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Transverse and longitudinal magnons in strongly anisotropic antiferromagnet FePSe3

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arxiv 2401.05557 v2 pith:WHMHHTJJ submitted 2024-01-10 cond-mat.str-el cond-mat.mtrl-sci

Transverse and longitudinal magnons in strongly anisotropic antiferromagnet FePSe3

classification cond-mat.str-el cond-mat.mtrl-sci
keywords fepse3excitationsmagnonsanisotropicanisotropyantiferromagnetantiferromagneticfactor
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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FePSe3 is a collinear honeycomb antiferromagnet with an easy-axis anisotropy and large spins S=2. It belongs to a family of magnetic van der Waals materials, which recently attracted a considerable attention. In this work we present an experimental magneto-optical study of the low-energy excitation spectrum in FePSe3, together with its theoretical description. The observed response contains several types of magnon excitations. Two of them are conventional transverse magnons described by a classical theory of antiferromagnetic resonance. Two other modes are identified as multimagnon hexadecapole excitations with an anomalous g factor approximately equal to four times the g factor of a single Fe^2+ ion. These quasiparticles correspond to full reversals of iron spins that coherently propagate in the up-down antiferromagnetic structure. They constitute a novel type of collective excitations in anisotropic magnetic solids, called longitudinal magnons. Comparison between theory and experiment allows us to estimate the microscopic parameters of FePSe3 including exchange coupling constants and the single-ion anisotropy.

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