Plasma PVD by small spiral Ta hollow cathodes

IF 3.8 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Vacuum Pub Date : 2024-09-11 DOI:10.1016/j.vacuum.2024.113638

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Abstract

Spiral hollow cathodes represent interesting options for local PVD applications. Radio frequency powered small diameter spiral hollow cathodes made from 0.45 mm diameter Ta wire rolled around 0.5 mm diameter rod were tested in PVD regimes on silicon substrates at the gas pressure of 400 Pa (3 Torr). The PVD of Ta and reactive PVD of Ta-N resulted in deposition rates of about 130 nm/min with maximum thickness in the center of the coating spots. However, part of the coating spots can be heavily eroded. At higher RF powers droplets from the melted Ta tip of the spiral can damage the coating and melt the Si substrate. The PVD rates of Ta in argon were similar as those for TaN. However, lower number of droplets of the melted Ta were formed in argon. The heating of the spiral outlet and its effect on the coating was also more intense in nitrogen than in argon. The temperature of the Si substrate table reached about 500 °C in 20 min in the nitrogen plasma and up to 400 °C in argon. This heating was higher on electrically grounded substrates than on the floating substrates. The effect of sharp outlet on possible eroding of the sample was confirmed by a sharp ended 1 mm diameter stainless steel medical needle used as a hollow cathode.

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利用小型螺旋状 Ta 空心阴极进行等离子体 PVD

螺旋空心阴极是局部 PVD 应用的有趣选择。在 400 Pa (3 Torr) 的气压条件下，在硅基底上测试了由直径 0.45 mm 的 Ta 线绕直径 0.5 mm 的棒卷制成的射频供电小直径螺旋空心阴极的 PVD 状态。Ta 的 PVD 和 Ta-N 的反应 PVD 使沉积速率达到约 130 nm/min，涂层点中心的厚度最大。但是，部分涂层点会受到严重侵蚀。在较高的射频功率下，螺旋顶端熔化的 Ta 液滴会损坏涂层并熔化硅基底。Ta 在氩气中的 PVD 率与 TaN 相似。但是，在氩气中形成的熔化 Ta 液滴数量较少。在氮气中，螺旋出口的加热及其对涂层的影响也比在氩气中强烈。在氮气等离子体中，硅基片台面的温度在 20 分钟内达到约 500 ℃，而在氩气中则高达 400 ℃。电接地基底的升温幅度高于浮动基底。用直径为 1 毫米的尖头不锈钢医用针头作为空心阴极，证实了尖头出口对样品可能产生的侵蚀作用。

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来源期刊

Vacuum 工程技术-材料科学：综合

CiteScore

6.80

自引率

17.50%

发文量

审稿时长

34 days

期刊介绍： Vacuum is an international rapid publications journal with a focus on short communication. All papers are peer-reviewed, with the review process for short communication geared towards very fast turnaround times. The journal also published full research papers, thematic issues and selected papers from leading conferences. A report in Vacuum should represent a major advance in an area that involves a controlled environment at pressures of one atmosphere or below. The scope of the journal includes: 1. Vacuum; original developments in vacuum pumping and instrumentation, vacuum measurement, vacuum gas dynamics, gas-surface interactions, surface treatment for UHV applications and low outgassing, vacuum melting, sintering, and vacuum metrology. Technology and solutions for large-scale facilities (e.g., particle accelerators and fusion devices). New instrumentation ( e.g., detectors and electron microscopes). 2. Plasma science; advances in PVD, CVD, plasma-assisted CVD, ion sources, deposition processes and analysis. 3. Surface science; surface engineering, surface chemistry, surface analysis, crystal growth, ion-surface interactions and etching, nanometer-scale processing, surface modification. 4. Materials science; novel functional or structural materials. Metals, ceramics, and polymers. Experiments, simulations, and modelling for understanding structure-property relationships. Thin films and coatings. Nanostructures and ion implantation.