Study of Ti/TiN bump defect formation mechanism and elimination by etch process optimization

2018 29th Annual SEMI Advanced Semiconductor Manufacturing Conference (ASMC) Pub Date : 2018-04-01 DOI:10.1109/ASMC.2018.8373147

Lili Wu, Yuan-Chieh Chiu, Zusing Yang, Sheng-Yuan Chang, Hong-Ji Lee, N. Lian, Tahone Yang, Kuang-Chao Chen, Chih-Yuan Lu

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引用次数: 1

Abstract

Subtle Ti/TiN bump defects are observed after thermal annealing in the development step of a back-end-of-line (BEOL) via metallization. It disturbs the endpoint detection of a sequential tungsten (W) chemical-mechanical planarization (CMP) process and results in W residue on the surface of the wafer. SIMS analysis conducted before Ti/TiN deposition indicates the presence of high concentrations of fluorine (F) atoms that have already doped into the oxide film after the via hole plasma etching process, even in the presence of an amorphous carbon hard-mask. The doped F species could diffuse out of the surface region, and then react with as-deposited Ti/TiN to form volatile TiF4 during high-temperature annealing. As a result, severe metallic bump-like defects are observed. In this study, we report that the formation of the metallic bump defect is correlated to both the RF bias frequency, and the RF bias power applied in the capacitive-coupled fluorocarbon plasma via feature etching.

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Ti/TiN凹凸缺陷形成机理及蚀刻工艺优化消除研究

在金属化后端线(BEOL)的发展过程中，热处理后观察到细微的Ti/TiN凹凸缺陷。它干扰了连续钨(W)化学机械平面化(CMP)过程的端点检测，导致W残留在晶圆片表面。在Ti/TiN沉积之前进行的SIMS分析表明，即使在无定形碳硬掩膜存在的情况下，也存在高浓度的氟(F)原子，这些氟(F)原子已经在通孔等离子体蚀刻过程后掺杂到氧化膜中。在高温退火过程中，掺杂的F可以扩散出表面区域，然后与沉积的Ti/TiN反应形成挥发性的TiF4。结果，观察到严重的金属凸起状缺陷。在这项研究中，我们报告了金属凹凸缺陷的形成与射频偏压频率和射频偏压功率在电容耦合氟碳等离子体中的特征蚀刻有关。

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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2018 29th Annual SEMI Advanced Semiconductor Manufacturing Conference (ASMC)

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