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X-ray imaging RSS feed

See content related to X-ray imaging here below.

A page of the Gutenberg Bible from 1450-1455 AD is prepped before being scanned at SSRL beamline 7-2.
Multimedia

Now 10,000 times brighter and thousands of times faster, LCLS sheds light on the formation of free radicals in nature. 

a closeup of the target chamber of the RIXS experimental hutch
News Brief

The new findings highlight the need for ongoing monitoring of H5N1’s evolution in nature. 

Chickens in a grassy field
Feature

Following a boom in catalysis users at SSRL, Beam Line 10-2 has been transformed and outfitted with new technologies. 

Beam Line 10-2 hutch
Feature

SLAC is leading an effort to build a network that will enable AI and machine learning to steer experiments and more.

Images of molecules, spirals, and lasers surround a lens peering on the earth.
News Release

The high-energy upgrade will keep the U.S. at the forefront of X-ray science and technology, allowing researchers to advance fields such as sustainability, human...

LCLS-II-HE
Feature

Teams at SLAC installed new experimental hutches with cutting-edge instruments that will harness the upgraded facility’s new capabilities and expand the breadth of research...

SLAC's linac at sunrise, looking east.
Feature

A groundbreaking study shows defects spreading through diamond faster than the speed of sound 

Shocking a diamond with a high-power laser produced defects that propagated faster than the speed of sound.
News 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 Release

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
Animation
Now that the cavities have been cooled, the next step is to pump them with more than a megawatt of...
Cryomodule cavity animation
Feature

How quickly a battery electrode decays depends on properties of individual particles in the battery – at first. Later on, the network of particles...

A group of particles, some highlighted in reds and oranges to show which have begun to break apart.