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Superconductivity and charge density waves caught intertwining at the nanoscale
Scientists discover superconductivity and charge density waves are intrinsically interconnected at the nanoscopic level, a new understanding that could help lead to the next generation of electronics and computers.
A beam of light lands on a series of squiggly lines. Where the beam lands, the lines are straight.
SLAC’s superconducting X-ray laser reaches operating temperature colder than outer space
The facility, LCLS-II, will soon sharpen our view of how nature works on ultrasmall, ultrafast scales, impacting everything from quantum devices to clean energy.
LCLS-II cooldown
How a soil microbe could rev up artificial photosynthesis
Researchers discover that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times faster than plant enzymes do during photosynthesis. The results stand to accelerate progress toward converting carbon dioxide into a variety of products.
An illustration shows the pocket in an enzyme called ECR where the carbon fixing reaction takes place.
What drives rechargeable battery decay? Depends on how many times you've charged it
How quickly a battery electrode decays depends on properties of individual particles in the battery – at first. Later on, the network of particles matters more.
A group of particles, some highlighted in reds and oranges to show which have begun to break apart.
San Jose State students study nanodiamonds at SLAC’s synchrotron
A physical chemist and a diverse group of his students are working on applications with nanoscopic d...
Three side-by-side portraits.
Q&A: How SLAC's Technology Innovation Directorate serves as the backbone of discovery at the lab
The leaders of SLAC's Technology Innovation Directorate discuss how their group supports the la...
TID senior managers
In a first, researchers image the full structure of trapped excitons
It’s a significant step in understanding these whirling quasiparticles and putting them to work in f...
A beam of light hits a semiconductor material, ejecting an electron (blue) which goes on to partner with a hole (orange) to form a whirling compound particle, the exciton.
Q&A: From particle beams to cancer treatment – fundamental research that affects everyday life
SLAC’s Matt Garrett and Susan Simpkins talk about tech transfer that brings innovations from the nat...
Tech Transfer
Lynbrook High and Joaquin Miller Middle School win SLAC Regional Science Bowl competitions
The lab hosted two regional competitions this year. Winners of the Science Bowl regionals go on to n...
Screenshot of winning high school team Lynbrook
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MEDIA MENTIONS

Menlo Park tunnel is colder than most of the universe
Mercury News
The world’s most powerful X-ray is now colder than space
The Daily Beast
Temperatures colder than space achieved here on Earth using superconducting X-ray laser
Live Science
A particle accelerator is now colder than space to produce 1 million X-ray pulses a second
Space
SLAC's newest laser works best when it's colder than outer space
Engadget
All things photonics: the LaserNetUS Consortium
Photonics

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SLAC 60th anniversary graphic
SLAC celebrates 60 years of science and discovery

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Public Lecture

SLAC Public Lecture: Seeing the Universe through Quantum Eyes
Seeing the Universe through Quantum Eyes presented by Cyndia Yu, Thursday, June 2 at 7 pm PT