短长度尺度下液-气界面的X射线同步加速器研究：长程力和弯曲能的影响

X-ray synchrotron study of liquid-vapor interfaces at short length scales: effect of long-range forces and bending energies.

作者信息

Mora S, Daillant J, Mecke K, Luzet D, Braslau A, Alba M, Struth B

机构信息

LURE, Centre Universitaire Paris-sud, bâtiment 209D, BP34, F-91898 Orsay cedex, France.

出版信息

Phys Rev Lett. 2003 May 30;90(21):216101. doi: 10.1103/PhysRevLett.90.216101. Epub 2003 May 27.

DOI:10.1103/PhysRevLett.90.216101

PMID:12786565

Abstract

We have investigated the small-scale structure of the liquid-vapor interface using synchrotron x-ray scattering for liquids with different molecular structures and interactions. The effective momentum-dependent surface energy first decreases from its macroscopic value due to the effect of long-range forces, and then increases with increasing wave vector. The results are analyzed using a recent density functional theory. The large wave-vector increase is attributed to a bending energy for which local and nonlocal contributions are equally important.

摘要

我们使用同步加速器X射线散射研究了具有不同分子结构和相互作用的液体的液-气界面的小尺度结构。由于长程力的作用，有效动量相关表面能首先从其宏观值下降，然后随着波矢增加而增加。使用最近的密度泛函理论对结果进行了分析。大波矢增加归因于弯曲能，其中局部和非局部贡献同样重要。

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短长度尺度下液-气界面的X射线同步加速器研究：长程力和弯曲能的影响

X-ray synchrotron study of liquid-vapor interfaces at short length scales: effect of long-range forces and bending energies.

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