Mean-field state population study for iron-based superconductors

The occupation number distribution in momentum space are theoretically studied within a two orbital model, which can be unified describing the low-energy physics of the iron pnictides and iron chalcogenides. The mean-field approximation of Hubbard interaction is employed. By tuning the hopping parameters, the difference between the iron pnictides and iron chalcogenides in their occupation number distribution behavior can be clearly observed. The results show that when the pairing interaction tends to zero, the occupation number n(k) approximate to 0 at Gamma point for iron chalcogenides while n(k) approximate to 2 at Gamma point for iron pnictides. By increasing the strength of the pairing interaction to a large value, the change of n(k) at Gamma point for iron chalcogenides (pnictides) is remarkable (unremarkable). In addition, we find that the effect of the nearest-neighbor coupling between the two layers, contained in the S-4 model [Hu and Hao, (2012) [33]], is very weak. (C) 2017 Elsevier B.V. All rights reserved.