Particle accelerators are usually huge structures—think of the 3.2-km-long SLAC National Accelerator Lab in Stanford, California. But scientists have been hard at work trying to shrink these ...

Particle accelerators such as those at the European Organization for Nuclear Research (CERN) in Geneva are typically highly ...

On April 30, 2026, scientists worldwide reported major advances in particle acceleration, from space-based cosmic ray ...

Traditional particle accelerators, including radiofrequency linear accelerators and synchrotrons, have pushed physics forward for decades. They are also expensive, physically large, and limited in how ...

Particle accelerators are experimental techniques and associated infrastructures that use electromagnetic fields to accelerate charged particles, such as electrons, protons, or heavy ions, to high ...

Particle accelerators (often referred to as “atom smashers”) use strong electric fields to push streams of subatomic particles—usually protons or electrons—to tremendous speeds. Accelerators by the ...

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 ...

This sample of niobium has been treated in a process that is typical for preparing particle accelerator components. Tests have revealed how adding oxygen to such components makes them more efficient.

NEWPORT NEWS, VA - A pocket-size gizmo that puts the “pop” in microwave popcorn could soon fuel particle accelerators of the future. The small but mighty device is a magnetron – a mashup of the words ...