Thermal stress and relaxation behaviour of Al(Cu) submicron interconnects

Proceedings of 4th International Conference on Solid-State and IC Technology Pub Date : 1995-10-24 DOI:10.1109/ICSICT.1995.500180

P. Ho, I. Yeo, C. Liao, S. Anderson, H. Kawasaki

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引用次数: 7

Abstract

This paper addresses the reliability problem of stress-induced void formation in submicron Al(Cu) interconnect metallization. The discussion is focused on the driving force for void formation which is investigated by examining the nature of the thermal stress and its relaxation characteristics of submicron interconnect structures. The recent experimental results obtained by bending beam and X-ray diffraction techniques on the thermal stress and stress relaxation in Al(Cu) interconnect metallization are reviewed. The results reveal that as passivated Al(Cu) lines become narrower, the metal exhibits increasingly elastic behaviour with higher stress levels, a combination of stress characteristics which favour void formation. Stress relaxation behaviour has been investigated in Al(Cu) line structures with line widths of 3, 1 and 0.5 microns at 150, 200 and 250/spl deg/C. Results are consistent with a thermally activated dislocation glide mechanism and the kinetics is controlled by a combined effects of mass transport (diffusion) and shear stress (driving force). Results of these studies and their impact on stress voiding are discussed.

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Al(Cu)亚微米互连的热应力和弛豫行为

本文研究了亚微米铝(铜)互连金属化过程中应力致空洞形成的可靠性问题。通过研究亚微米互连结构的热应力性质及其弛豫特性，重点讨论了孔隙形成的驱动力。综述了近年来利用弯曲光束和x射线衍射技术对铝(铜)互连金属化过程中的热应力和应力松弛的实验结果。结果表明，随着钝化Al(Cu)线变窄，金属在更高的应力水平下表现出越来越强的弹性行为，这是有利于空洞形成的应力特征的组合。研究了线宽为3,1和0.5微米的Al(Cu)线结构在150、200和250/spl℃下的应力松弛行为。结果与热激活的位错滑动机制一致，动力学受质量传递(扩散)和剪切应力(驱动力)的联合作用控制。讨论了这些研究结果及其对应激性排尿的影响。

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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Proceedings of 4th International Conference on Solid-State and IC Technology

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