Focused ion beams from GaBiLi liquid metal alloy ion sources for nanofabrication and ion imaging

Achim Nadzeyka, Torsten Richter, Paul Mazarov, Fabian Meyer, Alexander Ost, Lars Bruchhaus
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Abstract

In this work, we present an overview of nanopatterning and imaging applications using newly developed workflows with focused ion beams (FIBs) produced with a GaBiLi liquid metal alloy ion source. The primary beam of this source type contains gallium, bismuth, and lithium as well as cluster ions which can be separated quickly using a Wien filter. Lithium ion milling has been applied to generate heptamer-arranged nanohole arrays in gold films with high resolution. Workflows for two-step bowtie nanofabrication using lithium and bismuth ions from the same source have been established. Furthermore, we present ion beam imaging results that were obtained with lithium ions on various sample materials. Combining the large sputter yield and high depth resolution of heavy bismuth ions with the high lateral imaging resolution of light lithium ions enables 3D nanoscale tomography using different ion species generated from the same source. Sample tilt is not required due to the top-down geometry of the FIB.
来自GaBiLi液态金属合金离子源的聚焦离子束用于纳米制造和离子成像
在这项工作中,我们概述了使用由GaBiLi液态金属合金离子源产生的聚焦离子束(FIBs)新开发的工作流程的纳米图像化和成像应用。这种源型的主光束包含镓、铋、锂以及簇离子,这些簇离子可以用维恩过滤器快速分离。利用锂离子研磨技术在金薄膜上制备了高分辨率的七聚体排列纳米孔阵列。利用同一来源的锂离子和铋离子,建立了两步领结纳米制造的工作流程。此外,我们还介绍了锂离子在各种样品材料上获得的离子束成像结果。结合重铋离子的大溅射率和高深度分辨率以及轻锂离子的高横向成像分辨率,可以使用同一来源产生的不同离子进行3D纳米级断层扫描。由于FIB的自顶向下的几何形状,不需要样品倾斜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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