A research team led by Colorado State University has achieved a new milestone in 3D X-ray imaging technology. The scientists ...

With the help of the world's most powerful X-ray laser, European XFEL, a research team led by Goethe University Frankfurt and ...

For self-seeding, the undulator is split into two pieces, the first of which is used to make an X-ray laser. A monochromator is then placed between the two undulators to select a narrow band ...

The hard X-ray FEL has come of age. A free-electron laser is not like other lasers. It works by forcing a beam of electrons, travelling at nearly the speed of light, to oscillate in a long ...

The ASU team set out to develop the first compact X-ray free electron laser, or CXFEL. A dramatically smaller and less ...

This study reveals a novel laser-driven X-ray technique, offering non-destructive imaging solutions for industries reliant on precision and quality control.

Located in Hamburg, Germany, this cutting-edge facility is home to the world’s largest and most powerful X-ray laser. Axions ...

With the help of the world's most powerful X-ray laser, a research team has achieved an important breakthrough: Using the example of the pharmaceutically active substance 2-thiouracil, they ...

What are X-Ray Free-Electron Lasers? X-ray free-electron lasers (XFELs) are a revolutionary type of X-ray source that produce ultra-short, highly intense pulses of X-rays. Unlike conventional X-ray ...

Using an experimental setup specially developed at Goethe University, the research team now combined this technique with the world's most powerful X-ray laser, European XFEL using the SQS ("Small ...