Superconductivity is known to be easily destroyed by strong magnetic fields. NIMS, Osaka University and Hokkaido University have jointly discovered that a superconductor with atomic-scale thickness ...

A research team has demonstrated that thin films of ruthenium dioxide (RuO₂) exhibit altermagnetism—the defining property of ...

Researchers have unlocked a new method for producing one class of 2D material and for supercharging its magnetic properties. At just a few atoms of thickness, 2D materials offer revolutionary ...

This article considers the quantization of bilayer graphene, based on research published in the Journal of Magnetism and Magnetic Materials. Under certain conditions, a substance's electrical ...

Researchers discovered a new state of matter in rhombohedral graphene. This is a form of graphite composed of a few layers of closely packed graphene stacked in an offset way. When it is cooled down ...

How Does Superheating Reduce the Magnetism of Magnets? To understand how temperature might affect a magnet, you need to look at the atomic structure of the elements it is made of. Magnets are made of ...

Magnetic sensors quietly underpin everything from smartphone compasses to the stability systems that keep electric vehicles on the road, and the race to make them smaller, faster and more sensitive is ...

Introduction to Skyrmions: Skyrmions are a fascinating class of topological solitons that have garnered significant attention in the field of spintronics and magnetic storage technologies. Skyrmions ...

A joint research team from NIMS, The University of Tokyo, Kyoto Institute of Technology and Tohoku University has ...

Superconductivity is known to be easily destroyed by strong magnetic fields. Researchers have discovered that a superconductor with atomic-scale thickness can retain its superconductivity even when a ...