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Accelerator science RSS feed

Accelerators form the backbone of SLAC's national user facilities. Research at SLAC is continually improving accelerators, both at SLAC and at other laboratories, and is also paving the way to a new generation of particle acceleration technology. 

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Advanced accelerators

Empty undulator hall

News Feature

Siegfried Glenzer's team and collaborators from Tel Aviv University are working on a method that could make proton accelerators 100 times smaller without giving...

Glenzer-LaserProtonAcceleration
News Feature

It combines human knowledge and expertise with the speed and efficiency of “smart” computer algorithms.

Accelerator Control Room
News Feature

New research shows that when a bunch of electrons zooms through the middle of a ring-shaped laser beam, the bunch can wind up with...

donut laser
News Feature

Researchers have squeezed a high-energy electron beam into tight bundles using terahertz radiation, a promising advance in watching the ultrafast world of atoms unfold.

SLAC’s Emma Snively and Mohamed Othman at the lab’s high-speed “electron camera."
News Feature

SLAC scientists and collaborators are developing 3D copper printing techniques to build accelerator components.

3D-printed copper components
News Feature

Siqi Li develops connections with people and concepts while working on new technologies for accelerators.

Siqi Li headshot
News Feature

Just as engineers once compressed some of the power of room-sized mainframes into desktop PCs, so too have the researchers shown how to pack...

This image, magnified 25,000 times, shows a section of an accelerator-on-a-chip.
Press Release

Called XLEAP, the new method will provide sharp views of electrons in chemical processes that take place in billionths of a billionth of a...

XLEAP illustration.
News Feature

The next revolutionary X-ray laser in a class of its own, LCLS-II, is under construction at SLAC, with support from four other DOE national...

News Feature

At SLAC’s FACET facility, researchers have produced an intense electron beam by 'sneaking’ electrons into plasma, demonstrating a method that could be used in...

Trojan horse illustration
News Feature

The SLAC scientists will each receive $2.5 million for their research on fusion energy and advanced radiofrequency technology.

Gleason-Gamzina-ECA2019
News Feature

Combined with the lab’s LCLS X-ray laser, it’ll provide unprecedented atomic views of some of nature’s speediest processes.

Alex Reid, ultrafast electron diffraction (UED)