The largest camera ever built for astrophysics has completed the journey to Cerro Pachón in Chile, where it will soon help unlock the Universe’s mysteries.

Researchers developed new methods that produce intense attosecond pulses and pulse pairs to gain insights into the fastest motions inside atoms and molecules. It could lead to advancements in fields ranging from chemistry to materials science.

The first reflective coating was applied to Vera C. Rubin Observatory’s 8.4-meter combined primary/tertiary mirror using the observatory’s onsite coating chamber.

SLAC is taking part in a multi-institutional effort to help reach net-zero carbon emissions goals in difficult-to-electrify industries.

The team developed a groundbreaking method that harnesses the structure of light to twist and tweak the properties of quantum materials. 

Vera C. Rubin Observatory’s stunningly detailed images will illuminate distant stellar streams and their past encounters with dark matter.

Researchers have used the Dark Energy Spectroscopic Instrument to make the largest 3D map of our universe and world-leading measurements of dark energy, the mysterious force behind its accelerating expansion.

Once set in place atop a telescope in Chile, the 3,200-megapixel LSST Camera will help researchers better understand dark matter, dark energy and other mysteries of our universe.

In a new study, SLAC researchers suggest a small-scale solution could be the key to solving a large-scale mystery.

Sensors designed and created at SLAC could help a proposed satellite mission map the X-ray emissions of galaxies with unprecedented precision.

Researchers have uncovered new insights about tungsten's ability to conduct heat, which could lead to materials advancements for fusion reactor and aerospace technologies.

Scientists at Stanford and NYU have published and investigated a new structure of the protein LAG-3 which could enable the development of new cancer treatments.