Topic: X-ray science | SLAC National Accelerator Laboratory

News Feature

A machine learning algorithm automatically extracts information to speed up – and extend – the study of materials with X-ray pulse pairs.

A pattern of red and yellow dots surrounded by a ring of blue dots on a black background.

News Feature

The award celebrates Huang’s achievements studying atom-scale physics with fast X-ray pulses.

News Brief

His work has led to new treatments for advanced lung cancer and a better understanding of dangerous parasites.

News Feature

Encapsulating precious-metal catalysts in a web-like alumina framework could reduce the amount needed in catalytic converters – and our dependency on these scarce metals.

A web of red material encapsulates blue polyhedrons.

Illustration

Studies of atomic-level processes that drain battery life and efficiency help improve battery performance.

Illustration

When light drives electron transfer in a molecular complex, the surrounding solvent molecules also rapidly move.

Illustration

At LCLS, crystallized ribosomes travel through a capillary into the interaction region, where they are zapped with a beam of X-rays.

Illustration

Scientists use a series of magnets to transform an electron bunch into a narrow current spike which then produces a very intense attosecond X-ray...

Illustration

By detecting minute traces of original pigments in fossils, X-ray imaging at synchrotrons has given scientists the chemical evidence needed to discover the actual...

X-ray imaging at synchrotrons has given scientists the chemical evidence needed to discover the actual colors of ancient life forms.

Illustration

The ultrafast, ultrabright X-ray pulses of the Linac Coherent Light Source (LCLS) have enabled unprecedented views of a catalyst in action, an important step...

Photograph

Undulator Hall with soft X-ray undulators to the left and hard-X-ray undulators to the right. Details

Photograph

LCLS Undulator Hall with both soft X-ray undulators, left, and hard X-ray undulators, right.

Linac Coherent Light Source (LCLS) Undulator Hall

A machine learning algorithm automatically extracts information to speed up – and extend – the study of materials with X-ray pulse pairs.

The award celebrates Huang’s achievements studying atom-scale physics with fast X-ray pulses.

His work has led to new treatments for advanced lung cancer and a better understanding of dangerous parasites.

Encapsulating precious-metal catalysts in a web-like alumina framework could reduce the amount needed in catalytic converters – and our dependency on these scarce metals.

Studies of atomic-level processes that drain battery life and efficiency help improve battery performance.

When light drives electron transfer in a molecular complex, the surrounding solvent molecules also rapidly move.

At LCLS, crystallized ribosomes travel through a capillary into the interaction region, where they are zapped with a beam of X-rays.

Scientists use a series of magnets to transform an electron bunch into a narrow current spike which then produces a very intense attosecond X-ray flash.

By detecting minute traces of original pigments in fossils, X-ray imaging at synchrotrons has given scientists the chemical evidence needed to discover the actual colors of ancient life forms.

The ultrafast, ultrabright X-ray pulses of the Linac Coherent Light Source (LCLS) have enabled unprecedented views of a catalyst in action, an important step in the effort to develop cleaner and more efficient energy sources.

Undulator Hall with soft X-ray undulators to the left and hard-X-ray undulators to the right. Details

LCLS Undulator Hall with both soft X-ray undulators, left, and hard X-ray undulators, right.

Who we are

SLAC science explained

Vera C. Rubin Observatory LSST

Diversity, Equity & Inclusion

Searching for Trolls under the Electron Bridge

X-ray science

Artificial intelligence deciphers detector "clouds" to accelerate materials research

Yijing Huang wins 2022 LCLS Young Investigator Award for work on controlling unique structures of semiconductors

Blaine Mooers wins 2022 Lytle Award for decades of synchrotron leadership and RNA research

Molecular cage protects precious metals in catalytic converters

Battery life and efficiency

Electron transfer in a molecular complex

Crystallized ribosomes

XLEAP illustration

Colors of ancient life forms

Chemical reaction

Undulator hall

Linac Coherent Light Source (LCLS) Undulator Hall

Artificial intelligence deciphers detector "clouds" to accelerate materials research

Yijing Huang wins 2022 LCLS Young Investigator Award for work on controlling unique structures of semiconductors

Blaine Mooers wins 2022 Lytle Award for decades of synchrotron leadership and RNA research

Molecular cage protects precious metals in catalytic converters

Battery life and efficiency

Electron transfer in a molecular complex

Crystallized ribosomes

XLEAP illustration

Colors of ancient life forms

Chemical reaction

Undulator hall

Linac Coherent Light Source (LCLS) Undulator Hall