Using artificial intelligence, engineers at the University of California San Diego have developed a new way to watch the ...

When trying to measure molecular structures with nanometer precision, every bit of noise shows up in the data: someone walking past the microscope, tiny vibrations in the building and even the traffic ...

Grab your lab coat, or at least pretend you have one, and prepare to zoom way, way in because we’re about to explore a world that’s been hiding right under your nose this whole time. Ever wondered ...

The polarized diSPIM microscope, which can image full 3D orientation and position of molecules in cells. The instrument was constructed in the Hari Shroff lab at the National Institute of Biomedical ...

Researchers have developed a deep learning algorithm for removing systematic effects from atomic force microscopy images, enabling more precise profiles of material surfaces. Atomic force microscopy, ...

Microscope images of Ryugu samples collected from the first and second touchdown sites of the Hayabusa2 mission, respectively. (Courthouse News image via (JAXA/JAMSTEC) Microscope images of Ryugu ...

have found a new way to image layers of boron nitride that are only a single atom thick. This material is usually nearly invisible in optical microscopes because it has no optical resonances. To ...

The microscope combines a big telecentric photolithography lens with a large tube lens to create sharp, detailed images of large and curved samples. These lenses project the image onto a flat array of ...

Using artificial intelligence, engineers have developed a new way to watch the inner workings of living cells in real time.