Title :
Fracture Toughness Assessment of Patterned Cu-Interconnect Stacks by Dual-Cantilever-Beam (DCB) Technique
Author :
Chumakov, Dmytro ; Lindert, Frank ; Lehr, Matthias U. ; Grillberger, Michael ; Zschech, Ehrenfried
Author_Institution :
Global Foundries Dresden Module One Ltd., Liability Co. KG, Dresden, Germany
Abstract :
Dual cantilever beam (DCB) mechanical testing is applied to two kinds of chips, manufactured in the 45 nm technology node. Both chips consist of different numbers of ultra low-k (ULK) dielectric layers, however, they have similarly designed crack-stop structures. It is shown that in all cases, cohesive cracking occurred in the upper ULK layers. The crack-stops hamper the crack propagation, and cracks are deflected outside the interconnect stack. The paths of the deflected crack fronts are FIB-sectioned and imaged in SEM. The increasing number of ULK layers leads to decrease in effective Gc of the stack.
Keywords :
cracks; fracture toughness testing; integrated circuit interconnections; crack propagation; crack-stop structures; dual-cantilever-beam technique; fracture toughness assessment; mechanical testing; patterned Cu-interconnect stacks; ultra low-k dielectric layers; Adhesion; CPI; ULK; integrated circuit interconnections; microprocessors; reliability estimation; semiconductor device mechanical factors;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2009.2031794
