Scientists have demonstrated that light alone can reversibly control magnetism in a topological material. Researchers at the University of Basel and ETH Zurich have found a way to flip the magnetic ...

Researchers at the University of Basel and the ETH in Zurich have succeeded in changing the polarity of a special ferromagnet ...

Magnetic skyrmions are stable quasi-particles that can be generated in (some) ferromagnetic materials with conceivable solutions in electronics, assuming they can be created and moved at will. The ...

Exchange-coupled interfaces offer a powerful route to stabilising and enhancing ferromagnetic properties in two-dimensional materials, such as transition metal chalcogenides. These materials exhibit ...

Magnetic memory techniques have emerged as a promising non‐destructive evaluation (NDE) approach to assess the stress state and detect early damage in ferromagnetic materials. By utilising the ...

A research team at Fudan University in Shanghai has achieved a breakthrough in the study of a class of magnetic materials ...

A research team has revealed the microscopic origin of the large magnetoelectric effect in interfacial multiferroics composed of the ferromagnetic Co2FeSi Heusler alloy and the piezoelectric material.

Chromium(III) Telluride (Cr 2 Te 3) is an interesting material for (ferro)magnetic applications, with Yao Wen and colleagues reporting in a 2020 Nano Letters paper that they confirmed it to show ...

In 1966, Mermin and Wagner theoretically predicted that while ferromagnetic order can be stabilized in three-dimensional systems, it cannot be sustained in two-dimensional isotropic systems due to ...