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

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

A schematic diagram of the mechanism by which the silkworm delicately utilizes metal ions and pH gradients to program NSF self-assembly for silk spinning. Credit: Science China Press Mulberry silk is ...

A research team led by The Hong Kong University of Science and Technology (HKUST) and Tsinghua University has theoretically proposed a new mechanism of electrical 180° switching of Néel vector and ...

This mechanism had been hypothesized but never before documented. When the crystal structure in the antiferromagnet is oriented appropriately within devices, the mechanism allows the spin current to ...

Scientists discover a mechanism in antiferromagnets that could be useful for spintronic devices. They theoretically and experimentally demonstrate that one of the magnetization torques arising from ...

A schematic diagram of the mechanism by which the silkworm delicately utilizes metal ions and pH gradients to program NSF self-assembly for silk spinning. NSF is a soluble macromolecular complex and ...