Superconductivity-localization interplay and fluctuation magnetoresistance in epitaxial BaPb1-xBixO3 thin films

Abstract

BaPb1-xBixO3 is a superconductor, with transition temperature Tc=11 K, whose parent compound BaBiO3 possess a charge ordering phase and perovskite crystal structure reminiscent of the cuprates. The lack of magnetism simplifies the BaPb1-xBixO3 phase diagram, making this system an ideal platform for contrasting high-Tc systems with isotropic superconductors. Here we use high-quality epitaxial thin films and magnetotransport to demonstrate superconducting fluctuations that extend well beyond Tc. For the thickest films (thickness above 100 nm) this region extends to 27 K, well above the bulk Tc and remarkably close to the higher Tc of Ba1-xKxBiO3 (Tc=31 K). We drive the system through a superconductor-insulator transition by decreasing thickness and find the observed Tc correlates strongly with disorder. This material manifests strong fluctuations across a wide range of thicknesses, temperatures, and disorder presenting new opportunities for understanding the precursor of superconductivity near the 2D-3D dimensionality crossover.