Enhanced superconductivity with possible re-appearance of charge density wave states in polycrystalline Cu1-xAgxIr2Te4 alloys

Abstract

In this study, we determined the effect of doping with the noble metal Ag on Ir2Te4 superconductors. Based on the resistivity, magnetization, and heat capacity, we explored the changes in the superconductivity and charge density wave for Cu1-xAgxIr2Te4 as a function of isoelectric substitution. We assessed a complete set of competing states from suppressed charge density wave in the low doping region to superconductor in the middle doping region and re-entrant charge density wave in the high doping region, thereby obtaining an electronic phase diagram, where the superconducting dome was near bipartite charge density wave regions with a maximum superconducting temperature Tc of about 2.93 K at an Ag doping level of 12%. The lower Hc1 and upper Hc2 critical magnetic fields were determined for some representative samples in the Cu1-xAgxIr2Te4 series based on magnetization and resistivity measurements, respectively. We showed that Hc1 decreased whereas Hc2 increased as the doping content increased. The specific heat anomalies at the superconducting transitions Cel/γ Tc for representative samples comprising Cu0.92Ag0.08Ir2Te4, Cu0.88Ag0.12Ir2Te4, and Cu0.85Ag0.15Ir2Te4 were approximately 1.40, 1.44, and 1.42, respectively, which are all near the Bardeen-Cooper-Schrieffer value of 1.43 and they indicate bulk superconductivity in these compounds.

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