Magnetic phase diagram and spin Hamiltonian of antiferromagnet Cs$_2$CoI$_4$

A. Zheludev; D.G. Mazzone; D.R. Allan; D. Sheptyakov; H. Kikuchi; J. Lass; K. Yu. Povarov; L. Facheris; S.A. Barnett; S.D. Nabi

arxiv: 2603.08237 · v2 · pith:LHK2HWN2new · submitted 2026-03-09 · ❄️ cond-mat.str-el

Magnetic phase diagram and spin Hamiltonian of antiferromagnet Cs₂CoI₄

S.D. Nabi , L. Facheris , V. Romerio , V. Kocsis , K. Yu. Povarov , D. Sheptyakov , J. Lass , D.G. Mazzone

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H. Kikuchi T. Masuda S.A. Barnett D.R. Allan Z. Yan S. Gvasaliya A. Zheludev

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keywords magneticantiferromagnethamiltonianphasestudiedaffectsanalyzedanisotropy

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We report comprehensive thermodynamic and neutron scattering measurements on the $S$ = 3/2 antiferromagnet Cs$_2$CoI$_4$, a member of the thoroughly studied family of frustrated magnets Cs$_2MX_4$ ($M$ = Cu, Co, Ru, $X$ = Br, Cl, I, O). Unlike previously studied members, Cs$_2$CoI$_4$ undergoes a structural phase transition, for which we determine the low-temperature crystallographic structure. The resulting symmetry reduction strongly affects both the magnetic exchange interactions and single-ion anisotropy. Despite the large parameter space, we propose a minimal magnetic Hamiltonian that reasonably captures the observed excitation spectrum, analyzed using extended SU(4) linear spin-wave theory.

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