Generating spokes in direct current magnetron sputtering discharges by an azimuthal strong-to-weak magnetic field strength transition

Plasma Sources Science and Technology Pub Date : 2024-03-18 DOI:10.1088/1361-6595/ad34f7

M. Rudolph, Wahyu Diyatmika, Oliver Rattunde, Edmund Schüngel, D. Kalanov, Jörg Patscheider, André Anders

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Abstract

Spokes are regions of enhanced ionization in magnetron sputtering discharges that are interesting because of their role for magnetron operation and their potential effect on deposition processes. Here, we show that spokes can intentionally be generated by introducing a strong-to-weak magnetic field strength transition along the racetrack. Spokes are triggered at the transition point from an accelerating electron drift when weakening the magnetic field strength. The spokes are then propagating against the electron drift into the strong magnetic field strength section of the racetrack. At the weak-to-strong magnetic field transition, we observe the inverse effect. The electron drift is decelerated at this point, creating a region of enhanced optical emission. From rectangular racetracks this is known as the cross-corner effect. Here, we show that a corner is not necessary for observing that effect. Pronounced spokes at low working gas pressure of 0.2 Pa exhibit a substructure that could be caused by the diocotron instability previously predicted by computer simulations.

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通过方位角强弱磁场强度转换在直流磁控溅射放电中产生辐条

辐条是磁控溅射放电中电离增强的区域，由于其对磁控管运行的作用及其对沉积过程的潜在影响，因此非常有趣。在这里，我们展示了可以通过沿赛道引入强弱磁场强度转换来有意生成辐条。磁场强度减弱时，加速电子漂移会在过渡点触发辐条。然后，辐条逆着电子漂移传播到赛道的强磁场强度部分。在弱磁场向强磁场过渡时，我们观察到了反向效应。此时电子漂移减速，形成一个增强的光发射区域。在矩形赛道中，这种现象被称为交叉角效应。在这里，我们展示了观察这种效应并不需要拐角。在 0.2 Pa 的低工作气体压力下，发音辐条显示出一种亚结构，这种亚结构可能是由之前计算机模拟预测的二重子不稳定性引起的。

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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Plasma Sources Science and Technology

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