Imagine a pair of filters connected by a narrow tube. The filters represent ferromagnetic layers, and the tube symbolizes a thin insulating barrier. The alignment of the filters' pores determines the ...

Researchers using neutrons at the Department of Energy's Oak Ridge National Laboratory's Spallation Neutron Source (SNS) ...

Also known as magnetoelectronics, spintronics rely on electron spin rather than electron charge, as found in traditional ...

Today, I want to walk you through a deceptively simple innovation from the lab at Loughborough University (PI: Prof Marco ...

(Nanowerk News) Electronics play a pivotal role in today's information society. Yet only the electron charge in electronic devices is at play, making energy dissipation an increasingly pressing issue ...

Over the last few decades, multiferroics have emerged as a frontier in condensed matter physics and material science. Multiferroics are unique in their ability to exhibit both ferroelectric and ...

In 2023, EPFL researchers succeeded in sending and storing data using charge-free magnetic waves called spin waves, rather than traditional electron flows. The team from the Lab of Nanoscale Magnetic ...

This npj Spintronics collection is dedicated to the techniques and methods that underpin spintronics, providing insight into current efforts to characterize and understand spin-based phenomena. One of ...

The processor, integrated graphics, and other embedded components that make up some of the most popular low-power, ultra-light PCs require so little power that their power supplies and batteries are ...

Researchers at the University of Minnesota Twin Cities have discovered unexpected magnetic behavior in ultra-thin layers of metallic oxide. This finding could accelerate advances in spintronic and ...