Strong nodeless pairing on separate electron Fermi surface sheets in (Tl, K)Fe1.78Se2 probed by ARPES

Abstract

We performed a high-resolution angle-resolved photoemission spectroscopy study of the Tl0.63K0.37Fe1.78Se2 superconductor (Tc=29 K). We show the existence of two electronlike bands at the M(π, 0) point which cross the Fermi level at similar Fermi wave vectors to form nearly circular electronlike Fermi surface pockets. We observe a nearly isotropic 8.5 meV superconducting gap (/kBTc 7) on these Fermi surfaces. Our analysis of the band structure around the Brillouin zone centre reveals two additional electronlike Fermi surfaces: a very small one and a larger one with kF comparable to the FS pockets at M. Interestingly, a SC gap with a magnitude of 8 meV also develops along the latter FS. Our observations are consistent with the s-wave strong coupling scenario.