Type-II Weyl nodes, flat bands, and evidence for a topological Hall-effect in the new ferromagnet FeCr3Te6

Abstract

The interplay between linearly dispersing or Dirac-like, and flat electronic bands, for instance, in the kagome ferromagnets, has attracted attention due to a possible interplay between topology and electronic correlations. Here, we report the synthesis, structural, electrical, and magnetic properties of a single-crystalline ferromagnetic compound, namely Fe1/3CrTe2 or FeCr3Te6, which crystallizes in the P3m1 space group instead of the I2/m previously reported for FeCr2Te4. Electronic band structure calculations reveal type-II Dirac nodes and relatively flat bands near the Fermi level (F). This compound shows onset Curie temperature Tc 120 K, followed by an additional ferromagnetic transition near Tc2 92.5 K. Below Tc, FeCr3Te6 displays a pronounced anomalous Hall effect, as well as sizable coercive fields that exceed μ0H = 1~T at low Ts. However, a scaling analysis indicates that the anomalous Hall effect results from a significant intrinsic contribution, as expected from the calculations, but also from the extrinsic mechanism, i.e., scattering. The extrinsic contribution probably results from occupational disorder at the 1b Fe-site within the van der Waals gap of the CrTe2 host. We also observe evidence for a topological Hall component superimposed onto the overall Hall response, suggesting the presence of chiral spin textures akin to skyrmions in this centrosymmetric system. Their possible presence will require experimental confirmation.

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