A research team led by Kyushu University has developed a new fabrication method for energy-efficient magnetic random-access memory (MRAM) using a new material called thulium iron garnet (TmIG) that ...

WEST LAFAYETTE, Ind. – Internet searches, decade-old emails and on-demand video offerings help contribute to electricity consumption by America’s server farms and data centers amounting to more than 2 ...

Scientists have shown that magnetic memory, logic and sensor cells can be made faster and more energy efficient by using an electric, not magnetic, field to flip the magnetization of the sensing layer ...

Researchers have used high-speed photography to film one of the candidates for the magnetic data storage devices of the future in action. The film was taken using an X-ray microscope and shows ...

Magnetic memory techniques have emerged as a promising non‐destructive evaluation (NDE) approach to assess the stress state and detect early damage in ferromagnetic materials. By utilising the ...

The magnetic shape memory effect can be used for designing actuators where the element elongates based on the presence of a magnetic field. The elongation can be reversed fully either by the ...

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) ...

The quickly growing demand for data-intensive computing tasks, from artificial intelligence in the cloud to automotive systems and blockchain technologies, is driving demand for new types of emerging ...

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 ...