Tuberculosis bacteria survive by hiding in our immune cells. In her PhD research, biologist Salomé Muñoz Sánchez explores how ...

The static nature of conventional phonon polaritonic crystals (PoCs) limits their use in adaptive nanophotonics. Now, ...

Polaritons—hybrid light-matter particles—allow light to be squeezed into deep subwavelength scales, holding great promise for ultra-compact photonic ...

A hybrid graphene and molybdenum trioxide crystal allows real time electrical tuning of Bloch modes and light emission, ...

Machine learning redesigns microscopic web sensors to be five times more flexible than nature-inspired versions, enabling detection of masses as small as trillionths of a gram.

Researchers from Regensburg and Birmingham have overcome a fundamental limitation of optical microscopy. With the help of ...

Researchers at the Institute for Molecular Science (NINS, Japan) and SOKENDAI have demonstrated a more than 2000% voltage-induced enhancement of near-field nonlinear optical responses. To achieve this ...

Conventional nanoscale electroplasmonic structures provide limited electrical tunability of nonlinear optical responses. Scientists at Japan's Institute for Molecular Science have demonstrated an ...

For over a century, light has both helped and limited our view of the ...

Endoscopic optical coherence tomography is widely used to visualize tissue microstructures in real time, but current probes ...