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김채운

Kim, Chae Un
High Pressure X-ray Science Lab.
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Infrared-induced ultrafast melting of nanostructured platinum films probed by an x-ray free-electron laser

Author(s)
Gelisio, LucaKim, Young YongLim, Seon WooNam, DaewoongEom, IntaeKim, MinseokKim, SangsooKhubbutdinov, RuslanXiang, LiLee, HoyeolRee, MoonhorKim, Chae UnVartanyants, Ivan A.
Issued Date
2024-10
DOI
10.1103/PhysRevB.110.144303
URI
https://scholarworks.unist.ac.kr/handle/201301/84483
Citation
PHYSICAL REVIEW B, v.110, no.14, pp.144303
Abstract
Understanding non-equilibrium melting in metals is a topic of current interest. We investigated the solid-toliquid phase transition in platinum induced by femtosecond infrared radiation at different fluences. The evolution of the atomic structure was probed on the picoseconds timescale by x rays generated by an x-ray free-electron laser (XFEL). To analyze scattering data, we employed a model developed for liquid metals. We observed a compression field propagating into the nanostructured thin film sample, as well as partial melting for the infrared fluence of 200 mJ cm-2, corresponding to about 280 kJ kg-1 absorbed by the sample. Similar features were observed at higher infrared laser fluences. To support the interpretation of experimental findings, we performed two-temperature model simulations.
Publisher
AMER PHYSICAL SOC
ISSN
2469-9950
Keyword
THERMOPHYSICAL PROPERTIESFEMTOSECONDMETALSNANOPARTICLESTEMPERATURERESISTIVITYCATALYSTSPRESSUREABLATIONELEMENTS

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