Researchers from ICMAB are revolutionizing how we manipulate light at the nanoscale using chiral plasmonic ...

Remarkably, the resulting temporally engineered layer was able to simultaneously control the direction and energy of ...

Beams of light that can be guided into corkscrew-like shapes called optical vortices are used today in a range of ...

In a striking demonstration of molecular control, a team of Japanese scientists has harnessed light to reverse the twist in ...

Cost-effective chiral nanostructures enable precise light control at the nanoscale, advancing applications in sensing, imaging, and emerging quantum technologies. (Nanowerk News) Researchers from ...

If you buy through a BGR link, we may earn an affiliate commission, helping support our expert product labs. Manipulating anything in the world of quantum physics is tricky, but now, scientists ...

Researchers demonstrate reversible switching of supramolecular chirality using light, enabling new design strategies for ...

The breakthrough manipulates the TCOs to control the speed at which photons travel. Researchers say they are essentially adding a fourth dimension, leading to light transformations, including ...

Researchers report their insights on the emerging field of complex frequencies excitations, a recently introduced scheme to control light, sound and other wave phenomena beyond conventional limits.

Remarkably, the resulting temporally engineered layer was able to simultaneously control the direction and energy of individual particles of light, known as photons, a functionality which ...