Positive unidirectional anisotropy in Y3Fe5O12/Ir20Mn80 bilayers

Abstract

We report an experimental study of the unidirectional anisotropy in bilayers made of the important ferrimagnetic insulator yttrium iron garnet (YIG) and the room temperature antiferromagnet Ir20Mn80 (IrMn). Measurements of the magnetization hysteresis loop in a wide temperature range and ferromagnetic resonance at room temperature revealed an unconventional positive exchange bias (EB). For comparison, we also made FMR measurements in a Py/IrMn bilayer that led to a negative EB with amplitude nearly two orders of magnitude larger than in YIG/IrMn. The presence of the positive EB, in which the hysteresis loop shift occurs in the direction of the field applied during deposition of the films, is attributed to an antiferromagnetic coupling between the spins of the two layers at the interface. The small value of the EB field in YIG/IrMn can be attributed to a competition of the interactions between the spins of the two sublattices of antiferromagnetic IrMn and ferrimagnetic YIG produced by the interface roughness.

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