Superheated Nanoparticles

Think of it as a microscopic movie: A sequence of X-ray images shows the explosion of superheated nanoparticles. The picture series reveals how the atoms in these particles move, how they form plasma and how the particles change shape.

The method of taking these pictures is a collaborative creation that involved Kansas State University researchers Artem Rudenko and Daniel Rolles, both assistant professors of physics.

"We can create a real movie of the microworld," Rudenko said. "The key development is that now we can take sequences of pictures on the nanoscale."

Rudenko and Rolles — both affiliated with the university's James R. Macdonald Laboratory — collaborated with researchers at SLAC National Accelerator Laboratory at Stanford University, Argonne National Laboratory and the Max Planck Institutes in Germany. Their publication, "Femtosecond and nanometre visualization of structural dynamics in superheated nanoparticles", appears in Nature Photonics. You may also read the K-State news release.

Recently Published Papers:

Optimization of multi-color laser waveform for high-order harmonic generation
Cheng Jin, C D Lin
Chinese Physics B 25, 094213 (2016)
Bond-rearrangement and ionization mechanisms in the photo-double-ionization of simple hydrocarbons (C2H4, C2H3F, and 1,1-C2H2F2) near and above threshold
B. Gaire, A. Gatton, F. Wiegandt, J. Neff, C. Janke, S. Zeller, D. Reedy, J. Rajput, I. Ben-Itzhak, A. L. Landers, A. Belkacem, Th. Weber
Phys. Rev. A 94, 033412 (2016)

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This Week at JRM

Week of 25 September 2016

Mon	1:30 pm	Nuts & Bolts
News & reports
Tue
Wed	1:30 pm	AMO Seminar
Jan Tross, KSU
Thu
Fri

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What's New?

JRM graduate student Bethany Jochim was featured in a K-State Today profile. The piece focused on her research into using intense lasers to fragment molecules, which could possibly lead to control of the outcomes of chemical processes one day.

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