Antiferromagnetic materials could represent the future of spintronic applications thanks to
the numerous interesting features they combine: they are robust against perturbation due to …

Ferromagnets are key materials for sensing and memory applications. In contrast,
antiferromagnets, which represent the more common form of magnetically ordered materials …

Spintronics of antiferromagnets is a new and rapidly develo** field of the physics of
magnetism. Even without macroscopic magnetization, antiferromagnets, similar to …

A spin valve is a microelectronic device in which high-and low-resistance states are realized
by using both the charge and spin of carriers. Spin-valve structures used in modern hard …

Antiferromagnets constitute promising contender materials for next‐generation spintronic
devices with superior stability, scalability, and dynamics. Nevertheless, the perception of …

Noncollinear antiferromagnets, such as Mn 3 Sn and Mn 3 Ir, were recently shown to be
analogous to ferromagnets in that they have a large anomalous Hall effect. Here we show …

Magnetic anisotropy phenomena in bimetallic antiferromagnets Mn 2 Au and MnIr are
studied by first-principles density-functional theory calculations. We find strong and lattice …

To realize antiferromagnetic spintronics in the nanoscale, it is highly desirable to identify
new nanometer-scale antiferromagnetic metals with both high Néel temperature and large …

We derive a phenomenological theory of current-induced staggered magnetization
dynamics in antiferromagnets. The theory captures the reactive and dissipative current …

Antiferromagnets can be used to store and manipulate spin information, but the coupled
dynamics of the staggered field and the magnetization are very complex. We present a …