Section of a tumor observed with an optical microscope. The two white forms with brown borders are blood vessels. Inside, gold nanoparticles accumulate against their walls.
Mariana Varna-Pannerec (ESPCI)
Gold can be used to make jewelry, but also to fight cancer. Several clinical trials are currently underway in the United States where patients are being treated with gold nanoparticles.
A basic design of a light-based chip.
As electronic transistors get tinier, they approach a point at which they won't be able to get smaller. How can we keep shrinking our devices, and making them more powerful at the same time? Light.
Nanophotonics uses photons to do amazing things.
Nanophotonics deals with photons at the nanometre scale, and it's set to transform everything from internet speeds to turning your smartphone into a portable science lab.
It’s just your average corner, but a far from average camera.
Gariepy et al./Heriott-Watt
To see around a corner, all you need is a camera that can detect light at 100,000 billionths of a second.
Green lasers glowing within cells.
Matjaž Humar and Seok Hyun Yun
Using fluorescent dye, researchers figured out how to turn cells into lasers – with applications for cell tagging and tracking as well as medical diagnoses and therapies.
Now you see him …
The concept of “digital metamaterials” – a simple way of designing metamaterials with bizarre optical properties that could…
In a major step forward for the field of optical communications technology, an international team at the University of Sydney…
Nanostructures on wings of Green Hairstreak butterflies inspired the design of polarised light beamsplitters.
When scientists look for keys to unlock problems such as quantum teleportation or faster internet speeds, answers can sometimes be found in the natural world. Controlling light at the nanoscale is necessary…
Researchers have developed the world’s fastest random number generator by ‘listening’ to the continuous quantum fluctuations…