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Hidden Medical Text Read for the First Time in a Thousand Years
With X-ray imaging at SLAC’s synchrotron, scientists uncovered a 6th century translation of a book by the Greek-Roman doctor Galen. The words had been scraped off the parchment manuscript and written over with hymns in the 11th century.
With Laser Light, Scientists Create First X-Ray Holographic Images of Viruses
Using SLAC’s X-ray laser, researchers have made detailed 3-D images of nanoscale biology, with future applications in the study of air pollution, combustion and catalytic processes.
SLAC-led Study Shows Potential for Efficiently Controlling 2-D Materials With Light
In experiments with the lab’s ultrafast "electron camera," laser light hitting a material is almost completely converted into nuclear vibrations, which are key to switching a material’s properties on and off for future electronics and other applications.
A Potential New and Easy Way to Make Attosecond Laser Pulses: Focus a Laser on Ordinary Glass
This novel method could shrink the equipment needed to make laser pulses billionths of a billionth of a second long for studying ultra-speedy electron movements in solids, chemical reactions and future electronics.
Kasper Kjaer Wins First LCLS Young Investigator Award
The early career award from SLAC’s X-ray laser recognizes Kjaer’s work in ultrafast X-ray science.
Philip Bucksbaum Elected to American Physical Society Leadership Position
Following the 2017 American Physical Society (APS) general election, Philip Bucksbaum will be vice president of APS in 2018 – an election that places him in the presidential line. He will become president-elect in 2019 and president in 2020.
Atomic Movies May Help Explain Why Perovskite Solar Cells Are More Efficient
SLAC’s ultrafast “electron camera” reveals unusual atomic motions that could be crucial for the efficiency of next-generation perovskite solar cells.
Scientists See Molecules ‘Breathe’ in Remarkable Detail
The research team was able to watch energy from light flow through atomic ripples in a molecule. Such insights may provide new ways to develop a class of materials that improve efficiency and reduce the size of applications like solar cells and memory storage devices.
A Single Electron’s Tiny Leap Sets Off ‘Molecular Sunscreen’ Response
A new X-ray laser technique allows scientists to home in on these single-electron triggers to better understand organic molecules that respond to light, including receptors in your eyes, plastic products and DNA building blocks that need to protect themselves from cancer-causing mutations.
What Can You Study In Femtoseconds? Materials
Aaron Lindenberg, associate professor at Stanford and SLAC, talks about how he combines X-ray and electron techniques to understand and engineer novel materials.
