At temperatures approaching absolute zero, most magnetic materials settle into tidy patterns. Their tiny magnetic moments, or ...

Magnetic materials in a quantum spin liquid phase are of great interest in the pursuit of exotic state of matter and quantum ...

Ferromagnetic semiconductors (FMSs) combine the unique properties of semiconductors and magnetism, making them ideal candidates for developing spintronic devices that integrate both semiconductor and ...

Scientists from Tokyo Metropolitan University have discovered that a hydrogen-absorbing material shrinks in one direction ...

Magnetic invisibility sounds simple in theory. Place the right materials around an object and magnetic fields flow around it as if nothing were there. Reality has been far messier. For nearly two ...

A hydrogen-treated metal alloy shrinks instead of expanding when heated, driven by magnetism, offering customizable materials ...

Magnetic materials are typically divided into ferromagnetic and antiferromagnetic types, depending on their magnetic moments (electron spins), resulting in either macroscopic (net) magnetism or not.

The discovery of graphene has motivated scientists to explore a wide range of layered, atomically-thin 2D materials. One of the most astounding discoveries was that such monoatomic layers could be ...

An international team has detected an unusual ferromagnetic property in a two-dimensional system, known as 'easy-plane anisotropy.' This could foster new energy efficient information technologies ...

High magnetic fields have a potential to modify the microscopic arrangement of magnetic moments because they overcome interactions existing in zero field. Usually, high fields exceeding a certain ...