We present self-consistent calculations of the multi-gap structure measured in some Fe-based superconductors. These materials are known to have structural disorder in real space and a multi-gap structure due to the 3d Fe orbitals contributing to a complex Fermi surface topology with hole and electron pockets. Different experiments identify three s-wave–like superconducting gaps with a single critical temperature Tc . We investigate the temperature dependence of these gaps by a multi-band Bogoliubov-de Gennes theory at different pockets in the presence of effective hybridizations between some bands and an attractive temperature-dependent intra-band interaction. We show that this approach reproduces the three observed gaps and single Tc in different compounds of BaKFeAs, providing some insights into the inter-band interactions.
Reference: David Möckli and E. V. L. de Mello, EPL 109, 17011 (2015). doi:10.1209/0295-5075/109/17011.