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Researchers at the Stanford PULSE Institute watch ultrafast particle motions and chemical reactions to get a deeper understanding of matter in all its forms. Soon we’ll be able to watch even speedier electron movements that underlie all of chemistry, technology and life.

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XLEAP illustration

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Researchers discover that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times...

An illustration shows the pocket in an enzyme called ECR where the carbon fixing reaction takes place.
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X-ray laser experiments show that intense light distorts the structure of a thermoelectric material in a unique way, opening a new avenue for controlling...

Illustration shows two ball-and-stick molecules in pink and red separated by a blurred streak representing how the first structure is slightly deformed into the second.
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Less than a millionth of a billionth of a second long, attosecond X-ray pulses allow researchers to peer deep inside molecules and follow electrons...

Illustration of attosecond coherent electron motions.
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A better understanding of this process could inform the next generation of artificial photosynthetic systems that produce clean and renewable energy.

water droplets on plant
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Topological insulators conduct electricity on their surfaces but not through their interiors. SLAC scientists discovered that high harmonic generation produces a unique signature from...

A counterclockwise pattern of swirling arrows This pattern of arrows representing the combined spin and momentum of electrons in the surface layer of a topological insulator
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The results could lead to a better understanding of reactions with vital roles in chemistry and biology.

UED conformers
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From the invisible world of elementary particles to the mysteries of the cosmos, recipients of this prestigious award for early career scientists explore nature...

Panofsky fellows
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Edward Hohenstein, Emma McBride and Caterina Vernieri study what happens to molecules hit by light, recreate extreme states of matter like those inside stars...

Early Career Awardees 2021
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This new understanding could aid the development of more efficient clean energy sources.

electron transfer
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Just as pressing a guitar string produces a higher pitch, sending laser light through a material can shift it to higher energies and higher...

High harmonic generation in a topological insulator.
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These fleeting disruptions, seen for the first time in lead hybrid perovskites, may help explain why these materials are exceptionally good at turning sunlight...

An illustration shows polarons as bubbles of distortion in a perovskite lattice
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SLAC and Stanford partner with two Illinois universities to create the Center for Quantum Sensing and Quantum Materials, which aims to unravel mysteries associated...

Illustration of quantum processes