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Effectively manipulating magnetism in ferromagnet (FM) thin-film nanostructures with an in-plane current has become feasible since the determination of a ``giant'' spin Hall effect (SHE) in certain heavy metal/FM systems. Recently, both theoretical and experimental reports indicate that metallic antiferromagnet materials can have both a large anomalous Hall effect and a strong SHE. Here we report a systematic study of the SHE in PtMn with several PtMn/FM systems. By using interface engineering to reduce the ``spin memory loss'' we obtain, in the best instance, a spin-torque efficiency ₃₋^PtMnT₈₍ₓₒ₇^PtMn0. 24, where T₈₍ₓ is the effective interface spin transparency. This is more than twice the previously reported spin-torque efficiency for PtMn. We also find that the apparent spin diffusion length in PtMn is surprisingly long, ₒ^PtMn2. 30. 28em{0ex}nm.
Ou et al. (Mon,) studied this question.