FeTaX2: A ferrimagnetic quantum anomalous Hall insulator

Abstract

We propose that the van der Waals layered ternary transition metal chalcogenides FeTaX2 (X= S, Se, Te) as a new family of ferrimagnetic quantum anomalous Hall insulators with a sizable bulk gap and high Chern number C=-2. The magnetic order arises primarily from Fe atoms, whose strong ferromagnetic exchange induces moments on neighboring Ta sites. The large topological gap originates from a deep s-d-type band inversion between spin-down Ta dz2 and dxy orbitals near the Fermi level-a mechanism unique to d-orbital systems. Remarkably, the Curie temperature of monolayer FeTaX2 is predicted to significantly exceed that of monolayer MnBi2Te4. Furthermore, both the Curie temperature and topological gap scale positively with the spin-orbit coupling strength of the d electrons, suggesting a common physical origin. Owing to its structural similarity to FeX superconductors and reduced net magnetization, FeTaX2 further offers a promising platform for realizing chiral topological superconductivity. These findings, if realized experimentally, could open new avenues for the research and application of topological quantum physics.