JETP Letters: issues online

Systematic ab initio LDA calculations were performed for all the typical representatives of recently discovered class of iron based high-temperature superconductors: REOFe(As,P) (RE=La,Ce,Nd,Sm,Tb), Ba₂Fe₂As, (Sr,Ca)FFeAs, Sr₄Sc₂O₆Fe₂P₂, LiFeAs and Fe(Se,Te). Non-monotonic behavior of total density of states at the Fermi level is observed as a function of anion height relative to Fe layer with maximum at about $\Delta z_a\sim$ 1.37Å, attributed to changing Fe - As (P,Se,Te) hybridization. This leads to a similar dependence of superconducting transition temperature T_c as observed in the experiments. The fit of this dependence to elementary BCS theory produces semiquantitative agreement with experimental data for T_c for the whole class of iron based superconductors. The similar fit to Allen - Dynes formula underestimates T_c in the vicinity of the maximum, signifying the possible importance of non - phonon pairing in this region. These results unambiguously demonstrate that the main effect of T_c variation between different types of iron based superconductors is due to the corresponding variation of the density of states at the Fermi level.