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Quantum device microfabrication: Resolution limits of ion beam patterning

机译：量子器件微细加工：离子束构图的分辨率极限

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摘要

We have achieved precise control of the lateral electrical damage accompanying ion beam patterning of submicron electron devices from semiconductor materials. In situ transport measurements, made in the etching chamber during the definition process, provide an exact and reproducible means of end-point detection, irrespective of material structure and ion beam parameters. We apply this to routinely fabricate conducting channels having widths below 100 nm from high-mobility GaAs/AlGaAs heterojunctions. Subsequent low-temperature magnetotransport measurements and successive optimization of processing conditions enable us to systematically obtain the minimum conducting width. Through these studies we explore the ultimate resolution limits of the ion beam patterning process.

机译：我们已经实现了对伴随半导体材料的亚微米电子器件的离子束构图的横向电损伤的精确控制。在定义过程中在蚀刻室中进行的原位传输测量提供了一种精确且可重复的终点检测手段，而与材料结构和离子束参数无关。我们将其应用于从高迁移率GaAs / AlGaAs异质结常规制造宽度小于100 nm的导电沟道。随后的低温磁运输测量和工艺条件的连续优化使我们能够系统地获得最小导电宽度。通过这些研究，我们探索了离子束构图过程的极限分辨率极限。

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Scherer A.; Roukes M. L.;
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年度 1989
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原文格式 PDF
正文语种 {"code":"en","name":"English","id":9}
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Quantum device microfabrication: Resolution limits of ion beam patterning

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