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 ...

Scientists at Argonne National Laboratory are advancing next-generation electronics by unlocking the behavior of ...

Breakthrough findings offer new insight into spintronics to enable faster, smaller and more efficient devices.

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 ...

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

Traditionally, magnetic materials have been divided into two main categories: ferromagnets and antiferromagnets. Over the past few years, however, physicists have uncovered the existence of ...

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Since the discoveries of spin injection and giant magnetoresistance in the 1980s, which relied on spin-polarized electron injection from a ferromagnetic metal to a normal metal, the field of ...

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 ...