Georgetown University researchers have discovered a new class of strong magnets that do not rely on rare-earth or precious ...

Water doesn’t behave the same way in a glass as it does as ice in your freezer. When water is heated to several thousand ...

Researchers studied a potassium cobalt arsenate honeycomb, uncovering magnetic behaviors that may lead to quantum spin ...

Researchers have developed a magnetic nanomaterial that can kill bone cancer cells and support bone regeneration at the same ...

Superionic water—the hot, black and strangely conductive form of ice that exists in the center of distant planets—was ...

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 ...

Antiferromagnetic (AF) materials are made up of atoms or molecules with atomic spins that align in antiparallel directions of ...

Stars are born in a cosmic tug-of-war. The interplay between gravity, turbulence, and magnetic fields (B-fields) weaves ...

Magnetism, as we experience it every day, makes us usually think of materials such as iron, nickel, or cobalt that generate permanent magnetic fields or are attracted by magnetic forces. In these ...

A twist you'll never see coming: a breakthrough in understanding the relationship between chirality and electric flow at a microscopic level may help us develop chiral information technology.