Researchers at the Wellman Center for Photomedicine have demonstrated that wavelength-dependent changes in the spatial distribution of light transmitted through a multimode optical fiber are not ...

Researchers have developed a microscopic 3D-printed optical device that can efficiently combine light from dozens of small semiconductor lasers into a single multimode optical fiber with very low loss ...

Optical fiber bending, deformation or shape sensing are important measurement technologies and have been widely deployed in various applications including healthcare, structural monitoring and ...

Fluorescence-based techniques are providing researchers with different ways to collect functional readouts from neuronal activity in the brain 1,2,3,4,5,6,7,8,9,10. However, measuring neuronal ...

Optical fibers are fundamental components in modern science and technology due to their inherent advantages, providing an efficient and secure medium for applications such as internet communication ...

Integration of rugged fiber optics and chiclet-based optical transceivers promotes durability, miniaturization, and modularity for aerospace and defense applications. Difference between rugged fiber ...

Believe it or not, fiber optic cables have been around since the 1950s, but how do they work? It turns out the answer isn't that complicated.

AFL, an industry-leading manufacturer of fiber optic cables, connectivity, equipment and related services, announces the ...

Chinese researchers have reportedly developed a new “three-lane highway” optical fiber system. The new ...

Multimode fiber (MMF) consists of a light-guiding core embedded in a cladding with a diameter of typically only 125 µm, about the thickness of a human hair. Unlike single mode fiber, which has a core ...