When we look at the world around us, all that we see is thanks to light. It reflects, refracts, and interacts, carrying shape and depth from the objects it touches. But what about light itself?

From computer chips to quantum dots—technological platforms were only made possible thanks to a detailed understanding of the ...

Researchers use chromium sulfide bromide to create ultra-compact nanophotonic devices with magnetic tunability, high refractive index, and strong light-matter coupling. (Nanowerk News) In the push to ...

Wiley, a global leader in authoritative content and research intelligence, today announced its acquisition of Nanophotonics, an open access journal that ranks within the top 20 journals in the ISI ...

In the push to shrink and enhance technologies that control light, MIT researchers have unveiled a new platform that pushes the limits of modern optics through nanophotonics, the manipulation of light ...

Quantum computing has long been the domain of theoretical physics and academic labs, but it’s starting to move from concept to experimentation in the real world. Industries from logistics and energy ...

A new wave of innovation is transforming the future of optical technologies, driven by rapid advancements in semiconductor nanolasers. These advances are essential for future applications such as ...

May 29, 2025 Nanophotonics: a more efficient way of coupling light and matter Researchers are developing ultrathin optical components made of atomically layered systems, which capture light much ...

Southampton, UK -- Professor Nikolay Zheludev of the Optoelectronics Research Centre (ORC) has been awarded the 2025 Quantum Electronics and Optics Prize for Applied Aspects by the Quantum Electronics ...