Carrier relaxation dynamics in intra-gap states: the case of the superconductor Y Ba2 Cu3O7-delta and the charge-density-wave semiconductor K0.3MoO3

Abstract

The unusual slow carrier relaxation dynamics - observed in femtosecond pump-probe experiments on high-temperature superconductors and recently also in a charge-density-wave system - is analyzed in terms of a model for relaxation of carriers in intra-gap states. The data on YBa2Cu3O7-delta near optimum doping and K0.3$MoO3 are found to be described very well with the model using a BCS-like gap which closes at Tc. From the analysis of the data we conclude that a significant intra-gap density of localized states exists in these materials, which can be clearly distinguished from quasiparticle states by the time-resolved optical experiments because of the different time- and temperature-dependences of the photoinduced transmission or reflection. Localized charges are suggested to be the most likely origin of the intra-gap states, while the similarity of the response in the two materials appear to exclude spin and vortex excitations.

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