. R. dela Cruz,
  • T. Furubayashi,
  • M. Onoda,
  • E. Takayama-Muromachi,
  • M. Isobe

DOI
https://doi.org/10.1103/PhysRevResearch.2.043211
Journal volume & issue
Vol. 2, no. 4
p. 043211

Abstract

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A triangular-lattice antiferromagnet of Ag_{2}FeO_{2} was synthesized under high pressure. Its magnetism was studied in terms of electrical resistivity, magnetic susceptibility, heat capacity, powder neutron scattering, and Mössbauer spectroscopy. The magnetic state of Ag_{2}FeO_{2} changes successively through a second-order phase transition at T_{p}=36 K and a crossover at T_{c}=20 K. A partially disordered (PD) state appears below T_{p}, in which ≈2/3 spins are ordered and the remaining ≈1/3 spins fluctuate, which state persists at least down to 5 K. The spin correlation length starts to grow at T_{p}; however, it remains very short (≈27 Å) below T_{c}. This exotic magnetism is concerned with strong frustration in the classic antiferromagnetic triangular lattice.