Scientists have found a new way to control quantum information using a special material, chromium sulfide bromide. It can ...

Quantum technology struggles with scaling up, as the special properties of quantum materials typically vanish in larger structures. Researchers have now found a way to maintain quantum properties in ...

There is a big problem with quantum technology—it's tiny. The distinctive properties that exist at the subatomic scale ...

A research group recently discovered the disappearance of nonreciprocal second harmonic generation (SHG) in MnPSe₃ when ...

A new trick for illuminating the internal ordering within a special type of magnet could help engineers build better ...

A research group led by Prof. SHENG Zhigao from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences , recently discovered ...

A research group led by Prof. SHENG Zhigao from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, ...

在凝聚态物理学领域，探索新材料和新现象是技术进步的驱动力。一个这样的兴趣领域是对范德华反铁磁半导体中的磁阻的研究。磁阻，即材料的电阻随外加磁场的变化，已经在各种材料中得到了广泛的研究，从而带来了突破性的发现和应用。 然而，发表在《Physical Review X》期刊上的论文《Positive oscillating magnetoresistance ...

State Key Laboratory of Semiconductor Physics and Chip Technologies, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China College of Materials Science and Opto-Electronic ...

Researchers at MIT have successfully induced a durable magnetic state in an antiferromagnetic material using terahertz light. This discovery could revolutionize magnetic storage technologies by making ...