Shaping up: A new machine learning algorithm helps physicists reconstruct the shapes of particle accelerator beams from tiny amounts of training data. (Courtesy: Greg Steward/SLAC National Accelerator ...

The Large Helical Device (LHD) and the heavy ion beam probe (HIBP) system. The inset on the left shows an enlarged view of the section from the negative ion source to the injection side of the tandem ...

The plasma and beams group conducts research at the crossroads of plasma physics, particle beam physics, and laser physics. Our goal is to study particle beam acceleration in strong plasma waves that ...

Whenever SLAC National Accelerator Laboratory's linear accelerator is on, packs of around a billion electrons each travel together at nearly the speed of light through metal piping. These electron ...

A collaboration of researchers led by Cornell University has been awarded $22.5 million from the National Science Foundation to continue gaining the fundamental understanding needed to transform the ...

If you would like to learn more about the IAEA’s work, sign up for our weekly updates containing our most important news, multimedia and more. The IAEA is launching a new 5-year Coordinated Research ...

Laser plasma acceleration is a potentially disruptive technology: It could be used to build far more compact accelerators and open up new use cases in fundamental research, industry and health.

Researchers in Japan have accelerated muons into the most precise, high-intensity beam to date, reaching energies high as 100 keV. The achievement could enable next-generation experiments such as ...