Ce-doping and reduction annealing effects on electronic states in Pr2-xCexCuO4 studied by Cu K-edge X-ray absorption spectroscopy

Abstract

We investigated Ce-substitution and reduction annealing effects on the electronic states at copper sites by Cu K-edge x-ray absorption near-edge structure measurements in Pr2-xCexCuO4+α-δ (PCCO) with varying x and δ (the amount of oxygen loss during annealing) values. Absorption near-edge spectra were modified by Ce-substitution and reduction annealing in a similar manner with increasing x and δ. Considering electron doping by Ce-substitution, this similarity indicates an increase of electron number at the copper sites due to annealing n AN. Thus, the total number of electrons is determined by the amount of Ce and oxygen ions. Furthermore, quantitative analyses of the spectra clarified that the number of Cu+ sites, corresponding to the induced electron number by Ce-substitution n Ce increases linearly with x in the as-sintered PCCO (δ=0), whereas n AN is not exactly equal to twice of δ, which is expected from charge neutrality. For each x-fixed sample, n AN tends to exceed 2δ with increasing δ, suggesting the emergence of two types of carrier due to annealing.