If you've ever consumed food made with olive oil, there's a good chance you've unknowingly ingested materials capable of ...

Scientists at the University of Oxford have unveiled a pioneering method for capturing the full structure of ultra-intense ...

The photoelectric effect, first explained in 1905, transformed our understanding of how light interacts with matter. When ...

Physicists at the University of Oxford have unveiled a “pioneering” method for capturing the full structure of ultra-intense ...

Scientists at EPFL have created a revolutionary biosensor that doesn't need a light source—it makes its own glow using ...

Imagine detecting a single trillionth of a gram of a molecule—like an amino acid—using just electricity and a chip smaller than your fingernail. That’s the power of a new quantum-enabled biosensor ...

A new paper in Nature Photonics from researchers at CU Boulder details impressive improvements in the ability to control the propagation and interaction of light in complex media such as tissue – an ...

Scientists have developed a groundbreaking technique called RAVEN that can capture the full complexity of an ultra-intense laser pulse in a single shot—something previously thought nearly impossible.

Engineers have harnessed quantum physics to detect the presence of biomolecules without the need for an external light source ...

The development is described in the Nature Photonics paper 3D Photonics for Ultra-Low Energy, High Bandwidth-Density Chip Data Links, led by Keren Bergman, Charles Batchelor Professor of Electrical ...