The Hall effect, in which a current flows perpendicular to an electrical bias, has been
prominent in the history of condensed matter physics. Appearing variously in classical …

Spintronics aims to go beyond the charge-based paradigm of silicon-based microelectronics
by utilizing the spin degree of freedom for memory, storage and computing applications …

Magnetism is one of the largest, most fundamental, and technologically most relevant fields
of condensed-matter physics. Traditionally, two basic magnetic phases have been …

Nanoscale detection and control of the magnetic order underpins a spectrum of condensed-
matter research and device functionalities involving magnetism. The key principle involved …

Efficient detection of the magnetic state is a critical step towards useful antiferromagnet-
based spintronic devices. Recently, finite tunneling magnetoresistance (TMR) has been …

Ferromagnets with high spin polarization are known to be valuable for spintronics—a
research field that exploits the spin degree of freedom in information technologies. Recently …

Efficient manipulation of antiferromagnetic (AF) domains and domain walls has opened up
new avenues of research towards ultrafast, high-density spintronic devices. AF domain …

Antiferromagnets (AFMs) are strong candidates for the future spintronic and memory
applications largely because of their inherently fast dynamics and lack of stray fields, with …

We demonstrate a combination of computational tools and experimental 4D-STEM methods
to image the local magnetic moment in antiferromagnetic Fe 2 As with 6 angstrom spatial …

Nickel phosphorus trisulfide (NiPS3), a van der Waals 2D antiferromagnet, has received
significant interest for its intriguing properties in recent years. However, despite its …