For many decades, the method to obtain atomic-level descriptions of chemical compounds and materials—be it a drug, a catalyst ...

Scientists at the X-ray free-electron laser SwissFEL have realized a long-pursued experimental goal in physics: to show how ...

ASU is home to researchers at the forefront of material science, pushing boundaries with innovative techniques. These methods are not only advancing the understanding of matter but also driving the ...

A team of engineers and scientists has shown for the first time that a hard-X-ray cavity can provide net X-ray gain, with ...

X‐ray imaging and microscopy techniques have undergone substantial evolution over recent decades, providing unparalleled access to the internal structure of materials and biological samples with ...

With a novel approach to X-ray spectroscopy, researchers are now able to capture detailed, ultrafast snapshots of electron interactions. The technique, called stochastic Stimulated X-ray Raman ...

X-ray crystallography, like mass spectroscopy and nuclear spectroscopy, is an extremely useful material characterization technique that is unfortunately hard for amateurs to perform. The physical ...

Omni NDE cobots, X-ray end effectors and Voxray’s reconstruction approach enables 5-micron inspection of aerospace parts ...

Modern biomedical research depends on the ability to see what is happening inside biological tissue. Among the available ...

Biological materials are masterpieces created by nature. Bones, for example, are extremely hard, yet at the same time elastic enough to withstand lateral forces without breaking easily. This ...