Pressure-induced superconductivity and robust Tc against external pressure in (Ge,Sn,Pb)Te

Abstract

The robustness of superconducting transition temperature (Tc) against external pressure in medium entropy alloy (MEA) and high entropy alloy (HEA) -type compounds has attracted significant interest with regards to the realization of stable superconducting applications. In this study, we have synthesized Ge1/3Sn1/3Pb1/3Te belonging to MEA-type MTe, where the M site comprises only isovalent group-14 elements, to depict a critical factor for the robustness of Tc. High-pressure electrical transport measurements and structural analysis reveal that the high-pressure phase of CsCl-type cubic structure exhibits the robustness of Tc against external pressure. Molecular dynamics simulation and density functional theory calculation suggest that the glassy atomic vibration characteristic mainly contributes to the appearance of the robustness. This insight accelerates the further development of unique properties within HEA superconductors and their applications.