Multi-gap nodeless superconductivity in iron selenide FeSex: evident from quasiparticle heat transport

Abstract

The in-plane thermal conductivity of the iron selenide superconductor FeSex (Tc = 8.8 K) were measured down to 120 mK and up to 14.5 T ( 3/4 Hc2). In zero field, the residual linear term 0/T at T 0 is only about 16 μW K-2 cm-1, less than 4% of its normal state value. Such a small 0/T does not support the existence of nodes in the superconducting gap. More importantly, the field dependence of 0/T in FeSex is very similar to that in NbSe2, a typical multi-gap s-wave superconductor. We consider our data as strong evidence for multi-gap nodeless superconductivity in FeSex. This kind of superconducting gap structure may be generic for all Fe-based superconductors.