RIKEN physicists have found a magnetic material that converts heat into electricity with high efficiency, making it promising ...

Antiferromagnetic spintronic devices hold great promise for creating future ultra-fast and energy-efficient information storage, processing, and transmission platforms, potentially leading to ...

Titled “Antiferromagnetic spintronics for advanced memory and computing,” the project will study these special antiferromagnets and investigate their potential.

A research team from Northwestern Engineering and the University of Messina in Italy have developed a new magnetic memory device that could lead to faster, more robust Artificial Intelligence (AI) ...

"Antiferromagnetic dysprosium reveals magnetic switching with less energy." ScienceDaily. ScienceDaily, 6 November 2017. <www.sciencedaily.com / releases / 2017 / 11 / 171106085958.htm>.

All the latest science news on antiferromagnetic from Phys.org. Find the latest news, advancements, and breakthroughs.

Antiferromagnetic materials potentially allow for memory elements much faster and with higher storage capacity than what it is available now with conventional electronics.

By merging properties of ferromagnetic and antiferromagnetic materials, MIT physicists created a new kind magnetism that may someday revolutionize the memory chips that store data in laptops and ...

Better understanding the germanium-silicon nanowire material’s antiferromagnetic nature is what boosts potential for smaller, smarter, higher capacity electronics. Michigan Technological University is ...

Science Electronics storage magnetic MIT's light-activated antiferromagnetic memory could replace today's ferromagnets The breakthrough could enable next-gen memory chips with improved density and ...