Pressure-induced superconductivity in quasi-one-dimensional semimetal Ta2 PdSe6

Abstract

Here we report the discovery of pressure-induced superconductivity in quasi-one-dimensional Ta2 PdSe6, through a combination of electrical transport, synchrotron x-ray diffraction, and theoretical calculations. Our transport measurements show that the superconductivity appears at a critical pressure Pc 18.3 GPa and is robust upon further compression up to 62.6 GPa. The estimated upper critical field μ0 Hc 2(0) in the pressurized Ta2 PdSe6 is much lower than the Pauli limiting field, in contrast to the case in its isostructural analogs M2 Pdx X5 (M=Nb, Ta; X=S, Se). Concomitant with the occurrence of superconductivity, anomalies in pressuredependent transport properties are observed, including sign reversal of Hall coefficient, abnormally enhanced resistance, and dramatically suppressed magnetoresistance. Meanwhile, room-temperature synchrotron x-ray diffraction experiments reveal the stability of the pristine monoclinic structure (space group C 2 / m ) upon compression. Combined with the density functional theory calculations, we argue that a pressure-induced Lifshitz transition could be the electronic origin of the emergent superconductivity in Ta2 PdSe6.