Investigation of stress-induced voiding inside and under VIAS in copper interconnects with “wing” pattern

2008 IEEE International Reliability Physics Symposium Pub Date : 2008-07-09 DOI:10.1109/RELPHY.2008.4558987
H. Matsuyama, T. Suzuki, H. Ehara, K. Yanai, T. Kouno, S. Otsuka, N. Misawa, T. Nakamura, Y. Mizushima, M. Shiozu, M. Miyajima, K. Shono
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引用次数: 8

Abstract

Stress induce voiding (SIV) inside and under vias in copper interconnects with ldquowingrdquo-pattern were investigated for 90 nm and 65 nm node processes. The difference of two voidings are the resistance change during acceleration test and the diffusion path. However, common features were found between both types of voiding; the interconnect fails fast as the ldquowingrdquo area grows. Both types of voiding have a critical ldquowingrdquo area where failure never occurs. Both of voiding is more affected by diffusion source than by stress gradient.
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“翼”型铜互连孔内及孔下应力致空洞研究
在90 nm和65 nm节点工艺下,研究了ldquowino - quo型铜互连孔内和孔下的应力诱导空化现象。两个空腔的差值分别是加速试验时的阻力变化和扩散路径。然而,在两种类型的排尿之间发现了共同的特征;随着面积的增长,互连会迅速失效。这两种类型的排空都有一个关键的排空区域,在这个区域内永远不会发生故障。扩散源对空化的影响大于应力梯度对空化的影响。
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2008 IEEE International Reliability Physics Symposium
2008 IEEE International Reliability Physics Symposium
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