The universe is soaked in weak-but-persistent magnetic fields. Despite decades of research, astronomers still aren't exactly sure where these magnetic fields came from. But new research suggests they ...

Repeated impacts can create minerals that lock in magnetic signals long after the Moon’s global field has disappeared.

The new miniaturized structure requires a few thousand times less power than larger magnets and it could help bring ultrastrong benchtop magnets closer to reality. “All previous 40 T class magnets ...

Data is growing at a staggering pace, pushing charge-based microelectronics, such as smartphones and laptops, to their ...

Aaron Rossini of Iowa State and Ames National Laboratory with the nuclear magnetic resonance instrument in his Hach Hall lab. Iowa State University/Christopher Gannon. Iowa State's Aaron Rossini has ...

Quantum diamond magnetometers could enable resilient navigation without GPS, while supporting defense, security, and future ...

Superconductors—materials that can conduct electricity without energy loss—are crucial for next-generation high-efficiency, ...

The University of Wyoming has gained a new asset that will elevate its national leadership in critical minerals, rare-earth ...

Small in-plane magnetic fields switch skyrmion chirality and improve lattice order in a two-dimensional magnet, pointing to low-energy control of spin textures for future computing devices. (Nanowerk ...

Physicists have found a way to circumvent a 178-year old theory which means they can effectively cancel magnetic fields at a distance. They are the first to be able to do so in a way which has ...