Magnetic critical behavior and anomalous Hall effect in 2H-Co0.22TaS2 single crystals
Abstract
We report ferromagnetism in 2H-Co0.22TaS2 single crystals where Co atoms are intercalated in the van der Waals gap, and a systematic study of its magnetic critical behavior in the vicinity of Tc 28 K. The obtained critical exponents β = 0.43(2), γ = 1.15(1), and δ = 3.54(1) fulfill the Widom scaling relation δ = 1+γ/β and follow the scaling equation. This indicates that the spin coupling in 2H-Co0.22TaS2 is of three-dimensional Hersenberg type coupled with long-range magnetic interaction, and that the exchange interaction decays with distance as J(r)≈ r-4.69. 2H-Co0.22TaS2 exhibits a weak temperature-dependent metallic behavior in resistivity and negative values of thermopower with dominant electron-type carriers, in which obvious anomalies were observed below Tc as well as the anomalous Hall effect (AHE). The linear scaling behavior between the modified anomalous Hall resistivity xy/μ0H and longitudinal resistivity xx2M/μ0H implies that the origin of AHE in 2H-Co0.22TaS2 should be dominated by the extrinsic side-jump mechanism.
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