부산대학교 도서관

FePS3 is a layered van der Waals (vdW) Ising antiferromagnet that has recently been studied in the context of true 2D magnetism, and emerged as an ideal material platform for investigating strong spin-phonon coupling, and non-linear magneto-optical phenomena. In this work, we demonstrate an important unresolved role of spin-orbit coupling (SOC) in the ground state and excitations of this compound. Combining first principles calculations with Linear Flavor Wave Theory (LFWT), we find strong mixing and spectral overlap of different spin-orbital single-ion states. As such, the low-lying excitations form complex mixtures of local degrees of freedom most accurately viewed as hybrid spin-orbit exciton-magnon modes. Complete parameterization of the resulting low-energy model including all such degrees of freedom requires nearly half a million coupling constants. Despite this complexity, we show that such a model can be inexpensively derived using local many-body-based approaches, which yield quantitative agreement with recent experiments. The results highlight the importance of SOC even in first row transition metals, and provide essential insight into the properties of 2D magnets with unquenched orbital moments.
Comment: Fixed typos and replaced figure 4 to show correct ordering of states