Correlation of anomalous scattering and superconductivity in Pb.99Tl.01Te doped with additional indium donors

Abstract

Recent evidence for a charge-Kondo effect in superconducting samples of Pb1-xTlxTe [1] has brought renewed attention to the possibility of negative U superconductivity in this material, associated with valence fluctuations on the Tl impurity sites [2]. Here, we use indium as an electron-donor to counterdope Pb.99Tl.01Te and study the effect of the changing chemical potential on the Kondo-like physics and on the superconducting critical temperature, Tc. We find that, as the chemical potential moves away from the value where superconductivity, Kondo-like physics, and chemical potential pinning are expected, both Tc and the low-temperature resistance anomaly are suppressed. This provides further evidence that both the superconductivity and the Kondo-like behavior are induced by the same source, as anticipated in the negative U model.