Deep inside the Milky Way, an invisible force is quietly holding everything together — its magnetic field. Now, researchers have created one of the most detailed maps ever of this hidden structure, ...

Scientists at the University of Tokyo have captured something never seen before: a frame-by-frame view of how electron spins ...

The electronic and magnetic properties of two-dimensional materials both have strong potential for technological applications. Researchers have long assumed that they are distinct phenomena, but ...

Scientists at the University of Manchester have discovered that placing magnetic films on atomically thin molybdenum ...

AMES, Iowa – A tiny, solid sample of a drug, complete with active and inactive ingredients, spun at 50,000 revolutions per second while tilted at the “magic angle” of nearly 55 degrees relative to a ...

Conventional hard disks are based on ferromagnets—materials in which the magnetic dipoles, or spins, associated with each atom all point in the same direction. This alignment gives the material a net ...

Researchers have captured the first direct, momentum-resolved evidence that certain lattice vibrations carry measurable ...

Scientists for the Event Horizon Telescope collaboration say the magnetic structure of the Milky Way’s central Sagittarius A* black hole is “strikingly similar” to the bigger singularity in the middle ...

Non-collinear antiferromagnetic materials, which have a net magnetic moment nearly zero, yet exhibit significant anomalous transverse transport properties, are considered as candidate materials for ...

A small, round piece of asteroid Ryugu (sample #91), called “S-lunar,” contains tiny particles (less than 1 mm) that will allow planetary scientists to study the magnetic signature of the early solar ...