Abstract

The surface resistance, R s , of niobium (Nb) films has been experimentally investigated as a function of thickness, preparation technique and substrate material at 8.86 GHz. Nb films were prepared by either sputtering or evaporation in the thickness range Between 0.1 μm and 3.0 μm on either copper (Cu) or sapphire substrate. R s was determined using a cylindrical TE 011 mode resonant cavity with one removable end-plate which was utilized as the test substrate. The low field R s at 4.2 K is lower than that of bulk Nb and shows good agreement with BCS calculation which takes into account the effects of mean free path. The temperature dependence of R s indicates a normalized film gap parameter, Δ(0)/KT c , nearly equivalent to the bulk value for most of the films. At low temperatures, R s is dominated by residual resistance (R 0 ) which approaches 1 μΩ. The overall characteristics of Nb on Cu (Nb/Cu) indicate that this composite material is potentially useful in applications requiring high rf field as well as high thermal stability.

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