Antiferromagnetism of Fe_1/3NbS₂as Characterized by Resonant Ultrasound Spectroscopy

Fe_1/3NbS₂ is an intercalated transition metal dichalcogenide with electrically switchable antiferromagnetic order below 42 K [1]. If demonstrated in a room-temperature antiferromagnet, this type of switching could be the foundation of faster and more compact memory storage devices. Neutron scattering and magnetic susceptibility measurements have revealed two distinct antiferromagnetic phases in this material, but have left some ambiguity about their nature and symmetry. We have used resonant ultrasound spectroscopy to further characterize the antiferromagnetism of Fe_1/3NbS₂. With RUS we can determine a material's elastic moduli from its mechanical resonances. As the material undergoes a phase transition, the response of the different elastic moduli reveals the symmetry of the order parameter. By precisely identifying these symmetries, we hope to shed new light on the mechanism of Fe_1/3NbS₂'s electrical switching.

[1] Nair, N. L. et al. Nat. Mater. Lett. 19, 153-157 (2019).