Spin and lattice dynamics of a van der Waals antiferromagnet MnPSe3

Abstract

Antiferromagnetic van der Waals family MPX3\ (M=Fe,\ Mn,\ Co, and\ Ni; X=S and\ Se) have attracted significant research attention due to the possibility of realizing long-range magnetic order down to the monolayer limit. Here, we perform inelastic neutron scattering measurements on single crystal samples of MnPSe3, a member of the MPX3 family, to study the spin dynamics and determine the effective spin model. The excited magnon bands are well characterized by a spin model, which includes a Heisenberg term with three intraplane exchange parameters (J1=-0.73~meV, J2=-0.014~meV, J3=-0.43~meV) and one interplane parameter (Jc=-0.054~meV), and an easy-plane single-ion anisotropy term (D=-0.035~meV). Additionally, we observe the intersection of the magnon and phonon bands but no anomalous spectral features induced by the formation of magnon-phonon hybrid excitations at the intersecting region. We discuss possible reasons for the absence of such hybrid excitations in MnPSe3.