Anomalous magnetotransport in (Y1-xGdx)Co2 alloys: interplay of disorder and itinerant metamagnetism
Abstract
New mechanism of magnetoresistivity in itinerant metamagnets with a structural disorder is introduced basing on analysis of experimental results on magnetoresistivity, susceptibility, and magnetization of structurally disordered alloys (Y1-xGdx)Co2. In this series, YCo2 is an enhanced Pauli paramagnet, whereas GdCo2 is a ferrimagnet (T c=400 K) with Gd sublattice coupled antiferromagnetically to the itinerant Co-3d electrons. The alloys are paramagnetic for x < 0.12. Large positive magnetoresistivity has been observed in the alloys with magnetic ground state at temperatures T<T c. We show that this unusual feature is linked to a combination of structural disorder and metamagnetic instability of itinerant Co-3d electrons. This new mechanism of the magnetoresistivity is common for a broad class of materials featuring a static magnetic disorder and itinerant metamagnetism.
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