News archive

Browse the full collection of SLAC press releases and news features and stay up to date on the latest scientific advancements at the laboratory.

The method could lead to the development of new materials with tailored properties, with potential applications in fields such as climate change, quantum computing and drug design.

self driving experiments

Vera C. Rubin Observatory will capture the faint light of distant brown dwarfs to help scientists understand the Milky Way’s formation and evolution.

Brown spots surround a spiral galaxy.

A study reveals an ultrathin material’s ability to circularly polarize light, potentially informing how they work in optoelectronic devices.

Image from SLAC's high-speed electron camera showing circular polarization of terahertz light.

Improvements to the lab’s “electron camera” use AI and “time stamping” to help reveal nature’s speedy processes more accurately. 

Film strip showing images of the MeV-UED, experimental setups and graphics.

The Ultrafast X-ray Summer School, run by the Stanford PULSE Institute and hosted at SLAC, opens the door for students and postdocs to imagine how they could use X-ray free electron lasers in their future careers.

A group photo of people in red tee shirts.

The SLAC/Stanford researcher is a leading materials scientist and entrepreneur whose research is paving the way for better batteries, cleaner power grids.

SLAC and Stanford researcher Will Chueh
News Feature · VIA Symmetry Magazine

Scaling up the dark matter search

Physicists are preparing for the next generation of dark-matter experiments. 

Illustration of billiard balls on a cosmic pool table

During her fellowship she will continue research that aims to deepen our understanding of quantum materials.

Headshot of Judy Ji

Researchers have released 10 terabytes of data from the OpenUniverse project, which has created a detailed simulation of the universe astrophysicists can use to help calibrate expectations from two major new telescopes.

Stars and galaxies on a black background.

Researchers figured out how to spray and freeze a cell sample in its natural state in milliseconds, helping them capture basic biological processes in unprecedented detail.

These are two images of the same cell at different times during an experiment.

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