Dielectric cracking produced by electromigration in microelectronic interconnects.

Autor: Chiras, S., Clarke, D. R.
Předmět:
Zdroj: Journal of Applied Physics; 12/1/2000, Vol. 88 Issue 11, p6302, 11p
Abstrakt: The development of stress during electromigration along Al lines, constrained within a dielectric in a coplanar test configuration, is measured. It is shown that, above a certain threshold current density, cracking of the dielectric is induced in the vicinity of the anode. Cracking of the dielectric leads to loss of mechanical constraint on the aluminum conductor which, in turn, leads to increases in electrical resistance with continued current flow. The electromigration-induced stresses are determined from the measured frequency shifts induced in a novel ruby strain sensor embedded immediately beneath the interconnect line on a sapphire substrate. The transparency of the sapphire substrate also facilitated the observation of a hitherto unreported form of dielectric cracking, namely cracking from the interconnect along internal interfaces. The observations of dielectric cracking are in agreement with a recent fracture mechanics model. Analysis of the stress data, together with the results of finite element calculations of the strain energy release rate for crack extension, gives a quantitative estimate of the effective valence Z[sup *](=1.3±0.2) for aluminum. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]
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