Ferromagnetism has long been studied in a wide range of periodic crystals and amorphous materials. In quasicrystals (QCs), ...
Understanding the influence of quasiperiodicity on magnetic fluctuations could ultimately enable the design of materials with ...
Magnetic topological insulators are an exotic class of materials that conduct electrons without any resistance at all and so are regarded as a promising breakthrough in materials science. Researchers ...
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 ...
Magnetic micro-flowers concentrate applied magnetic fields around samples, allowing high-field nanoscale imaging and ...
Ferromagnetic semiconductors, which combine semiconductor and magnetic properties, are key to developing spin-based devices. Previously studied materials, such as (Ga,Mn)As, have Curie temperatures ...
Ferromagnetism arises when atomic moments align through exchange interactions, giving rise to collective phenomena such as spin waves and magnetisation dynamics. At the heart of these effects lies the ...
An international team has discovered a spectrum characteristic of an altermagnetic material with X-ray magnetic circular dichroism. Magnetic materials have traditionally been classified as either ...
In Fe5GeTe2, researchers directly observe atomic-scale coherence linking charge density waves, Kondo physics, and ferromagnetism for the first time. (Nanowerk News) What if electricity and magnetism, ...
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 ...
Conventional antiferromagnetic materials exhibit net zero magnetization and spin-degenerate energy bands, making them incompatible with current memory technologies that rely on net magnetization. A ...