Simon Dold, Thomas Reichenbach, Alessandro Colombo, Jakob Jordan, Ingo Barke, Patrick Behrens, Nils Bernhardt, Jonathan Correa, Stefan Düsterer, Benjamin Erk, Thomas Fennel, Linos Hecht, Andrea Heilrath, Robert Irsig, Norman Iwe, Patrice Kolb, Björn Kruse, Bruno Langbehn, Bastian Manschwetus, Philipp Marienhagen, Franklin Martinez, Karl-Heinz Meiwes Broer, Kevin Oldenburg, Christopher Passow, Christian Peltz, Mario Sauppe, Fabian Seel, Rico Mayro P. Tanyag, Rolf Treusch, Anatoli Ulmer, Saida Walz, Michael Moseler, Thomas Möller, Daniela Rupp, Bernd von Issendorff
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Melting, bubble-like expansion and explosion of superheated plasmonic nanoparticles
We report on time-resolved coherent diffraction imaging of gas-phase silver
nanoparticles, strongly heated via their plasmon resonance. The x-ray
diffraction images reveal a broad range of phenomena for different excitation
strengths, from simple melting over strong cavitation to explosive
disintegration. Molecular dynamics simulations fully reproduce this behavior
and show that the heating induces rather similar trajectories through the phase
diagram in all cases, with the very different outcomes being due only to
whether and where the stability limit of the metastable superheated liquid is
crossed.
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