21纳米间距无障钌填充互连的介电可靠性研究

2020 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2020-04-01 DOI:10.1109/IRPS45951.2020.9129246

A. Lesniewska, P. Roussel, D. Tierno, V. Vega-Gonzalez, M. V. Veen, P. Verdonck, N. Jourdan, Christopher J. Wilson, Z. Tökei, K. Croes

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引用次数: 7

摘要

我们评估了21 nm间距互连在高密度低k中集成并使用无障钌填充方案的介电可靠性性能。我们展示了我们的线对线和尖端对尖端TDDB在0.75 V下的寿命超过10年，分别与技术相关的线长度和尖端数量。无金属漂移的固有介电击穿被证明使用BTS-TVS测量。我们还利用平面电容器结构研究了介电尺度对低维的影响。我们观察到，随着厚度的减少，场加速因子的增加可能表明，在较薄的电介质中存在不同的、较慢的退化机制，从而导致规模互连的可靠性裕度更高。

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Dielectric Reliability Study of 21 nm Pitch Interconnects with Barrierless Ru Fill

We evaluate the dielectric reliability performance of 21 nm pitch interconnects integrated in a dense low-k and using a barrierless Ru fill scheme. We show our line-to-line and tip-to-tip TDDB pass 10 years of lifetime at 0.75 V for technology relevant line lengths and number of tips, respectively. Intrinsic dielectric breakdown without metal drift is demonstrated using BTS-TVS measurements. We also investigate the impact of dielectric scaling towards lower dimensions using planar capacitor structures. We observe an increasing field acceleration factor with decreasing thickness possibly suggesting different, slower, degradation mechanisms being present in the thinner dielectrics leading towards more reliability margin for scaled interconnects.

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2020 IEEE International Reliability Physics Symposium (IRPS)

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