Crossover of Superconductivity across the antiferromagnetic end point in FeSe 1-xS x under pressure

Abstract

Temperature-pressure (T-P) phase diagrams of FeSe 1-xS x were investigated by the measurements of dc magnetization (M) and electrical resistivity () under pressure, using single crystal specimens with x=0.04, 0.08 and 0.13. For all specimens, the M(T) curves under pressure near the end point of the antiferromagnetic (AFM) phase are found to show a two-step diamagnetic response, which can be described as the sum of two diamagnetic components M1(T) and M2(T), indicating that two superconducting (SC) phases with different T c values coexist within a pressure range of 1 GPa. Moreover, the pressure dependence of the amplitudes of M1(T) and M2(T) indicates a continuous transfer of the volume fraction between the two SC phases. These behaviors suggest that a crossover of superconductivity occurs in conjunction with the emergence of AFM phase and imply that the SC phases inside and outside the AFM phase could have different origins.