The advance of magnetic nanotechnologies relies on detailed understanding of nanoscale magnetic mechanisms in materials. Magnetic domain memory (MDM), that is, the tendency for magnetic domains to ...

An international collaboration has succeeded in using synchrotron light to detect and record the complex 3-D magnetization in wound magnetic layers. This technique could be important in the ...

Atomic-scale magnetic patterns resembling a hedgehog's spikes could result in hard disks with massively larger capacities than today's devices, a new study suggests. The finding could help data ...

Altermagnets are a newly recognized class of antiferromagnets whose magnetic structure behaves very differently from what is ...

Pushing the limits of how we see and manage magnetic behavior in tiny structures is key to developing future technologies, especially in electronics that use the spin of particles-a property related ...

Some of these patterns are made of skyrmions—tiny whirlpools in the magnetic structure of a material that can move around as if they were distinct particles. When skyrmions cluster together, they can ...

Deep beneath our feet, something extraordinary is happening. Scientists have discovered that changes in Earth's core are ...

SAN FRANCISCO — If life ever existed on Mars, it may have betrayed its presence with a distinctive magnetic signature that a future rover could detect, a new study suggests. A mission to hunt for life ...

Storing information through magnetic patterns was first demonstrated to record audio. Since then, this concept has been applied for different products like floppy disks, audio/video tapes, hard disks, ...

(Nanowerk News) An international collaboration has succeeded in using synchrotron light to detect and record the complex 3D magnetisation in wound magnetic layers. This technique could be important in ...