In ferromagnetic materials, there is a very strong interaction between the electron spins, and as a result, a precession started locally continues in the form of a spin wave throughout the ...

Researchers have found a way to merge the properties of ferromagnetic materials (whose atoms spin in the same direction) and antiferromagnetic materials (whose atoms spin in opposite directions ...

UCLA Engineers Announce Breakthrough In Semiconductor Spin Wave Research Date: May 5, 2006 Source: University of California - Los Angeles Summary: UCLA Engineering adjunct professor Mary Mehrnoosh ...

Researchers demonstrate a robust method to generate skyrmion bags as complex magnetic spin textures in thin ferromagnetic ...

Spin waves, propagating wave-like disturbances arising from magnetic interactions, can traverse through a material. These excitations are driven by the spin of electrons.

Researchers in Italy have studied the ferromagnetic Kondo effect and theoretically predicted how the phenomenon might be observed, describing its behaviour in detail. The team has also suggested how ...

Spin waves, propagating wave-like disturbances arising from magnetic interactions, can traverse through a material. These excitations are driven by the spin of electrons.

Recent studies have focused on optimising the growth and characterisation of high-quality DMS crystals, as exemplified by the successful single crystal growth and subsequent spin polarisation ...

Discovery of high temperature ferromagnetism in dielectric films pave the way for the realization of novel spin filters to be used in actual spintronic devices.

The spins on electrons can be either up or down and, depending on the spin-spin interactions, materials can be ferromagnetic (i.e. all the spins pointing in the same direction) or antiferromagnetic (i ...