In physics and materials science, the term "spin chirality" refers to an asymmetry in the arrangement of spins (i.e., the intrinsic angular momentum of particles) in magnetic materials. This asymmetry ...

Step into a world so tiny, it defies imagination -- the nanoscale. Picture a single strand of hair, now shrink it a million times. You've arrived. Here, atoms and molecules are the architects of ...

Iron-rich hematite, commonly found in rocks and soil, turns out to have magnetic properties that make it a promising material for ultrafast next-generation computing. In 2023, EPFL researchers ...

As electronic and energy devices continue to shrink, traditional materials increasingly struggle with instability and loss of ...

Quasiparticle-mediated dynamics in AFM and FM honeycomb lattices of constricted nanoscopic elements. Credit: Physical Review Research (2024). DOI: 10.1103/PhysRevResearch.6.043144 Researchers recently ...

Molecular spintronics amalgamates the quantum properties of molecular systems with spin-dependent transport in magnetic tunnel junctions (MTJs), offering a pathway to novel device architectures for ...

Altermagnetism is effectively a hybrid form of ferromagnetism and antiferromagnetism that might become very useful in magnetic storage as well as spintronics in general. In order to practically use it ...

Researchers from the Department of Physics and the University Institute of Materials at the University of Alicante (UA) and the Low Temperature and High Magnetic Field Laboratory at the Autonomous ...

Step into a hidden world so small it’s almost unimaginable — the nanoscale. Imagine a single strand of hair and shrink it a million times, and you’re there. Here, atoms and molecules are master ...