Microwave response and electrical transport studies of disordered s wave superconductor: NbN thin films

Abstract

It is now well known that the properties of the disordered s wave superconductors can deviate significantly from the prediction of standard Bardeen-Cooper-Schrieffer (BCS) theory. By measuring the temperature dependence of the resonance frequency, f0, of microwave resonators made from disordered NbTiN and TiN thin films, at low temperatures, below half of the superconducting critical temperature, Tc, Driessen et al. driessen2012PRL demonstrated that f0 vanishes faster than predicted from the BCS theory. Here, we report on the temperature dependence of f0 of microwave resonators made from disordered NbN thin films at higher temperatures--- typically from 0.4 to 0.8Tc. In this temperature range, we demonstrate that f0 vanishes slower than predicted from the BCS theory. We discuss the possible role of electronic inhomogeneity and possibility of appearing a pseudogap-like feature. We also discuss the possibility of a faster downturn of the superfluid density, ns, near Tc, resembling a Berezinski--Kosterlitz--Thoules (BKT) type transition.