Nematic charge-density-wave correlations in FeSe1-xSx

Abstract

The occurrence of charge-density-wave (CDW) order is a common thread in the phase diagram of cuprate high-transition-temperature (Tc) superconductors. In iron-based superconductors (FeSCs), nematic order and fluctuations play a decisive role in driving other emergent orders. CDW order has been observed by scanning tunneling microscopy for various FeSCs such as FeSe thin films, uniaxially strained LiFeAs, and tetragonal FeSe0.81S0.19. However, it remains elusive if the CDW in these materials is a bulk phenomenon as well as if and how it intertwines with the electronic nematicity. Using energy-resolved resonant X-ray scattering at the Fe-L3 edge, we report the discovery of a local-strain-induced incommensurate isotropic CDW order in FeSe0.82S0.18. A highly anisotropic CDW response under uniaxial strain unambiguously manifests that the CDW is directly coupled to the nematicity. Transforming part of Fe2+ to Fe3+ on the surface of FeSe1-xSx reveals that the same isotropic CDW can be induced, enhanced, and stabilized in the whole nematic regime measured (x=0-0.19). As Fe3+ can create local lattice distortions on the surface, the CDW could arise from the interaction between the local strain around Fe3+ and the nematic electron correlations. Our experimental observation of a local-strain-induced CDW gives vital information for understanding the interplay between electron correlations and the electronic nematicity in FeSCs.

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