衍射
材料科学
散射
互易晶格
氦
氟化锂
电子衍射
光学
分子物理学
原子物理学
物理
核物理学
作者
Nick A. von Jeinsen,Sam Lambrick,Matthew Bergin,Aleksandar Radić,Boyao Liu,Dan Seremet,A. P. Jardine,David J. Ward
标识
DOI:10.1103/physrevlett.131.236202
摘要
A method for measuring helium atom diffraction with micron-scale spatial resolution is demonstrated in a scanning helium microscope (SHeM) and applied to study a micron-scale spot on the (100) plane of a lithium fluoride (LiF) crystal. The positions of the observed diffraction peaks provide an accurate measurement of the local lattice spacing, while a combination of close-coupled scattering calculations and Monte Carlo ray-tracing simulations reproduce the main variations in diffracted intensity. Subsequently, the diffraction results are used to enhance image contrast by measuring at different points in reciprocal space. The results open up the possibility for using helium microdiffraction to characterize the morphology of delicate or electron-sensitive materials on small scales. These include many fundamentally and technologically important samples which cannot be studied in conventional atom scattering instruments, such as small grain size exfoliated 2D materials, polycrystalline samples, and other surfaces that do not exhibit long-range order.
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