这项研究开发的设备是一种小型硅芯片,可用作智能收发器:它们成对工作,能够自动、独立地 "计算 "光束的形状,以便以最高效率穿过一般环境。这还不是全部:它们还能产生多束重叠的光束,每束光束都有自己的形状,并在不相互干扰的情况下引导它们,通过这种方式,传输能力大大提高,这正是下一代无线系统所需要的。
The inaugural PITCH.nano competition, hosted by MIT.nano's hard technology accelerator START.nano, provided a platform for ...
Peter Hoeschele, who runs OpenAI’s Stargate data center team, said at an event last week that the company’s models are ...
Chinese researchers have developed a spectroscopic technique that offers an unprecedented combination of exceptional ...
Photonics breakthrough came from a lucky lab mistake A lab mishap has accidentally given birth to a laser-spewing chip that ...
"Yuheng" derives its name from the fifth star of the Big Dipper, once used by ancient Chinese astronomers to calibrate ...
Instead of relying on switches or digital control, the light finds its own path through the system. This approach could transform data transmission, computing, and communications by making optical ...
Researchers from NTNU and EPFL have unveiled a compact, low-cost laser that outperforms current models in speed, control, and ...
A new photonics chip that generates multicolored laser beams could supercharge data center technology and ease the strain of ...
近日,清华大学电子工程系方璐教授团队在智能光子领域取得重大突破,成功研制出全球首款亚埃米级快照光谱成像芯片“玉衡”,标志着我国智能光子技术在高精度成像测量领域迈上新台阶。相关研究成果以《集成铌酸锂光子学亚埃米级快照光谱成像》(“Integrated ...
What’s driving utility system changes when they need to happen? Or enabling them to take place in bigger ways?