This study uses multimodal imaging—including SHG, SIMS, and TEM—to reveal how fibroblasts interact with 3D collagen scaffolds ...

Photobiomodulation Therapy (PBMT) uses red and near-infrared light to enhance cellular repair, reduce inflammation, and support neurological and skin health. Learn how it works, how it's different ...

Harvard physicists develop a novel cascaded-mode interferometer, enhancing light control for applications in fiber-optic ...

Can photonic chips outperform traditional silicon chips? Explore how light-based processing compares to electronics in speed, ...

Researchers from Beihang University in China have created a spintronic THz emitter with a microscale stripe pattern that ...

Researchers from the Chinese Academy of Sciences recently achieved a breakthrough by creating a compact, solid-state laser ...

Leuze is expanding its product portfolio with LiDAR technology: New ROD 300 series of laser scanners for accurate contour ...

FLIR, a Teledyne Technologies company, today introduced the Si1-LD, an industrial acoustic imaging camera that brings faster ...

The potential of Ni-Al intermetallics in IR thermophotonics is examined, highlighting their thermal stability and optical ...

Graphene-based saturable absorbers show strong potential for high-speed laser systems. Learn how integrating graphene with silicon photonics improves mode-locking and ultrafast pulse generation.

Banknotes deteriorate over their lifetime, becoming dirty, creased, faded or torn from being handled by many people and machines.

For the first time, researchers have shown that terahertz imaging can be used to visualize internal details of the mouse cochlea with micron-level spatial resolution.