The anomalous Hall Effect and magnetoresistance in the layered ferromagnet Fe1/4TaS2: the inelastic regime

Abstract

The large magnetic anisotropy in the layered ferromagnet Fe1/4TaS2 leads to very sharp reversals of the magnetization M at the coercive field. We have exploited this feature to measure the anomalous Hall effect (AHE), focussing on the AHE conductivity σAxy in the inelastic regime. At low temperature T (5-50 K), σAxy is T-independent, consistent with the Berry-phase/Karplus-Luttinger theory. Above 50 K, we extract an inelastic AHE conductivity σinxy that scales as the square of (the T dependent part of the resistivity ). The term σinxy clarifies the T dependence and sign-reversal of the AHE coefficient Rs(T). We discuss the possible ubiquity of σinxy in ferromagnets, and ideas for interpreting its scaling with ()2. Measurements of the magnetoresistance (MR) reveal a rich pattern of behavior vs. T and field tilt-angle. We show that the 2 mechanisms, the anisotropic MR effect and field-suppression of magnons, account for the intricate MR behavior, including the bow-tie features caused by the sharp reversals in M.