Blueshifted Flat Dispersion Relation of Exciton-Polariton Condensates in a CuBr Microcavity

We have investigated cavity-polariton condensation effects on the dispersion relation of the lower polariton branch (LPB) at 77K in a CuBr microcavity by angle-resolved photoluminescence (PL) spectroscopy. The intrinsic cavity-polariton dispersion relations were characterized by the analysis of the incident light angle (in-plane wave vector k(parallel to)) dependence of cavity-polariton energies obtained using angle-resolved reflectance spectroscopy. It was found that a blueshifted PL band appears with a threshold-like nature as a function of excitation power density. The in-plane wave vector dependence of the blueshifted PL energy exhibits a flat dispersion relation in the k(parallel to) range from 0 to similar to 4.4 mu m(-1), which is clearly separated from the intrinsic LPB because of the large blueshift of similar to 15 meV. We show that the blueshifted flat dispersion relation is possibly explained by the theory for a diffusive Goldstone mode peculiar to nonequilibrium cavity-polariton condensation.