Nearly 100 years ago, a seemingly simple discovery revolutionized the microscope. The introduction of phase contrast, which ...

In a landmark achievement in biological imaging, researchers at Biohub and the University of California, Berkeley today ...

Installed in a custom Titan Krios, the laser phase plate enhances motion correction, early‑frame recovery, and 3D classification and alignment.

Fifteen years ago, physicists worked out a method to increase image contrast by hitting the electron imaging beam with an ...

A new microscope method reveals details that were difficult to see before, helping researchers study proteins, cells, and ...

Berkeley Lab and UC Berkeley physicists' new technique offers detailed images of the small molecules and cell structures that ...

Techniques that exploit the phase of X-rays, not just their absorption, have the potential to transform X-ray imaging in hospitals, reports Jude Dineley Improved imaging Marian Willner from the ...

Quantitative phase imaging is a powerful, non-invasive and quantitative microscopy technique that allows multi-scale imaging of cellular systems, explain Mustafa Mir and Gabriel Popescu Imaging by ...

The last decade has shown the great potential that X-ray Free Electron Lasers (FEL) have to study High Energy Density (HED) physics. Experiments at FELs have made significant breakthroughs in Shock ...

Fluorescence microscopy offers unparalleled access to the spatial organization and dynamics of biological events in living samples, yet capturing rare processes over extended durations remains ...