Dealing with this volume of plastic garbage is already a tremendous challenge, but the discovery of microplastics in isolated ...

MIT researchers have converted chaotic, disordered laser light into a high-speed brain imaging tool ...

A magneto-optical microscopy platform developed by the University of Cambridge and Kenya's Kirinyaga University enables ...

Observing the depths of a living brain with clarity has traditionally required expensive, high-end equipment. However, a ...

At high power, laser light inside a multimode optical fiber is supposed to misbehave. The beam usually breaks into a noisy, ...

How do photosynthetic organisms harvest light so efficiently? To help answer this question, researchers have developed an ultrafast transient absorption microscope with sensitivity approaching the ...

Discovery of superluminal correlations within 2D hexagonal boron nitride could advance super-resolution electron microscopy ...

How do photosynthetic organisms harvest light so efficiently? To help answer this question, researchers have developed an ultrafast transient ...

Discover how a self-organizing “pencil beam” laser could allow for faster and more precise biomedical imaging.

A new method uses label-free imaging and AI to quantify axons and myelin in human brain tissue, offering insights into white ...

Engineers at UC San Diego have developed an AI-enhanced microscopy technique that delivers twice the resolution of ...

Scientists at MIT discovered that chaotic laser light can spontaneously form a highly focused beam instead of scattering—if ...