Electron weak localization, and electron–phonon interaction in amorphous zinc-doped indium oxide films

We have systematically investigated the temperature dependence of resistivity p and Hall coefficient R H of indium zinc oxide films with thickness d=350 nm in the temperature range 2.0 K to 300 K. Specimen films with p≃3-17 μΩ m (300 K) show metallic characteristics (pαT) at temperatures above 100 K. At low temperatures below 20 K, the resistivity slightly increases with decreasing temperature because of the quantum effects in disordered systems. By eliminating carefully quantum effects p quanta and the residual resistivity po, we have found that the resistivity changes in the form of pα poT 2 at temperatures below ≃100 K. This characteristic indicates the existence of resistivity pel-ph-imp due to the interference effect between the impurity scattering and the electron-phonon scattering. It has been found that the temperature dependence of p(T)for all present films agrees well with the sum of the Bloch-Griineisen term ρ el-Ph =βF(T,ΘD) and the interference term ρ el-ph-imp = B el-Ph-imp G(T,ΘD) in a temperature region 20 K to 300 K. From analyses, regarding the coefficients β, B el-Ph-imp , and the Debye temperature Θ D as fitting parameters, we obtain the Θ D ≃970-1060 K and the longitudinal sound velocity νl ≃ 14,000 m/s under some assumptions.