“To support the growth of AI, and to do so in a way that is energy efficient and sustainable, we must develop new ...

University of Nebraska–Lincoln researchers have achieved a breakthrough in antiferromagnetic spintronics, a development that ...

Multiferroic materials, which combine electrical and magnetic properties, could revolutionize technology by enabling faster, more compact, and energy-efficient devices. A recent study has shown ...

To further miniaturize antennas, researcher managed to design and fabricate acoustically actuated ultra-compact NEMS magnetoelectric antennas. Instead of designing antennas at the electromagnetic wave ...

Today, the U.S. National Science Foundation, in partnership with Ericsson, Intel Corporation, Micron Technology and Samsung, ...

针对这一难题，研究团队提出可以通过层霍尔效应的方法探测表面磁化，进而间接探测奈尔矢量，基于对称性分析系统总结了具有层霍尔效应的所有磁点群，基于密度泛函理论计算证实磁电反铁磁材料在外加电场下具有明显的层霍尔效应。研究结果表明，层霍尔效应能够作为探测磁电反铁磁的奈尔矢量的电学方法。