Add to ORKG\u3cp\u3eThe electrical resistivity of thin gold films deposited on amorphous substrates is found to increase with decreasing film thickness. The temperature-dependent part of the resistivity, however, is independent of the film thickness. This observation cannot be reconciled with existing theories that deal with surface scattering effects. We show that electron scattering at grain boundaries explains our measurements. Moreover, the main effect of the surface appears to be a change in the effective Debye temperature.\u3c/p\u3
The electron-phonon relaxation and electrical resistivity of several polycrystalline thin gold films...
The temperature coefficients of the resistivity (TCR) of Cu, Ru, Co, Ir, and W thin films have been ...
In general the electrical resistivity of metal specimens does not depend on their size. At low tempe...
In order to study the effect of electron-surface scattering in gold ultrathin films (∼10 nm), we hav...
We analyze the thickness and temperature dependence of the resistivity for several gold films on mic...
Artículo de publicación ISIThe resistivity of metallic structures depends on both electron-grain bou...
Studies of the thickness dependence of the temperature coefficient of resistivity and the ratio of r...
A central question regarding thin metallic films is how does the roughness of the film affect its el...
The resistivity of single-layered thin copper films with thickness of 17-124 nm, is studied as a fun...
Artículo de publicación ISIWe report the thickness dependence of the resistivity measured at 4 K of ...
Properties of materials in nano-scale are very different from those in bulk form. The electrical res...
Controlling the electrical resistance of granular thin films is of great importance for many applica...
WOS: A1993KL07000007The resistivity of single-layered thin copper films with thicknesses of 17-124 n...
Artículo de publicación ISIWe report a comparison between the resistivity measured on thin gold film...
Electrical resistivity vs. temperature, ρ(T), measurements have been performed on thin gold films le...
The electron-phonon relaxation and electrical resistivity of several polycrystalline thin gold films...
The temperature coefficients of the resistivity (TCR) of Cu, Ru, Co, Ir, and W thin films have been ...
In general the electrical resistivity of metal specimens does not depend on their size. At low tempe...
In order to study the effect of electron-surface scattering in gold ultrathin films (∼10 nm), we hav...
We analyze the thickness and temperature dependence of the resistivity for several gold films on mic...
Artículo de publicación ISIThe resistivity of metallic structures depends on both electron-grain bou...
Studies of the thickness dependence of the temperature coefficient of resistivity and the ratio of r...
A central question regarding thin metallic films is how does the roughness of the film affect its el...
The resistivity of single-layered thin copper films with thickness of 17-124 nm, is studied as a fun...
Artículo de publicación ISIWe report the thickness dependence of the resistivity measured at 4 K of ...
Properties of materials in nano-scale are very different from those in bulk form. The electrical res...
Controlling the electrical resistance of granular thin films is of great importance for many applica...
WOS: A1993KL07000007The resistivity of single-layered thin copper films with thicknesses of 17-124 n...
Artículo de publicación ISIWe report a comparison between the resistivity measured on thin gold film...
Electrical resistivity vs. temperature, ρ(T), measurements have been performed on thin gold films le...
The electron-phonon relaxation and electrical resistivity of several polycrystalline thin gold films...
The temperature coefficients of the resistivity (TCR) of Cu, Ru, Co, Ir, and W thin films have been ...
In general the electrical resistivity of metal specimens does not depend on their size. At low tempe...