Crystal Nucleation in Supercooled Atomic Liquids

The liquid-to-solid phase transition is a complex process that is difficult to investigate experimentally with sufficient spatial and temporal resolution. A key aspect of the transition is the formation of a critical seed of the crystalline phase in a supercooled liquid, that is, a liquid in a metas...

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Published in:Physical review letters 2024-05, Vol.132 (20), p.206102-206102, Article 206102
Main Authors: Möller, Johannes, Schottelius, Alexander, Caresana, Michele, Boesenberg, Ulrike, Kim, Chan, Dallari, Francesco, Ezquerra, Tiberio A, Fernández, José M, Gelisio, Luca, Glaesener, Andrea, Goy, Claudia, Hallmann, Jörg, Kalinin, Anton, Kurta, Ruslan P, Lapkin, Dmitry, Lehmkühler, Felix, Mambretti, Francesco, Scholz, Markus, Shayduk, Roman, Trinter, Florian, Vartaniants, Ivan A, Zozulya, Alexey, Galli, Davide E, Grübel, Gerhard, Madsen, Anders, Caupin, Frédéric, Grisenti, Robert E
Format: Article
Language:English
Subjects:
Condensed Matter
Materials Science
Physics
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Summary:The liquid-to-solid phase transition is a complex process that is difficult to investigate experimentally with sufficient spatial and temporal resolution. A key aspect of the transition is the formation of a critical seed of the crystalline phase in a supercooled liquid, that is, a liquid in a metastable state below the melting temperature. This stochastic process is commonly described within the framework of classical nucleation theory, but accurate tests of the theory in atomic and molecular liquids are challenging. Here, we employ femtosecond x-ray diffraction from microscopic liquid jets to study crystal nucleation in supercooled liquids of the rare gases argon and krypton. Our results provide stringent limits to the validity of classical nucleation theory in atomic liquids, and offer the long-sought possibility of testing nonclassical extensions of the theory.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.132.206102