Researchers at the University of Chicago Pritzker School of Molecular Engineering have made unexpected progress toward developing a new optical memory that can quickly and energy-efficiently store and ...

The Chalmers researchers used a novel, atomically thin material in tiny memory devices, here seen as clusters of golden dots on the top of the chip. The material combines two opposing magnetic forces ...

Using carefully tuned terahertz light, the MIT team was able to controllably switch an antiferromagnet to a new magnetic state. Over repeated experiments, the team observed that a terahertz pulse ...

A diagram of the material developed using on-axis magnetron sputtering. By applying a current through the platinum material on top of the TmIG, researchers were able to reverse the magnetization ...

A squishy, layered material that dramatically transforms under pressure could someday help computers store more data with less energy. That's according to a new study by researchers at Washington ...