Evidence for a preformed Cooper pair model in the pseudogap spectra of a Ca(10)(Pt(4)As(8))(Fe(2)As(2))(5) single crystal with a nodal superconducting gap

For high-T(c) superconductors, clarifying the role and origin of the pseudogap is essential for understanding the pairing mechanism. Among the various models describing the pseudogap, the preformed Cooper pair model is a potential candidate. Therefore, we present experimental evidence for the preformed Cooper pair model by studying the pseudogap spectrum observed in the optical conductivity of a Ca(10)(Pt(4)As(8))(Fe(2)As(2))(5) (T(c) = 34.6 K) single crystal. We observed a clear pseudogap structure in the optical conductivity and observed its temperature dependence. In the superconducting (SC) state, one SC gap with a gap size of Δ = 26 cm(−1), a scattering rate of 1/τ = 360 cm(−1) and a low-frequency extra Drude component were observed. Spectral weight analysis revealed that the SC gap and pseudogap are formed from the same Drude band. This means that the pseudogap is a gap structure observed as a result of a continuous temperature evolution of the SC gap observed below T(c). This provides clear experimental evidence for the preformed Cooper pair model.