Non-local dxy nematicity and the missing electron pocket in FeSe

Luke C. Rhodes, Jakob Böker, Marvin A. Müller, Matthias Eschrig, Ilya M. Eremin
2021 npj Quantum Materials  
AbstractThe origin of spontaneous electronic nematic ordering provides important information for understanding iron-based superconductors. Here, we analyze a scenario where the dxy orbital strongly contributes to nematic ordering in FeSe. We show that the addition of dxy nematicity to a pure dxz/dyz order provides a natural explanation for the unusual Fermi surface and correctly reproduces the strongly anisotropic momentum dependence of the superconducting gap. We predict a Lifshitz transition
more » ... f an electron pocket mediated by temperature and sulfur doping, whose signatures we discuss by analysing available experimental data. We present the variation of momentum dependence of the superconducting gap upon suppression of nematicity. Our quantitatively accurate model yields the transition from tetragonal to nematic FeSe and the FeSe1−xSx series, and puts strong constraints on possible nematic mechanisms.
doi:10.1038/s41535-021-00341-6 fatcat:b5zxflndabcgfh6vmnt7aunfda