过冷
成核
亚稳态
经典成核理论
材料科学
相变
热力学
化学物理
Crystal(编程语言)
结晶
氩
氪
凝聚态物理
物理
原子物理学
量子力学
程序设计语言
计算机科学
作者
Johannes Möller,Alexander Schottelius,Michele Caresana,Ulrike Boesenberg,Chan Kim,Francesco Dallari,Tiberio A. Ezquerra,J. M. Fernández,Luca Gelisio,Andrea Glaesener,Claudia Goy,Jörg Hallmann,Anton Kalinin,Ruslan P. Kurta,Dmitry Lapkin,Felix Lehmkühler,Francesco Mambretti,Markus Scholz,Roman Shayduk,Florian Trinter
标识
DOI:10.1103/physrevlett.132.206102
摘要
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.
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