真空エレクトロスプレーを用いるイオン銃の開発;真空エレクトロスプレーを用いるイオン銃の開発;Development of an Ion Gun Using Vacuum Electrospray

Journal of The Vacuum Society of Japan Pub Date : 2017-01-01 DOI:10.3131/JVSJ2.60.321

Satoshi Ninomiya, Yuji Sakai, Lee Chuin Chen, Kenzo Hiraoka

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引用次数: 1

Abstract

Atmospheric pressure electrospray had been used previously in our laboratory to generate massive cluster ion beam for charged droplet ionization; a method we called electrospray droplet impact (EDI). Previous ion gun that employed atmospheric pressure electrospray lacks adequate beam current and density for surface and interface analysis. To improve the EDI beam performance, we have proposed a technique for producing a stable electrospray of aqueous solution under vacuum. It is well known that vacuum electrospray of volatile liquids is di‹cult because of the freezing of the liquids by evaporative cooling under vacuum. Vacuum electrospray of aqueous solution was achieved by irradiating the tip of the electrospray emitter with infrared or near-infrared laser to prevent the freezing under high vacuum (<0.05 Pa). A stable and large beam current was also obtained by optimizing the vacuum electrospray conditions. On the basis of these results, the vacuum electrospray can be expected to be a high-performance massive cluster ion gun.

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开发使用真空电子喷胶的离子枪;开发使用真空电子喷胶的离子枪;Development of an Ion Gun Using Vacuum Electrospray

本实验室以前使用常压电喷雾产生大质量簇束离子束，使带电液滴电离;我们称之为电喷雾液滴撞击(EDI)的方法。以前使用常压电喷雾的离子枪缺乏足够的光束电流和密度来进行表面和界面分析。为了提高EDI光束的性能，我们提出了一种在真空条件下制备稳定水溶液电喷雾的技术。众所周知，挥发性液体的真空电喷雾是不可行的，因为液体在真空条件下通过蒸发冷却而冻结。为了防止水溶液在高真空(<0.05 Pa)下冻结，采用红外或近红外激光照射电喷雾发射器尖端，实现了水溶液的真空电喷雾。通过对真空电喷雾条件的优化，获得了稳定的大电流。基于这些结果，真空电喷雾有望成为一种高性能的大质量簇离子枪。

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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Journal of The Vacuum Society of Japan

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