Neutralization of the Surface Charge of an Insulated Target under the Interaction of High-Energy Metal Ion Beams

IF 1.3 Q3 INSTRUMENTS & INSTRUMENTATION

Quantum Beam Science Pub Date : 2023-05-29 DOI:10.3390/qubs7020017

Konstantin P. Savkin, Efim M. Oks, Alexey G. Nikolaev, Georgy Yu. Yushkov

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Abstract

The interaction of ion beams with dielectric materials is an urgent problem, both from the point of view of practical application in ion implantation processes and for understanding the fundamental processes of charge compensation and the effective interaction of beam ions with a target surface. This paper presents the results of studies of the processes of compensation of the surface charge of an insulated collector upon interaction with a beam of metal ions with energies up to 50–150 keV. At low pressure (about 10−6 torr), removing the collector from the region of extraction and beam formation makes it possible to reduce the floating potential to a value of 5–10% of the total accelerating voltage. This phenomenon allows for the efficient implantation of metal ions onto the surface of alumina ceramics. We have shown that the sheet resistance of dielectric targets depends on the material of the implanted metal ions and decreases with an increase in the implantation dose by 3–4 orders of magnitude compared with the initial value at the level of 1012 Ω per square.

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高能金属离子束作用下绝缘靶表面电荷的中和

无论是从离子注入过程的实际应用角度，还是从了解电荷补偿的基本过程和离子束与目标表面的有效相互作用的角度来看，离子束与介电材料的相互作用都是一个迫切需要解决的问题。本文介绍了绝缘集热器与能量高达50-150 keV的金属离子束相互作用时表面电荷补偿过程的研究结果。在低压(约10−6 torr)下，将集电极从提取和束形成区域移除，可以将浮动电位降低到总加速电压的5-10%。这种现象允许金属离子有效地植入到氧化铝陶瓷表面。我们已经证明，介电靶的片电阻取决于注入金属离子的材料，并且随着注入剂量的增加，与初始值相比，在每平方1012 Ω的水平上下降了3-4个数量级。

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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