Add to ORKGThe dominant role of grain boundary scattering in the low-temperature resistivity of both SiO(2) and Ta/SiO(2) encapsulated Cu thin films is demonstrated by the experimental variation and quantification of film thickness, roughness, and grain size. The independent variation in film thickness (28-158 nm) and grain size (35-466 nm) is achieved through subambient temperature film deposition followed by annealing. Experimentally measured film resistivities are compared with both surface scattering and grain boundary scattering models for the classical size effect, showing the dominance of the latter
This work addresses the resistivity increase in Cu interconnects with decreasing line width. Recent ...
The temperature coefficients of the resistivity (TCR) of Cu, Ru, Co, Ir, and W thin films have been ...
The scattering of conduction electrons by surface roughness has been considered a key contribution t...
The dominant role of grain boundary scattering in the low-temperature resistivity of both SiO2 and T...
We report a quantitative analysis of surface and grain boundary scattering in encapsulated Cu thin f...
The work addresses the resistivity increase in Cu interconnects with decreasing linewidth. The surfa...
We report a quantitative analysis of both surface and grain-boundary scattering in Cu thin films wit...
A methodology is developed to independently evaluate surface and grain boundary scattering in silico...
Surface and grain boundary electron scattering contribute significantly to resistivity as the dimens...
Crystal orientation mapping in the transmission electron microscope was used to quantify the twin bo...
The resistivity of single-layered thin copper films with thickness of 17-124 nm, is studied as a fun...
This work addresses the classical size effect in interconnect metals and presents the theoretical ba...
WOS: A1993KL07000007The resistivity of single-layered thin copper films with thicknesses of 17-124 n...
The relative contributions of various defects to the measured resistivity in nanocrystalline Cu were...
With continued shrinking of CMOS technology to reduce the gate delay times, an increase in the resis...
This work addresses the resistivity increase in Cu interconnects with decreasing line width. Recent ...
The temperature coefficients of the resistivity (TCR) of Cu, Ru, Co, Ir, and W thin films have been ...
The scattering of conduction electrons by surface roughness has been considered a key contribution t...
The dominant role of grain boundary scattering in the low-temperature resistivity of both SiO2 and T...
We report a quantitative analysis of surface and grain boundary scattering in encapsulated Cu thin f...
The work addresses the resistivity increase in Cu interconnects with decreasing linewidth. The surfa...
We report a quantitative analysis of both surface and grain-boundary scattering in Cu thin films wit...
A methodology is developed to independently evaluate surface and grain boundary scattering in silico...
Surface and grain boundary electron scattering contribute significantly to resistivity as the dimens...
Crystal orientation mapping in the transmission electron microscope was used to quantify the twin bo...
The resistivity of single-layered thin copper films with thickness of 17-124 nm, is studied as a fun...
This work addresses the classical size effect in interconnect metals and presents the theoretical ba...
WOS: A1993KL07000007The resistivity of single-layered thin copper films with thicknesses of 17-124 n...
The relative contributions of various defects to the measured resistivity in nanocrystalline Cu were...
With continued shrinking of CMOS technology to reduce the gate delay times, an increase in the resis...
This work addresses the resistivity increase in Cu interconnects with decreasing line width. Recent ...
The temperature coefficients of the resistivity (TCR) of Cu, Ru, Co, Ir, and W thin films have been ...
The scattering of conduction electrons by surface roughness has been considered a key contribution t...