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View content related to scientific computing here below.

Ghostly X-ray images could provide key info for analyzing X-ray laser experiments.

News Feature

Researchers across the lab are developing AI tools to harness data and particle beams in real time and make molecular movies, speeding up the...

Graphic of AI in several science areas
News Feature

Digital design engineer Abhilasha Dave’s passion for connecting machine learning and hardware is helping SLAC solve big data challenges.

Photo of Abhilasha Dave in her office
News Feature

Strongly interacting electrons in quantum materials carry heat and charge in a way that’s surprisingly similar to what individual electrons do in normal metals...

An illustration shows electrons transporting heat from a warmer to a cooler area of a material.
Press Release

With up to a million X-ray flashes per second, 8,000 times more than its predecessor, it transforms the ability of scientists to explore atomic-scale...

LCLS-II first light
News Feature

SLAC works with two small businesses to make its ACE3P software easier to use in supercomputer simulations for optimizing the shapes of accelerator structures.

A large, complex shape is seen against a blue background crisscrossed with white lines. The shape is dark blue and resembles a brick partially topped with a thick shark’s fin. Three areas of bright red, orange and green, are on the shape’s bottom edge.
News Feature

An extension of the Stanford Research Computing Facility will host several data centers to handle the unprecedented data streams that will be produced by...

SRCF-II
News Feature

This month marks the 30-year anniversary of the first website in North America, launched at SLAC. In this Q&A, one of the Wizards recalls...

Group photo of SLAC WWW Wizards in an office
News Feature

Anchoring individual iridium atoms on the surface of a catalytic particle boosted its performance in carrying out a reaction that’s been a bottleneck for...

Illustration showing surface of a catalyst as a lattice work of atoms, with single iridium molecules held above it on tiny 8-sided structures to facilitate splitting of water molecules seen floating above
Press Release

They discover a short-lived state that could lead to faster and more energy-efficient computing devices.

ultrafast switching
News Feature

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
News Feature

When upgrades to the X-ray laser at the Department of Energy’s SLAC National Accelerator Laboratory are complete, the powerful new machine will capture up...

Infographic on LCLS-II data.
News Feature

No human cell can function without these tiny machines, which cause disease when they go haywire and offer potential targets for therapeutic drugs.

Illustration of molecular Ferris wheel moving protons