Voltage control of magnetism (VCM) is attracting increasing interest and exciting significant
research activity driven by its profound physics and enormous potential for application. This …

In recent years, the field of antiferromagnetic spintronics has been substantially advanced.
Electric‐field control is a promising approach for achieving ultralow power spintronic devices …

The recent claim on the discovery of ambient‐pressure room‐temperature superconductivity
in Cu‐doped lead‐apatite has attracted sensational attention. The intriguing compound has …

Interest in new thermal diodes, regulators, and switches has been rapidly growing because
these components have the potential for rich transport phenomena that cannot be achieved …

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

The anomalous Hall effect is allowed by symmetry in some non-collinear antiferromagnets
and is associated with Bloch-band topological features. This topological anomalous Hall …

Spintronic devices based on antiferromagnetic (AFM) materials hold the promise of fast
switching speeds and robustness against magnetic fields,–. Different device concepts have …

The possibility of tuning the magnetic properties of materials with voltage (converse
magnetoelectricity) or generating electric voltage with magnetic fields (direct …

Antiferromagnets naturally exhibit three obvious advantages over ferromagnets for memory
device applications: insensitivity to external magnetic fields, much faster spin dynamics (≈ …

FeRh attracts intensive interest in antiferromagnetic (AFM) spintronics due to its first-order
phase transition between the AFM and ferromagnetic (FM) phase, which is unique for …