Spintronics -- devices that use microscopic magnetism in conjunction with electric current -- could lead to computing technology as fast as conventional electronics but much more energy efficient. As ...

The field of spintronics has evolved significantly since the pioneering discoveries of spin injection and giant magnetoresistance in the 1980s, which relied on spin-polarized electron injection from a ...

With modern electronic devices approaching the limits of Moore's law and the ongoing challenge of power dissipation in integrated circuit design, there is a need to explore alternative technologies ...

Researchers have developed a breakthrough process for making spintronic devices that has the potential to create semiconductors chips with unmatched energy efficiency and storage for use in computers, ...

Conventional electronic devices rely on the generation, transport, manipulation, and detection of electric charge carriers, such as electrons and holes. Spintronics employs the intrinsic angular ...

Switching of spin structure in an antiferromagnetic device using electric current. The device temperature rises to the point where thermal as well as electromagnetic (spin torque) effects contribute ...

Researchers from CIC nanoGUNE, in collaboration with international partners, have achieved the first seamless 2D spintronics device made entirely from proximitized structures. They report a ...