Anomalous spin-orbit torque switching in CoO/Pt

Antiferromagnets have been envisioned as promising candidates for developing high-performance memories with both high speed and high integration density owing to their terahertz spin dynamics and absence of stray fields. Spin-orbit torque (SOT) is an efficient tool to manipulate magnetic orders for not only ferromagnets but also antiferromagnets. Here, we report the observation of anomalous SOT switching in CoO/Pt bilayers. We demonstrate that perpendicular magnetic moments at the CoO/Pt interface can be deterministically switched by an applied current, exhibiting an opposite switching polarity compared to Co/Pt. With alloying effects excluded, the tunability of switching polarity via annealing implies that the phenomenon stems from changes in the interfacial Rashba or built-in electric fields. This work not only enhances our understanding toward complexity of the antiferromagnetic interface but also the SOT effect in antiferromagnetic systems, contributing to advancement of antiferromagnetic spintronic devices.