Condensed-Matter Physics

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December 3, 2019
News Feature
Study sheds light on the really peculiar ‘normal’ phase of high-temperature superconductors
It reveals an abrupt transition in cuprates where particles give up their individuality. The results flip a popular theory on its head.
Illustration of abrupt transition in normal state of a cuprate
November 21, 2019
News Brief
Theorists probe the relationship between ‘strange metals’ and high-temperature superconductors
Computer simulations yield a much more accurate picture of these states of matter.
Illustration of a Monte Carlo simulation
October 21, 2019
News Feature
A day in the life of an extreme matter scientist
Chemist Ben Ofori-Okai investigates what happens to matter under extreme conditions at microscopic scales to better understand its behavior at massive scales, such as what happens in the Earth’s core.
Ben Ofori-Okai
September 26, 2019
News Feature
Scientists finally find superconductivity in exactly the place they've been looking for decades
The Hubbard model, used to understand electron behavior in numerous quantum materials, now shows us its stripes, and superconductivity too, in simulations for cuprate superconductors.
Diagram of electrons moving to neighboring atoms in Hubbard model
August 28, 2019
Press Release
First report of superconductivity in a nickel oxide material
Made with ‘Jenga chemistry,’ the discovery could help crack the mystery of how high-temperature superconductors work.
Illustration of 'Jenga chemistry' step of making new superconductor
July 10, 2019
News Feature
SLAC makes ‘electron camera,’ a world-class tool for ultrafast science, available to scientists worldwide
Combined with the lab’s LCLS X-ray laser, it’ll provide unprecedented atomic views of some of nature’s speediest processes.
Alex Reid - UED
April 10, 2019
News Feature
10 ways SLAC’s X-ray laser has transformed science
In the decade since LCLS produced its first light, it has pushed boundaries in countless areas of discovery.
Undulator Hall
March 13, 2019
News Feature
A new lens on materials under extreme conditions allows researchers to watch shock waves travel through silicon
Researchers used a unique approach to learn more about what happens to silicon under intense pressure.
silicon waves
March 11, 2019
News Feature
A new way to watch atoms move in a single atomic sheet
X-ray laser snapshots give scientists a new tool for probing trillionths-of-a-second atomic motions in 2-D materials
Experimental station at SLAC's LCLS X-ray laser where the study was done
February 8, 2019
News Feature
First direct view of an electron’s short, speedy trip across a border
Watching electrons sprint between atomically thin layers of material will shed light on the fundamental workings of semiconductors, solar cells and other key technologies.
Illustration of electrons giving off electromagnetic waves as they travel between two materials

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