Pressure-induced anomalous enhancement in superconducting critical temperature of transition-metal chalcogenide Ta2PdS6 and Ta2PdSe6

Abstract

The emergence of a second dome in the superconducting phase through pressure-driven manipulation of crystal structures in materials has attracted considerable attention. Transition metal chalcogenides (TMCs) represent a highly promising platform, as the second dome has been observed in several binary compounds. Recently, ternary TMCs such as Ta2PdS6 and Ta2PdSe6 have exhibited pressure-induced superconducting domes. In this study, we perform electrical transport measurements of Ta2PdS6 and Ta2PdSe6 under extremely high pressures exceeding 100 GPa, namely uninvestigated regions in previous reports, to reveal the emergence of the second dome. The superconducting critical temperatures (Tc) in both Ta2PdS6 and Ta2PdSe6 initially decrease with increasing pressure. Subsequently, the Tcs tend to enhance drastically above 100 GPa. Notably, the maximum Tc in Ta2PdS6 is 11.2 K at 130.0 GPa, which is a relatively high record among the TMCs. The emergence of the second dome in Ta2PdS6 and Ta2PdSe6 opens further motivation for the investigation under extreme conditions beyond the first dome to find hidden ordered phases.

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