Ultrafast Three-Dimensional Imaging of Lattice Dynamics in Individual Gold Nanocrystals

Jesse N. Clark(London Centre for Nanotechnology), Loren Beitra(London Centre for Nanotechnology), Gang Xiong(London Centre for Nanotechnology), Andrew Higginbotham(University of Oxford), David Fritz(SLAC National Accelerator Laboratory), H. Lemke(SLAC National Accelerator Laboratory), Danshi Zhu(SLAC National Accelerator Laboratory), Matthieu Chollet(SLAC National Accelerator Laboratory), Garth J. Williams(SLAC National Accelerator Laboratory), M. Messerschmidt(SLAC National Accelerator Laboratory), Brian Abbey(La Trobe University), Ross Harder(Argonne National Laboratory), Alexander M. Korsunsky(University of Oxford), J. S. Wark(University of Oxford), Ian Robinson(London Centre for Nanotechnology)
Science
May 24, 2013
10.1126/science.1236034
Cited by 314Open Access
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Abstract

Key insights into the behavior of materials can be gained by observing their structure as they undergo lattice distortion. Laser pulses on the femtosecond time scale can be used to induce disorder in a "pump-probe" experiment with the ensuing transients being probed stroboscopically with femtosecond pulses of visible light, x-rays, or electrons. Here we report three-dimensional imaging of the generation and subsequent evolution of coherent acoustic phonons on the picosecond time scale within a single gold nanocrystal by means of an x-ray free-electron laser, providing insights into the physics of this phenomenon. Our results allow comparison and confirmation of predictive models based on continuum elasticity theory and molecular dynamics simulations.

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