近日，华中科技大学国家精密重力测量科学中心李霖教授课题组在里德堡原子光量子调控领域取得重要研究进展。团队围绕量子光学中的一项基础性问题展开探索：在空间传播路径完全分离、从未发生直接相遇的光子之间，是否能够实现有效且可控的相互作用。

Bell Laboratories, one of the world’s largest industrial laboratories and now part of Lucent Technologies, was originally the research and development arm of the giant telephone company American ...

Engineers are starting to build hardware that does not just run artificial intelligence, it behaves like a primitive form of ...

There was no doubt about it, point-contact transistors were fidgety. The transistors being made by Bell just didn't work the same way twice, and on top of that, they were noisy. While one lab at Bell ...

An attractive direction in next-generation information processing is the development of systems employing particles or quasiparticles other than electrons—ideally with low dissipation—as information ...

Atomic-scale imperfections in graphene transistors generate unique wireless fingerprints that cannot be copied or predicted, ...

Moore’s Law is stalling in the face of the physical limits of what can be done with silicon. Now a new kind of transistor design promises to keep it alive for a little longer—though the chip industry ...

Texas Instruments' Regency TR-1, the first commercial transistor radio, on display at the American History Museum Photo courtesy museum For the first 50 years after its invention, the radio was ...