Eliashberg approach to superconductivity-induced infrared anomalies in Ba0.68K0.32Fe2As2

Abstract

We report the full complex dielectric function of high-purity Ba0.68K0.32Fe2As2 single crystals with Tc=38.5\ K determined by wide-band spectroscopic ellipsometry at temperatures 10≤ T≤300\ K. We discuss the microscopic origin of superconductivity-induced infrared optical anomalies in the framework of a multiband Eliashberg theory with two distinct superconducting gap energies 2A≈6\ kBTc and 2B≈2.2\ kBTc. The observed unusual suppression of the optical conductivity in the superconducting state at energies up to 14\ kBTc can be ascribed to spin-fluctuation--assisted processes in the clean limit of the strong-coupling regime.