Science Highlights

Ultrafast Molecular Manipulations

Researchers trigger ultrafast response to see how molecules redistribute energy in quadrillionths of a second.

Pure as the Driven X-Ray

Seeding x-ray free electron lasers with customized electron beams produces incredibly stable laser pulses that could enable new scientific discoveries.

Spinning the (X-ray) Light Fantastic

Delta undulator provides researchers with a new tool to probe chiral materials with widespread utility in agriculture and pharmaceuticals.

New X-Ray Matter Interaction Observed at Ultra-High Intensity

Previously unobserved scattering shows unexpected sensitivity to bound electrons, providing new insights into x-ray interactions with matter and opening the door to new probes of matter.

A new algorithm reduces timing uncertainty by a factor of 300, revealing ultrafast dynamics on timescales as short as a quadrillionth of a second.

Creating a Better Way to Find Out “When”

Computer algorithm recovers histories and dynamics on timescales much faster than uncertainties inherent in experimental data.

This results demonstrate a temporal resolution sufficient to directly image chemical reactions.

Capturing Molecular Motion with Relativistic Electrons

The world’s fastest images of nitrogen molecules rotating in a gas were captured using electron diffraction.

The benchmark catalyst Fe(CO)5 is irradiated with ultraviolet light, causing it to lose one of its five carbon monoxide groups.

Scientists Track Ultrafast Formation of Catalyst with X-ray Laser

First-of-its-kind measurements provide insights on reactions that could one day turn sunlight and water into fuels.

The top figure shows the energy/time distribution of the twin bunches measured with an X-band transverse deflector.

Two-color X-rays Give Scientists 3-D View of the Unknown

Pairs of precisely tuned X-ray pulses uncover ultrafast processes and previously unmapped structures.

Nucleobases (shown here is thymine) encode genetic information inside DNA.

Molecular Sunscreen: How DNA Protects Itself from UV Light

X-ray pulses from the Linac Coherent Light Source probe the molecular dynamics of photoexcitation.

A series of x-ray scattering images are taken at ultrafast time intervals with an x-ray laser after excitation with an infra-red source that energizes the vibrational modes of a Germanium crystal.

X-ray Laser Used to Produce Movies of Atomic-scale Motion

Stroboscopic x-ray pulses scatter from a vibrating crystal and reveal how energy moves.

The figure shows measured electron bunch images with lasing suppressed (top left) and full lasing (right).

Making the Old New Again: Measuring Ultrashort X-ray Laser Pulses

Researchers have developed a powerful new diagnostic tool for the Linac Coherent Light Source (LCLS) with femtosecond resolution.

The weak signal of two gadolinium ions - shown as brilliant spheres - was used to solve the high resolution crystal structure of the model protein lysozyme.

Solving Protein Structures from Scratch

A novel tool to determine the structure of difficult to crystallize proteins.

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