用于超高分辨率X射线显微镜的先进薄膜技术。

Advanced thin film technology for ultrahigh resolution X-ray microscopy.

作者信息

Vila-Comamala Joan, Jefimovs Konstantins, Raabe Jörg, Pilvi Tero, Fink Rainer H, Senoner Mathias, Maassdorf Andre, Ritala Mikko, David Christian

机构信息

Paul Scherrer Institut, CH-5232 Villigen, Switzerland.

出版信息

Ultramicroscopy. 2009 Oct;109(11):1360-4. doi: 10.1016/j.ultramic.2009.07.005. Epub 2009 Jul 15.

DOI:10.1016/j.ultramic.2009.07.005

PMID:19640649

Abstract

Further progress in the spatial resolution of X-ray microscopes is currently impaired by fundamental limitations in the production of X-ray diffractive lenses. Here, we demonstrate how advanced thin film technologies can be applied to boost the fabrication and characterization of ultrahigh resolution X-ray optics. Specifically, Fresnel zone plates were fabricated by combining electron-beam lithography with atomic layer deposition and focused ion beam induced deposition. They were tested in a scanning transmission X-ray microscope at 1.2 keV photon energy using line pair structures of a sample prepared by metal organic vapor phase epitaxy. For the first time in X-ray microscopy, features below 10nm in width were resolved.

摘要

目前，X射线显微镜空间分辨率的进一步提高受到X射线衍射透镜制造方面基本限制的阻碍。在此，我们展示了先进的薄膜技术如何能够用于促进超高分辨率X射线光学器件的制造和表征。具体而言，通过将电子束光刻与原子层沉积以及聚焦离子束诱导沉积相结合，制造出了菲涅耳波带片。使用金属有机气相外延制备的样品的线对结构，在1.2keV光子能量的扫描透射X射线显微镜中对它们进行了测试。在X射线显微镜中首次分辨出了宽度低于10nm的特征。

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用于超高分辨率X射线显微镜的先进薄膜技术。

Advanced thin film technology for ultrahigh resolution X-ray microscopy.

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