In this work, the electromigration (EM) performance of electroplated damascene Cu is investigated by drift experiments on Blech-type test structures in both polycrystalline and bamboo microstructures. For the first, microtexture data were obtained from electron backscatter diffraction as well. While both bonding areas and 10 μm wide lines were found to have a predominantly random grain orientation, the drift studies indicated the importance of strongly segregating impurities in controlling Cu grain-boundary EM. For the bamboo lines, the impact of different barrier layers has been investigated, comparing Ta, TaN, and TiN. Drift was shown to proceed in all cases at the metallic Cu barrier interface, but faster for the Ta as compared to the Ta...
In-situ electromigration tests have been performed inside a scanning electron microscope on 30 nm wi...
Plastic deformation has been observed in damascene Cu interconnect test structures during an in-situ...
We report here an in-depth synchrotron radiation based white beam X-ray microdiffraction study of pl...
Recently Al was replaced by Cu as an interconnecting material. The primary objective of the present ...
Continuous scaling of Cu interconnect structures can significantly impact reliability-limiting proce...
An unexpected mode of plastic deformation was observed in damascene Cu interconnect test structure d...
The kinetics of cathode edge shrinkage and displacement (drift) coupled strongly with the grain boun...
AbstractThe kinetics of cathode edge shrinkage and displacement (drift) coupled strongly with the gr...
textThe scaling required to accommodate faster chip performance in microelectronic devices has neces...
International audienceIn this article, we focus on the possible influence of interconnect Cu microst...
Plastic behavior has previously been observed in metallic interconnects undergoing high current dens...
[[abstract]]The impact of dielectric materials on the reliability of advanced copper (Cu) interconne...
A novel physical model and a simulation algorithm are used to predict electromigration (EM)-induced ...
Plastic behavior has previously been observed in metallic interconnects undergoing high-current-dens...
Electromigration is one of the major cause of copper interconnect degradation which limits reliabili...
In-situ electromigration tests have been performed inside a scanning electron microscope on 30 nm wi...
Plastic deformation has been observed in damascene Cu interconnect test structures during an in-situ...
We report here an in-depth synchrotron radiation based white beam X-ray microdiffraction study of pl...
Recently Al was replaced by Cu as an interconnecting material. The primary objective of the present ...
Continuous scaling of Cu interconnect structures can significantly impact reliability-limiting proce...
An unexpected mode of plastic deformation was observed in damascene Cu interconnect test structure d...
The kinetics of cathode edge shrinkage and displacement (drift) coupled strongly with the grain boun...
AbstractThe kinetics of cathode edge shrinkage and displacement (drift) coupled strongly with the gr...
textThe scaling required to accommodate faster chip performance in microelectronic devices has neces...
International audienceIn this article, we focus on the possible influence of interconnect Cu microst...
Plastic behavior has previously been observed in metallic interconnects undergoing high current dens...
[[abstract]]The impact of dielectric materials on the reliability of advanced copper (Cu) interconne...
A novel physical model and a simulation algorithm are used to predict electromigration (EM)-induced ...
Plastic behavior has previously been observed in metallic interconnects undergoing high-current-dens...
Electromigration is one of the major cause of copper interconnect degradation which limits reliabili...
In-situ electromigration tests have been performed inside a scanning electron microscope on 30 nm wi...
Plastic deformation has been observed in damascene Cu interconnect test structures during an in-situ...
We report here an in-depth synchrotron radiation based white beam X-ray microdiffraction study of pl...