Spin Hall effect of spin-texture origin is explored theoretically for antiferromagnetic (AF) metals. It is found that a vector chirality formed by the N\'eel vector gives rise to a topological spin Hall effect. This is topological since it is proportional to the winding number counted by in-plane vector chirality along the sample edge, which can be nonvanishing for AF merons but not for AF skyrmions. The effect is enhanced when the Fermi level lies near the AF gap, and, surprisingly, at weak coupling with small AF gap. These features are confirmed numerically based on the Landauer-B\"uttiker formula. Important roles played by nonadiabatic processes and spin dephasing are pointed out.
@article{arxiv.2304.02850,
title = {Topological spin Hall effect in antiferromagnets driven by vector N\'eel chirality},
author = {Kazuki Nakazawa and Koujiro Hoshi and Jotaro J. Nakane and Jun-ichiro Ohe and Hiroshi Kohno},
journal= {arXiv preprint arXiv:2304.02850},
year = {2024}
}