While synchrotron radiation is often thought of as "stable," the electromagnetic field exhibits pronounced randomly ...

Electron beams have transcended their traditional roles in imaging and lithography to become vital platforms for exploring fundamental quantum phenomena. Central to recent advances is the manipulation ...

When scientists fire beams of electrons at atomic nuclei, the resulting scattering patterns usually ...

The interaction of electron beams with insulating materials is a multifaceted phenomenon with considerable relevance in both fundamental research and technological applications. When an electron beam ...

A new technique that combines electron microscopy and laser technology enables programmable, arbitrary shaping of electron beams. It can potentially be used for optimizing electron optics and for ...

Back in 2010, crystallographer Tim Gruene heard a scientist from drugmaker Novartis say something that stuck with him. The pharmaceutical giant had amassed a collection of around 2 million small ...

SEM stands for scanning electron microscope. The SEM is a microscope that uses electrons instead of light to form an image. Since their development in the early 1950's, scanning electron microscopes ...

Researchers have directly observed, for the first time, transverse intensity fluctuations, called 'spikes', in synchrotron ...