As electronic and energy devices continue to shrink, traditional materials increasingly struggle with instability and loss of functionality at nanoscale dimensions.

Scientists at the University of Manchester have discovered that placing magnetic films on atomically thin molybdenum ...

Conventional electronics process information leveraging the electrical charge of electrons. Over the past few decades, some ...

Tsinghua University announced that the team led by Song Cheng and Pan Feng from the School of Materials at Tsinghua has made significant progress in s ...

Twisting atomically thin magnetic layers does more than reshape their electronics—it can create giant, topological magnetic textures. In chromium triiodide, researchers observed skyrmion-like patterns ...

Driven by robust demand for AI, the price hikes in the PCB circuit board industry chain continue. According to reports, Japanese semiconductor materia ...

Researchers propose a universal mechanism that enables deterministic electrical control of collinear antiferromagnets.

Corin Cesaric is a Flex Editor at CNET. She received her bachelor's degree in journalism from the University of Missouri-Columbia. Before joining CNET, she covered crime at People Magazine and ...

Researchers used sophisticated resonant X-ray scattering to directly view spin wave currents. The findings were published in Nature.

Researchers propose a universal asymmetric spin torque mechanism that deterministically switches the Neel vector in collinear antiferromagnets for ultrafast memory.