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LCLS-II RSS feed

LCLS-II will be a transformative tool for energy science, qualitatively changing the way that X-ray imaging, scattering and spectroscopy can be used to study how natural and artificial systems function. It will produce X-ray pulses that are 10,000 times brighter, on average, than those of LCLS and that arrive up to a million times per second.

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LCLS-II

Illustration of SLAC's cryoplant refrigerator.

News Feature

The leaders of SLAC's Technology Innovation Directorate discuss how their group supports the lab's most innovative projects.

TID senior managers
News Feature

Over the past few years, Kathleen Ratcliffe and Tien Fak Tan have worked together to help build the superconducting accelerator that will drive new...

SLAC's Tien Tan, left, and Kathleen Ratcliffe pose for a portrait outside a SLAC building.
News Feature

The ePix series of detectors is designed to keep pace with ever more demanding experiments at SLAC and elsewhere.

SLAC’s Chris Kenney holds a 16-module
News Feature

Through her work with this nationwide program, Curry plans to make high-power laser facilities more accessible to researchers.

Chandra Breanne Curry
News Feature

The results could lead to a better understanding of reactions with vital roles in chemistry and biology.

UED conformers
News Feature

Spawned by the spins of electrons in magnetic materials, these tiny whirlpools behave like independent particles and could be the future of computing. Experiments...

Illustration of skyrmions -- little whirlpools of magnetism formed by the spins of atoms.
News Feature

High-power lasers will work in concert with the lab’s X-ray laser to dramatically improve our understanding of matter in extreme conditions.

diamond rain
News Feature

Teaching machine learning the basics of accelerator physics is particularly useful in situations where actual data don’t exist.

SSRL
News Feature

She toured the lab’s powerful X-ray laser, looked at the construction of the world’s largest digital camera, and discussed climate research, industries of the...

Secretary Granholm virtual visit
News Feature

Exploring and manipulating the behavior of polar vortices in materials may lead to new technology for faster data transfer and storage.

polar vortices
News Brief

It can help operators optimize the performance of X-ray lasers, electron microscopes, medical accelerators and other devices that depend on high-quality beams.

Artistic representation of a neural network superimposed on an electron beam profile
News Feature

This new understanding could aid the development of more efficient clean energy sources.

electron transfer