Investigation of the Anomalous and Topological Hall Effects in Layered Monoclinic Ferromagnet Cr2.76Te4

Abstract

We studied the electrical transport, Hall effect, and magnetic properties of monoclinic layered ferromagnet Cr2.76Te4. Our studies demonstrate Cr2.76Te4 to be a soft ferromagnet with strong magnetocrystalline anisotropy. Below 50 K, the system shows an antiferromagnetic-like transition. Interestingly, between 50 and 150 K, we observe fluctuating magnetic moments between in-plane and out-of-plane orientations, leading to non-coplanar spin structure. On the other hand, the electrical resistivity data suggest it to be metallic throughout the measured temperature range, except a kink at around 50 K due to AFM ordering. The Rhodes-Wohlfarth ratio μeffμs=1.89 (>1) calculated from our magnetic studies confirms that Cr2.76Te4 is an itinerant ferromagnet. Large anomalous Hall effect has been observed due to the skew-scattering of impurities and the topological Hall effect has been observed due to non-coplanar spin-structure in the presence of strong magnetocrystalline anisotropy. We examined the mechanism of anomalous Hall effect by employing the first principles calculations.