Researchers at the University of Adelaide, as part of an international team, have developed an approach that makes advanced microscopy possible through an optical fiber thinner than a human hair.

Researchers developed tapered polymer optical fibers that are optimized for delivering light to the brain. A scanning electron microscopy image of one of the tapers is shown.

University of Strathclyde scientists 3D print $60 microscope in less than three hours using a publicly available design from ...

Researchers have developed a reliable and reproducible way to fabricate tapered polymer optical fibers that can be used to ...

The alpha300 S uses unique and patented micro-fabricated cantilever SNOM sensors that significantly outperform standard fiber optic ... topographic and optical images simultaneously. Many scientific ...

Under a microscope, most of the heart cockle’s shell has a layered ... The natural fibers within this piece of heart cockle shell act like optical fibers, transmitting light along their length so that ...

An international team, including researchers from the University of Adelaide, has developed a method enabling advanced microscopy using an optical fiber thinner than a human hair. The method ...

This unique structure allows for unprecedented control over the fiber's optical properties, leading to several groundbreaking developments: Enhanced brightness for improved signal-to-noise ratios in ...

Volpi is a provider of fiber optic and LED illumination components for use in industrial image processing, microscopy, and medical diagnostics. Another area of activity is the development of fiber ...

Half-Ball (hemispherical) lenses have a good performance on microscopy, endoscopy, fiber communication, optical pick-up devices, and laser measurement systems, LED industry, especially for high power ...