Observation of an Emergent Coherent State in the Iron-Based Superconductor KFe2As2

Abstract

The optical properties of KFe2As2 have been measured for light polarized in the a-b planes over a wide temperature and frequency range. Below T 155 K, where this material undergoes an incoherent-coherent crossover, we observe a new coherent response emerging in the optical conductivity. A spectral weight analysis suggests that this new feature arises out of high-energy bound states. Below about T FL 75 K the scattering rate for this new feature is quadratic in temperature, indicating a Fermi-liquid response. Theory calculations suggest this crossover is dominated by the dxy orbital. Our results advocate for Kondo-type screening as the mechanism for the orbital-selective incoherent-coherent crossover in hole-overdoped KFe2As2.