Memory technologies have seen rapid advancements as researchers strive to overcome the limitations of conventional systems.

A significant advancement in opto-magnetic torque has been made, improving efficiency and paving the way for energy-efficient light-based storage technologies.

Abstract: The production of mass-produced permanent magnet synchronous motors (PMSMs) includes a post-assembly magnetization process. Given that the performance of PMSMs is contingent upon the ...

Altermagnetism: Scientists from the University of Nottingham ’s School of Physics and Astronomy have introduced a new type of ...

AI transformational impact is well under way. But as AI technologies develop, so too does their power consumption. Further ...

While most multiferroics can't operate above room temperature, a team of researchers at Tohoku University demonstrated that ...

Abstract: Variable-flux permanent magnet synchronous machines (VF-PMSMs) were proposed to avoid the additional losses of conventional PMSMs during flux weakening (FW) operation at high speeds, as they ...

Tb2(MoO4)3 functions as a multiferroic at 160 °C, addressing key limitations and opening new avenues for high-temperature ...

School of Physics and Technology, State Key Laboratory of Chemistry and Utilization of Carbon Based Energy Resources, Xinjiang University, Urumqi 830017, China School of Physics, Hunan Key Laboratory ...

Researchers created platinum-mixed metallic magnetic nanofilms that are 5x more efficient – the ultimate energy-saving solution.

Researchers are breaking limits by increasing the temperature multiferroics can operate at, from room temperature up to a blistering 160 degrees Celsius.