Giant anomalous Hall effect in epitaxial Mn3.2Ge films with a cubic kagome structure
Abstract
We report on the first example of epitaxial Mn3 + δGe thin films with a cubic L12 structure. The films are found to exhibit frustrated ferromagnetism with an average magnetization corresponding to 0.98~~0.06~μB/Mn, far larger than the parasitic ferromagnetism in hexagonal Mn3Ge and the partially compensated ferrimagnetism in tetragonal Mn3Ge. The Hall conductivity is the largest reported for the kagome magnets with a low temperature value of σxy = 1587~S/cm. Density functional calculations predict that a chiral antiferromagnetic structure is lower in energy than a ferromagnetic configuration in an ordered stoichiometric crystal. However, chemical disorder driven by the excess Mn in our films explains why a frustrated 120 spin structure is not observed. Comparisons between the magnetization and the Hall resistivity indicate that a non-coplanar spin structure contributes the Hall signal. Anisotropic magnetoresistance and planar Hall effect with hysteresis up to 14 T provides further insights into this material.
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