Inspired by the Big Bang cooling, the new finding could lead to super-fast, energy-efficient memory chips. Today's digital world generates vast amounts of data every second. Hence, there is a need for ...

Ferromagnets, such as iron, cobalt, and nickel, are materials with a strong, spontaneous, and permanent magnetic field. Over ...

Researchers show antiferromagnets enable faster, more efficient gigahertz memory, offering clear advantages over ferromagnets for advanced spintronics. (Nanowerk News) Advances in spintronics have led ...

Researchers have made a significant breakthrough in how to enable and exploit ultra-fast spin behavior in ferromagnets. The research paves the way for ultra-high frequency applications. An ...

In brief: Scientists at MIT have achieved a groundbreaking feat by creating a unique magnetic state in a material using light. By applying lasers, they successfully switched an antiferromagnetic ...

For almost a century, physicists have tried to understand why and how materials become magnetic. From refrigerator magnets to magnetic memories, the microscopic origins of magnetism remain a ...

Scientists have taken the first step toward developing antiferromagnetic technology. They detected a liquid-crystal phase that may change the game for spintronic devices. (Nanowerk News) The best ...

(a) Schematic illustration of memory device consisting of chiral antiferromagnet Mn3Sn / nonmagnetic metal heterostructure (b) A scanning electron microscope image of the fabricated device with Mn3Sn ...

Rodolfo Rodriguez is the first author of the research paper and a former graduate student at UC Riverside. The study aims at enabling novel terahertz technology. RIVERSIDE, Calif. -- An international ...

Rodolfo Rodriguez is the first author of the research paper and a former graduate student at UC Riverside. The study aims at enabling novel terahertz technology. Credit: Barsukov lab, UC Riverside.