Three-dimensional ferromagnetism and magnetotransport in van der Waals Mn-intercalated tantalum disufide

Abstract

Van der Waals (vdW) ferromagnets are an important class of materials for spintronics applications. The recent discovery of atomically vdW magnets CrI3 and Cr2Ge2Te6 has triggered a renaissance in the area of two-dimensional (2D) magnetism. Herein we systematically studied 2H-Mn0.28TaS2 single crystal, a 2D vdW ferromagnet with Tc 82.3 K and a large in-plane magnetic anisotropy. Mn K-edge x-ray absorption spectroscopy was measured to provide information on its electronic state and local atomic environment. The detailed magnetic isotherms measured in the vicinity of Tc indicates that the spin coupling inside 2H-Mn0.28TaS2 is of a three-dimensional (3D) Heisenberg-type coupled with the attractive long-range interaction between spins that decay as J(r)≈ r-4.85. Both resistivity (T) and thermopower S(T) exhibit anomalies near Tc, confirming that the hole-type transport carriers strongly interact with local moments. An unusual angle-dependent magnetoresistance is further observed, suggesting a possible field-induced novel magnetic structure.

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