In this review article, we summarize some recent key results in the development of
antiferromagnetic spintronics. Current-induced switching of the Néel vector orientation has …

Antiferromagnets hosting real-space topological textures are promising platforms to model
fundamental ultrafast phenomena and explore spintronics. However, they have only been …

Despite the considerable interest for antiferromagnets that appeared with the perspective of
using them for spintronics, their experimental study, including the imaging of …

Engineering nontrivial spin textures in magnetic van der Waals materials is highly desirable
for spintronic applications based on hybrid heterostructures. The recent observation of …

Nanodiamonds are metastable allotropes of carbon. Based on their high hardness, chemical
inertness, high thermal conductivity, and wide bandgap, nanodiamonds are widely used in …

Magnetism of oxide antiferromagnets (AFMs) has been studied in single crystals and
extended thin films. The properties of AFM nanostructures still remain underexplored. Here …

Lensless coherent x-ray imaging techniques have great potential for high-resolution imaging
of magnetic systems with a variety of in-situ perturbations. Despite many investigations of …

Antiferromagnetic magnons possess high speed and are immune to external disturbance,
making them promising for future magnonic circuits. In this Letter, we report the observation …

Quantum sensing based on solid-state spin defects provides a uniquely versatile platform for
imaging physical properties at the nanoscale under diverse environmental conditions …

Vector magnetometry is an essential tool in characterizing the distribution of currents and
magnetization in a broad range of systems. Point defect sensors, like the nitrogen vacancy …