Daniel Ratner, head of SLAC’s machine learning initiative, explains the lab’s unique opportunities to advance scientific discovery through machine learning.

Institute of Electrical and Electronics Engineers recognizes his contributions to developing electron beams that power unique ‘electron cameras’ and could advance X-ray lasers.

Their work uses machine learning to transform the way scientists tune particle accelerators for experiments and solve longstanding mysteries in astrophysics and cosmology.

Online educational programs offer new possibilities.

A pioneer in developing methods for cryogenic electron microscopy, he directs two joint facilities for cryo-EM research and development on the SLAC campus.

The prestigious awards provide at least $2.5 million over five years in support of their work in understanding photochemical reactions and improving accelerator beams.

Blandford’s major contributions range from energetic jets ripping forth from colossal black holes to cosmic “magnifying” glasses to gravitational waves.

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 up any of their power.

The SLAC/Stanford scientists are among 120 new members of an organization that advises the nation on science and technology issues.

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

As the massive LSST camera project reaches its culmination, Hannah Pollek is one of the engineers in the clean room each day putting the pieces together.

His work aims to deepen our understanding of dark matter, dark energy and other secrets of the universe.