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SLAC builds and uses various kinds of lasers to do scientific research. 

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PULSE graduate student Jian Chen in a laser lab at SLAC.

News Feature

David Cesar, Julia Gonski and W.L. Kimmy Wu will each receive $2.75 million issued over five years for their research in X-ray and ultrafast...

Early Career Award Winners 2024
News Feature

Following the NIF ignition demonstrations, the prospect of developing a fusion energy source using lasers looks brighter than ever. 

Illustration featuring three SLAC scientists Alan Fry, Arianna Gleason, and Siegfried Glenzer.
News Feature

Seen in atomic detail, the seemingly smooth flow of ions through a battery’s electrolyte is a lot more complicated.

Photo of the laser lab apparatus used in the hopping ions experiment.
News Feature

The research could lead to a better understanding of how metals behave under extreme conditions, which will aid in the development of more resilient...

phonon hardening
News Feature

A new experiment suggests that this exotic precipitation forms at even lower pressures and temperatures than previously thought and could influence the unusual magnetic...

Diamond rain
News Brief

SLAC will partner in two collaborations that aim to speed up progress in fusion energy science and technology.

Laser engineer Eric Cunningham with the Matter in Extreme Conditions optical laser
News Feature

What could smaller particle accelerators look like in the future? SLAC scientists are working on innovations that could give more researchers access to accelerator...

This is a graphic image of particles moving through plasma during plasma wakefield acceleration.
News Feature

LaserNetUS funding will allow scientists to explore fundamental plasma science and inertial fusion energy research and technology.

Matter in Extreme Conditions (MEC) Hutch 6, located in the LCLS Far Experimental Hall.
News Feature

A groundbreaking study shows defects spreading through diamond faster than the speed of sound 

Shocking a diamond with a high-power laser produced defects that propagated faster than the speed of sound.
Press Release

With up to a million X-ray flashes per second, 8,000 times more than its predecessor, it transforms the ability of scientists to explore atomic-scale...

LCLS-II first light
News Feature

They used synthetic diamond crystals as mirrors to make X-ray pulses run laps inside a vacuum chamber, demonstrating a key process needed for future...

Two scientists in a control room full of computer monitors that allow them to adjust diamond mirrors in their CBXFEL experiment
News Feature

The results offer important implications for astrophysics and nuclear fusion research.

NIF experiment