过热等离子体纳米颗粒的熔化、气泡状膨胀和爆炸
Melting, Bubblelike Expansion, and Explosion of Superheated Plasmonic Nanoparticles.
作者信息
Dold Simon, Reichenbach Thomas, Colombo Alessandro, Jordan Jakob, Barke Ingo, Behrens Patrick, Bernhardt Nils, Correa Jonathan, Düsterer Stefan, Erk Benjamin, Fennel Thomas, Hecht Linos, Heilrath Andrea, Irsig Robert, Iwe Norman, Kolb Patrice, Kruse Björn, Langbehn Bruno, Manschwetus Bastian, Marienhagen Philipp, Martinez Franklin, Meiwes-Broer Karl-Heinz, Oldenburg Kevin, Passow Christopher, Peltz Christian, Sauppe Mario, Seel Fabian, Tanyag Rico Mayro P, Treusch Rolf, Ulmer Anatoli, Walz Saida, Moseler Michael, Möller Thomas, Rupp Daniela, von Issendorff Bernd
机构信息
University of Freiburg, Institute of Physics, Hermann-Herder-Straße 3, 79104 Freiburg, Germany.
European XFEL GmbH, Holzkoppel 4, 22869 Schenefeld, Germany.
出版信息
Phys Rev Lett. 2025 Apr 4;134(13):136101. doi: 10.1103/PhysRevLett.134.136101.
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 resulting solely from whether and where the stability limit of the metastable superheated liquid is crossed.
我们报告了通过等离子体共振强烈加热的气相银纳米颗粒的时间分辨相干衍射成像。X射线衍射图像揭示了不同激发强度下的一系列广泛现象,从简单熔化到强烈空化再到爆炸分解。分子动力学模拟完全再现了这种行为,并表明在所有情况下,加热在相图中诱导出相当相似的轨迹,结果的巨大差异仅仅源于亚稳态过热液体的稳定性极限是否以及在何处被跨越。
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