Characterization of Sub-micron Metal Line Arrays Using Picosecond Ultrasonics

M. Mehendale, M. Kotelyanskii, R. Mair, P. Mukundhan, J. Bogdanowicz, L. Teugels, A. Charley, P. Kuszewski
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Abstract

Characterization of patterned nanostructures in modern nanoelectronic memory and logic devices using traditional optical critical dimension (OCD) metrology technique faces challenges as the structures become optically opaque. In this paper, we present the picosecond ultrasonic (PU) based acoustic metrology technique as a viable option to characterize periodically patterned nanostructures. Specifically, we evaluate the sensitivity of PU to metal line arrays of various geometries and show that the frequency profile of generated acoustics is dependent on the sample geometry including the pitch and width of the metal lines exposed. We also demonstrate that the signal is sensitive to the presence of the lines embedded under a blanket layer of the same metal.
用皮秒超声表征亚微米金属线阵列
现代纳米电子存储和逻辑器件中图像化纳米结构的表征面临着传统光学临界尺寸(OCD)计量技术的挑战,因为这些结构具有光学不透明性。在本文中,我们提出了皮秒超声(PU)为基础的声学测量技术作为一个可行的选择,以表征周期性图案纳米结构。具体来说,我们评估了PU对各种几何形状的金属线阵列的灵敏度,并表明产生的声学频率分布取决于样品几何形状,包括暴露的金属线的间距和宽度。我们还证明,该信号是敏感的存在线嵌入在同一金属的毯子层。
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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