Evolution of pairing symmetry in FeSe1-xSx as probed by uniaxial-strain tuning of Tc

Abstract

In iron-based superconductors (FeSCs), the interplay between electronic nematicity and superconductivity is essential for understanding the exotic superconducting ground state. In the nematic regime, uniaxial-strain () tuning of the superconducting transition temperature Tc [ Tc()=α+β2] offers a unique approach to investigating the evolution of pairing symmetry if both s and d wave pairing instabilities are relevant. Here, we employ uniaxial strain to tune the Tc of FeSe1-xSx, in which both nematicity and superconductivity undergo significant changes with doping. While Tc is usually suppressed quadratically with in optimally doped BaFe2As2, Tc() in FeSe1-xSx dominated by Tc()=β2 changes its sign from β < 0 in FeSe to β > 0 in FeSe1-xSx (x0.10), indicating an evolution of the pairing symmetry from an s state towards an s+d wave state. These findings highlight the Tc() as a powerful probe for elucidating the superconducting pairing symmetry in the nematic regime of FeSCs and provide new insights into the evolution of pairing symmetry in FeSCs.

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