Optical properties of lattice/spin polarons in underdoped cuprates

In this paper we investigate the optical spectra of one hole in the Holstein-t-J model. We employ a dynamical mean-field theory which becomes exact in the limit of infinite connectivity. This allow us to investigate the local (incoherent) features which are related to the internal structure of the polaron, disregarding coherent motion associated with the Drude-like peak. We show that magnetic and electron-phonon interactions sustain each other in establishing polaronic regime. Polaron formation is reflected in a peculiar mid-infrared (MIR) band which is however notably different in the case of a lattice or magnetic origin. The dependence of ?(?) on the electron-phonon coupling constant ?, on the exchange interaction J and on temperature T is investigated. We compare our results with experimental data in Nd2-xCexCuO4 showing that the doping and temperature dependences of the optical conductivity in this compounds is naturally reproduced by a spin/lattice polaronic model.