Hall Effect of La2/3(Ca,Pb)1/3MnO3 Single Crystals near the Critical Temperature
Abstract
The Hall resistivity rhoxy of a La2/3(Ca,Pb)1/3MnO3 single crystal has been measured as a function of temperature and field. The overall behavior is similar to that observed previously in thin-films. At 5 K, rhoxy is positive and linear in field, indicating that the anomalous contribution RS is negligible. However, the effective carrier density in a free electron model is neff=2.4 holes/Mn, even larger than the 0.85-1.9 holes/Mn reported for thin-films and far larger than the 0.33 holes/Mn expected from the doping level. As temperature increases, a strong, negative contribution to rhoxy appears, that we ascribe to RS. Using detailed magnetization data, we separate the ordinary ( B) and anomalous ( M) contributions. Below TC, RS rhoxx, indicating that magnetic skew scattering is the dominant mechanism in the metallic ferromagnetic regime. At and above the resistivity-peak temperature, we find that rhoxy/rhoxxM is a constant, independent of temperature and field. This implies that the anomalous Hall coefficient is proportional to the magnetoresistance. A different explanation based on two fluid model is also presented.
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