Large anomalous Hall effect in layered antiferromagnet Co0.29TaS2

Abstract

We present a study on the magnetization, anomalous Hall effect (AHE) and novel longitudinal resistivity in layered antiferromagnet Co0.29TaS2. Of particular interests in Co0.29TaS2 are abundant magnetic transitions, which show that the magnetic structures are tuned by temperature or magnetic field. With decreasing temperature, Co0.29TaS2 undergoes two transitions at Tt1 38.3 K and Tt2 24.3 K. Once the magnetic field is applied, another transition Tt3 34.3 K appears between 0.3 T and 5 T. At 2 K, an obvious ferromagnetic hysteresis loop within Ht1 6.9 T is observed, which decreases with increasing temperature and eventually disappears at Tt2. Besides, Co0.29TaS2 displays step-like behavior as another magnetic transition around Ht2 4 T, which exists until Tt1. These characteristic temperatures and magnetic fields mark complex magnetic phase transitions in Co0.29TaS2, which are also evidenced in transport results. Large AHE dominates in the Hall resistivity with the conspicuous value of Rs/R0 105, considering that the tiny net magnetization (0.0094μB/Co) alone would not lead to this value, thus the contribution of Berry curvature is necessary. The longitudinal resistivity illustrates a prominent irreversible behavior within Ht1. The abrupt change at Ht2 below Tt1, corresponding to the step-like magnetic transitions, is also observed. Synergy between the magnetism and topological properties, both playing a crucial role, may be the key factor of large AHE in antiferromagnet, which also offers a new perspective in magnetic topological materials with the platform of Co0.29TaS2.